Table of Contents
Message from the Conference Chair............................................ inside front cover
General Information......................................................................2
Registration Hours and Location .................................................2
On-Site Registration Fees.............................................................2
Poster Session Information...........................................................3-4
Conference Co-Sponsors..............................................................4
Special Events ...............................................................................5
Schedule-at-a-Glance ....................................................................6-7
Keynote Sessions ..........................................................................8-27
Panel Sessions...............................................................................27-31
Forums ..........................................................................................31-32
Conference Awards.......................................................................33-34
Tours..............................................................................................35
Technical Sessions .........................................................................36-90
Author Index .................................................................................91-103
Conference Committees...............................................................104
Session Chairs ...............................................................................105-109
Notes.............................................................................................110
Exhibitor Listing ...........................................................................111
Floor Plan ......................................................................................112
IHTC-15 .........................................................................................inside back cover
1
General Information
Acknowledgement
Refreshment Breaks
On behalf of the Assembly of International Heat Transfer Conferences and
its nearly 100 worldwide member societies, it is our sincere pleasure to
welcome you to the 14th International Heat Transfer Conference, to be
held at the Omni Shoreham Hotel in Washington DC, August 8th–13th,
2010, This IHTC14, hosted by ASME, AIChE, and CSME, and cosponsored by Begell House, ONR, NSF, and AIAA, is heir to a long and
rich history of Heat Transfer “Olympics” — with origins that date back to
conferences held in London and Atlantic City in 1951. All poster sessions,
keynotes, panels, forums, exhibits, and committee meetings take place at
the Omni Shoreham Hotel, Washington, DC. Exhibits, posters and coffee
breaks are located in the Diplomat, Palladian, and Ambassador Ballrooms.
Diplomat, Palladian, Ambassador Rooms
Monday, August 9th .................................8:00am – 8:30am
4:00pm – 5:00pm
Tuesday, August 10th ...............................8:30am – 9:00am
Wednesday, August 11th..........................8:30am – 9:00am
4:00pm – 5:00pm
Thursday, August 12th .............................8:30am – 9:00am
4:30pm – 5:30pm
Friday, August 13th...................................8:30am – 9:00am
Name Badges
Registration Hours & Location
Please wear your name badge at all times. Admission to all
conference functions is via the official IHTC-14 meeting badge only.
Your badge also provides a helpful introduction to other registrants.
Registration is located on the lobby level, at the West Registration
Desk of the Omni Shoreham hotel. The hours are as follows:
Conference Proceedings
Saturday, August 7th ................................9:00am – 4:00pm
Sunday, August 8th ..................................7:00am – 6:00pm
Monday, August 9th .................................7:00am – 6:00pm
Tuesday, August 10th ...............................7:00am – 6:00pm
Wednesday, August 11th .........................7:00am – 5:00pm
Thursday, August 12th .............................7:00am – 6:00pm
Friday, August 13th...................................7:00am – 4:00pm
A CD-ROM and abstract book of the 14th International Heat Transfer
Conference proceedings are included as part of the full and one-day
conference registration fees. You can redeem your proceedings at the
ASME booth located in the Palladian Ballroom of the Omni Shoreham
hotel.
Author’s Practice Room
On-Site Registration Fees
The Forum Room on the lobby level of the hotel is available to all
conference participants as a presentation “practice” room. The room
will be equipped with a laptop computer, LCD projector, and screen,
Sunday through Friday.
Member/Presenter....................................$725.00
Nonmember/Presenter.............................$875.00
Student Member.......................................$250.00
Student Non-Member .............................$350.00
Member One Day .....................................$400.00
Non-Member One Day.............................$500.00
Life Member..............................................$150.00
Life Member One Day .............................No Charge
Committee Meeting Only .......................No Charge
Accompanying Guest* .............................$50
Sunday, August 8 ......................................12:00pm – 6:00pm
Monday, August 9.....................................7:00am – 6:00pm
Tuesday, August 10...................................7:00am – 6:00pm
Wednesday, August 11.............................7:00am – 6:00pm
Thursday, August 12 .................................7:00am – 6:00pm
Friday, August 13 ......................................7:00am – 4:00pm
* Includes the Opening Reception and Wednesday Banquet
Session Room Equipment
Additional Conference Fees
Each session room is equipped with a screen and an LCD projector.
There will also be a laptop computer in each room. Speakers should
have a copy of their presentation to load onto this computer via CD
or memory stick. It is recommended that authors/speakers bring all
visual aids with them.
August 11 – Heat Transfer Division Banquet – 7:00pm – 9:00pm: $50
August 12 – Heat Transfer Award Luncheon – 12:00pm – 2:00pm: $45
Box Lunches on Monday, Tuesday, Wednesday, Friday: $40
Tours on Tuesday, August 10
Exhibits
Steven F. Udvar-Hazy Center Annex – 2:00pm – 6:00pm: $20
University of Maryland Tour – 2:00pm – 6:00pm: $20
U.S. Naval Academy Tour – 2:00pm – 6:00pm: $20
NIST – National Institute of Standards
and Technology – 1:00pm – 5:00pm: $20
The exhibit hall opens at 11:00am on Monday, August 9. Exhibits
close at 6:00pm on Thursday, August 12. Attendees will have the
opportunity to visit the exhibits during the following hours:
Registration Policies
Exhibit & ASME Publications Booth Hours
1. Full Registration fees include admission to all technical sessions,
and exhibits, welcome reception, Wednesday banquet, refreshment
breaks, CD ROM of conference paper proceedings and abstract
book.
Monday, August 9, 2010 ..........................11:00am – 6:00pm
Tuesday, August 10, 2010.........................8:30am – 12:30pm
Wednesday, August 11, 2010...................8:30am – 12:30pm
3:30pm – 6:00pm
Thursday, August 12, 2010 .......................8:30am – 12:30pm
3:30pm – 6:00pm
Palladian Ballroom, Lobby Level
2. Students are asked to show a valid student ID.
3. One-day fees include admission to technical sessions and exhibits
for one day and meal functions for that day only, CD ROM of
conference paper proceedings and abstract book.
Tax Deductibility
The expense of attending a professional meeting, such as registration
fees and costs of technical publications, are tax deductible as ordinary
and necessary business expenses for U.S. citizens. However, recent
changes in the tax code have affected the level of deductibility.
4. All attendees, including authors, panelists, chairs, co-chairs, keynote
and forum speakers must pay the appropriate registration fee.
5. No one will be allowed to attend the technical sessions without first
registering and obtaining the official IHTC-14 conference badge.
2
Poster Session Information
As much care should be expended on the preparation of posters as
for the preparation of the original figures in the paper or for the
preparation of slides for an oral paper. Many of the rules for the
preparation of good slides apply to the preparation of good posters.
Poster Sessions
Diplomat, Palladian, Ambassador Rooms
Poster Mounting/ Viewing Schedule
Thursday, August 12, 2010
Monday, August 9, 2010
Poster Session #1
Mounting: 10:00am – 11:00am
Viewing: 11:00am – 1:00pm
Removal: 1:00pm – 2:00pm
Poster Session #6
Mounting: 7:00am – 8:00am
Viewing: 8:00am – 10:00am
Removal: 10:00am – 11:00am
Poster Session #2
Mounting: 3:00pm – 4:00pm
Viewing: 4:00pm – 6:00pm
Removal: 6:00pm – 7:00pm
Poster Session #7
Mounting: 3:30pm – 4:30pm
Viewing: 4:30pm – 6:30pm
Removal: 6:30pm – 7:30pm
Tuesday, August 10, 2010
Friday, August 13, 2010
Poster Session #3
Mounting: 7:30am – 8:30am
Viewing: 8:30am – 10:30am
Removal: 10:30am – 11:30am
Poster Session #8
Mounting: 7:30am – 8:30am
Viewing: 8:30am – 10:30am
Removal: 10:30am – 11:30am
• Keep them simple and avoid overcrowding.
• Make sure letters are legible and large enough for distant reading.
• Poster should include enough contrast between lines or lettering
and background.
Do not try to provide too much information on one sheet.
An overloaded poster rarely attracts attention. Our suggestion is to
display only short sentences or a list of sentences (or phrases) under
each heading preceded by bullets or numbers to describe the work.
Remember, you will be in attendance to provide further information
to delegates.
Poster Arrangement
Each poster station will have an identification number. The
Conference Manager will assign this number. This number will appear
as a poster number in the conference program.
Wednesday, August 11, 2010
It is very important to plan carefully and organize for the optimum use
of the poster space. Subdivision into sections may be helpful.
Comprehension of the poster will be greatly facilitated by mounting
all sections in vertical columns. There is no obligation to fill the entire
space. At the same time, do not mount a complete manuscript that
may take 30 minutes to read!
Poster Session #4
Mounting: 7:30am – 8:30am
Viewing: 8:30am – 10:30am
Removal: 10:30am – 11:30am
Poster Session #5
Mounting: 3:00pm – 4:00pm
Viewing: 4:00pm – 6:00pm
Removal: 6:00pm – 7:00pm
All poster components must be made up before your arrival. The poster
should be assembled, mounted, viewed, discussed, and possibly
improved by your colleagues before setting off to the conference.
Remember that the impression your posters create will greatly influence
the evaluation of your paper by the technical community.
Booth Description and Equipment
Attendance at Booths
Each poster will be assigned a booth equipped with a 96” wide x 48”
high (244 cm wide x 122 cm high) core board with thumb tacks
provided. Audio-visual equipment may be requested.
Eight poster sessions are scheduled from Monday through Friday,
August 9 -13. For papers with multiple authors, only one author needs
to be present during the session, but co-authors can be present. If
authors are unable to be present at their board during the time
assigned, they should arrange for their board to be staffed by a
person familiar with their work. If an author has more than one paper
in the poster session, it is the author’s responsibility to pre-arrange
staffing at each board. It is impossible for a single person to cover
more than one board, and no such plan will be accepted at the
Conference.
Do not mount your poster on hard boards because it will be difficult
to mount on the core board.
Poster Preparation
It is suggested that posters be prepared in a manner that can be
easily understood. Ideally, the content of each poster should be
clearly divided into sections, including abstract, introduction, problem
definition (or aims of the work), summary, results and conclusions. In
short, posters should contain all the essential information of your
paper, but should not be cluttered with unnecessary details. Figures,
charts, photographs, etc. should be similar to those in the preprint of
your paper for easy recognition by conference attendees. Each figure
and table should have a brief title. Overall, your posters should
provide an easily remembered “take home message.”
Mini Lectures
The poster session is much more than a question-answer session. It
should retain all the good points of the oral session as well as provide
an opportunity for individuals to ask specific questions. In this regard,
we urge you to prepare a short (3-5 minutes) oral summary (minilecture) of your paper and give these mini-lectures to the audience at
your board. This will enable them to understand your work, and
encourage them to ask specific questions. You should not anticipate
the audience knowing your research work and immediately asking
questions. Please prepare mini-lectures and deliver when appropriate.
It is recommended that you use PowerPoint since there will be an
LCD projector, computer, and screen provided in the poster rooms.
It is recommended that posters be printed on a single sheet (e.g., 4 ft
wide x 3 ft high), but the final decision regarding poster size is left to
the authors. All lettering and diagrams should be large enough to be
read from a minimum of 2 meters (6 feet). Authors are urged to use
colors, symbols and schemes to improve clarity. Suggested lettering
size is 3 cm (1-1/4”) for the poster title and 2 cm (3/4”) for names and
addresses of authors and section headings, such as ABSTRACT,
INTRODUCTION METHODS, RESULTS, DISCUSSION AND
SUMMARY. Remember, space the typing for easier reading. Prints of
posters on regular paper to hand out to visitors are a good way to
disseminate your work.
Suggestion to Authors
If you can provide something for the participants to carry away, a onepage outline, bibliography, etc., your presentation will be
remembered longer. This is largely a matter of taste, since a published
version of your paper will be available at the conference. Whatever
you furnish should be supplementary information.
3
Poster Session Information / Conference Co-Sponsors
CONFERENCE CO-SPONSORS:
You may provide a sign-up sheet at your booth to collect the names
and addresses of participants who wish to obtain more information
about your paper.
The IHTEC14 is brought to you by the Assembly of International Heat
Transfer Conferences and its nearly 100 member societies. This 14th
offering of the oldest international heat transfer conference is hosted
by several divisions of ASME and by AIChE, as well as CSME. The
participating ASME entities included the Heat Transfer Division,
Bioengineering Division, and the Electronic and Photonic Packaging
Division, as well as the International Gas Turbine Institute. The
Conference is co-sponsored by Begell House, ONR, NSF and AIAA.
Mounting and Removal of Poster
The authors are to arrive at least one-half hour before the poster
session starts. Carefully arrange your posters beforehand; 15 minutes
should be ample time to mount your signs and posters. It is
imperative that you plan the layout of posters before you arrive. It is
the author’s responsibility to remove all the posters and clean the area
before they leave (and within 1 hour after the scheduled session
closing time).
American Institute of Chemical Engineers
Concluding Remarks
Well-organized and well-prepared poster sessions offer a better way
than paper sessions to develop personal contacts in specialized fields
as well as accommodate a large number of papers in one session. It is
hoped that the general suggestions presented here will leave enough
freedom to the authors for individual and imaginative layout of
posters, yet provide the necessary information required for rapid and
efficient transfer of information to the audience.
American Institute of Aeronautics and Astronautics
Publication of Papers in Poster Sessions
Poster presentations are published in the proceedings of the meeting
by submitting the appropriate materials and forms through the
Conference Toolbox. Please note the deadlines for such submissions
in the publication schedule. Posters will appear in the conference CD
and in a special abstract book.
The Canadian Society for Mechanical Engineering (CSME)
National Science Foundation
Office of Naval Research
Supporting Society:
American Nuclear Society
Sponsor of Heat Transfer Banquet:
Begell House, Inc. Publishers
4
Special Events
Heat Transfer Division K-21 Education Committee
Tuesday, August 10, 10:00am – 11:00am
Sales Conference Room
WELCOME RECEPTION
Sunday, August 8, 6:30pm – 8:00pm
Empire Ballroom, Lobby Level. Guests over 16 years of age
accompanying registrants must purchase a ticket to attend the
reception and banquet. Tickets are sold at the West Registration
counter and cost $50.
Heat Transfer Division K-11 Fire and Combustion
Tuesday, August 10 2:00pm – 3:30pm
Director’s Room
INTERNATIONAL HEAT TRANSFER BANQUET
Process Industries Division Executive Committee
Tuesday, August 10, 2:30pm – 4:00pm
Sales Conference Room
Wednesday, August 11, 7:00pm – 9:00pm
Regency Ballroom, Lobby Level
Heat Transfer Division Executive Committee (closed session)
Tuesday, August 10, 3:00pm – 4:30pm
Executive Room
HEAT TRANSFER DIVISION AWARDS LUNCHEON
Thursday, August 12, Noon – 2:00pm
Congressional Room, Lobby Level. Ticket required.
Heat Transfer Division K-10 Heat Transfer Equipment
Tuesday, August 10, 4:00pm – 5:00pm
Director’s Room
KEYNOTE AND PANEL MODERATORS DINNER
Thursday, August 12, 7:00pm – 9:00pm
Blue Room, Lobby Level
Heat Transfer Division Executive Committee (open session)
Tuesday, August 10, 4:30pm – 6:00pm
Executive Room
ASME HEAT TRANSFER DIVISION
COMMITTEE MEETINGS
Sunday, August 8
Wednesday, August 11
Heat Transfer Division K-3 Honors and Awards Committee
Sunday, August 8, 9:00am – 11:00am
Director’s Room
Associate Editors of Thermal Science and Engineering Applications
Wednesday, August 11, 10:00am – 11:30am
Director’s Room
Heat Transfer Division Associate Editors, Journal of Heat Transfer
Sunday, August 8, 3:30pm – 5:00pm
Executive Room
Heat Transfer Division K-13 Heat Transfer in Multiphase Systems
Wednesday, August 11, 9:00am – 10:30am
Committee Room
Monday, August 9
Heat Transfer Division K-6 Heat Transfer in Energy Systems
Wednesday, August 11, 11:00am – 12:30pm
Sales Conference Room
Heat Transfer Division K-12 Aerospace Heat Transfer
Monday, August 9, 11:00am – 12:00pm
Director’s Room
Heat Transfer Division K-14 Gas Turbine Heat Transfer
Wednesday, August 11, 2:00pm – 3:30pm
Sales Conference Room
Heat Transfer Division K-22 Visualization of Heat Transfer
Monday, August 9, 11:00am – 12:00pm
Executive Room
Heat Transfer Division K-15 Transport Phenomena in Manufacturing
and Materials Processing
Wednesday, August 11, 2:00pm – 3:30pm
Committee Room
Heat Transfer Division 2011 ASME/JSME AJTEC Planning
Monday, August 9, 2:30pm – 4:00pm
Congressional Room
Heat Transfer Division K-8 Committee on Theory and Fundamental
Research
Monday, August 9, 2:30pm – 4:00pm
Director’s Room
Thursday, August 12
Heat Transfer Division K-5 Coordination Committee
Thursday, August 12, 2:00pm – 3:30pm
Congressional Room
Heat Transfer Division K-20 Computational Heat Transfer
Monday, August 9, 2:30pm – 4:00pm
Executive Room
ADDITIONAL MEETINGS, BY INVITATION ONLY
Saturday, August 7
Heat Transfer Division K-18 Low Temperature Heat Transfer
Monday, August 9, 2:30pm – 4:00pm
Sales Conference Room
ICHMT - General Assembly
10:00am – 12:00pm, Congressional Room
Tuesday, August 10
ICHMT - Scientific Council
1:00pm – 3:00pm, Congressional Room
Heat Transfer Division Membership Development and Recognition
Tuesday, August 10 10:00am – 11:30am
Executive Room
ICHMT - Executive Committee
3:00pm – 6:00pm, Congressional Room
ICHMT - Dinner
7:00pm – 10:00pm, New Heights Restaurant
Heat Transfer Division 2011 IMECE Conference Planning
Tuesday, August 10, 10:00am – 11:30pm
Committee Room
Tuesday, August 10
Heat Transfer Division K-6 Heat Transfer in Energy Systems
Tuesday, August 10, 10:00am – 11:30am
Congressional Room
Elsevier Editorial Board Meeting
3:00pm – 6:00pm, Committee Room
Heat Transfer Division K-19 Environmental Heat Transfer
Tuesday, August 10, 10:00am – 11:30am
Director’s Room
Eurotherm Committee Meeting
2:00pm – 5:00pm, Director’s Room
Wednesday, August 11
5
Schedule at a Glance
S AT U R D AY, A U G U S T 7
9:00am – 4:00pm
Registration
S U N D AY, A U G U S T 8
7:00am – 6:00pm
6:30pm – 8:00pm
Registration
Welcome Reception
D AY O N E : M O N D AY,
AUGUST 9
7:00am – 6:00pm
8:00am – 8:30am
8:30am – 8:50am
Regency
8:50am – 9:50am
Regency
Registration
Coffee Break
Opening Session
Keynote Lecture 1:
Fourier Lecture
Graham de Vahl Davis
10:00am – 11:00am Keynote Lecture 2:
Blue
From Megawatt to
Gigawatt: New
Developments in
Concentrating Solar
Thermal Power
Hans Mueller-Steinhagen
10:00am – 11:00am Keynote Lecture 3: Max
Regency
Jakob Lecture
Ivan Catton
10: 00am – 11:00am Keynote Lecture 4:
Begell Lecture
Control of Turbulent
Empire
Transport: Less Friction
and More Heat Transfer
Nobuhide Kasagi
11:00am – 6:00pm Exhibits Open
11:00am – 1:00pm Poster Session 1
1:00pm – 2:30pm
Lunch on your own
2:30pm – 4:00pm
Panel Session 1:
Regency
Education in Heat Transfer
Engineering and Thermal
Sciences
Panel Session 2:
2:30pm – 4:00pm
Empire
Polymer-Carbon
Composite Heat
Exchangers –
Challenges and
Opportunities
Panel Session 3:
2:30pm – 4:00pm
Blue
Heat Recovery in
Waste/Biomass to Energy
Systems
Afternoon Break
4:00pm – 5:00pm
Poster Session 2
4:00pm – 6:00pm
Assembly Dinner
7:00pm – 9:00pm
D AY T W O : T U E S D AY,
AUGUST 10
7:00am – 6:00pm
8:30am – 12:30pm
Registration
Exhibits
8:30am – 9:00am
8:30am – 10:30am
10:30am – 11:30am
Empire
Coffee Break
Poster Session 3
Keynote Lecture 5:
Challenging Problems of
Non-Equilibrium
Aerothermodynamics of
Entry Probes
Sergey Surzhikov
10:30am – 11:30am Keynote Lecture 6:
Regency
Heat and Mass Transfer
Issues in the Design of
Solid State Hydrogen
Storage Devices
S.Srinivasa Murthy
10:30am – 11:30am Keynote Lecture 7:
Blue
Computational Heat Transfer
in Complex Systems
Jayathi Murthy
11:35am – 12:35pm Keynote Lecture 8:
Empire
CVD Growth and Thermal
Characterization of
Carbon Nanotubes
Shigeo Maruyama
11:35am – 12:35pm Keynote Lecture 9:
Regency
Turbulence-Radiation
Interaction: From Theory
to Application in Numerical
Simulations
Pedro Coelho
11:35am – 12:35pm Keynote Lecture 10:
Blue
The Flow and Heat
Transfer in a Packed Bed
High Temperature GasCooled Reactor: A
Systems CFD Approach
Jat du Toit
Lunch on your own, then time free time for
private meetings, tours or sightseeing
1:00pm – 5:00pm
NIST Tour
2:00pm – 6:00pm
Naval Academy Tour
Udvar Hazy Annex
2:00pm – 6:00pm
University of Maryland
2:00pm – 6:00pm
DAY T H R E E : W E D N E S DAY,
AU G U S T 1 1
7:00am – 5:00pm
Registration
8:30am – 12:30pm
Exhibits
8:30am – 9:00am
8:30am – 10:30am
Coffee Break
Poster Session 4
10:30am – 11:30am Keynote Lecture 11:
Regency
Whole-body Human
Thermal Modeling, an
Alternative to Immersion in
Cold Water and Other
Unpleasant Endeavors
Eugene Wissler
6
10:30am – 11:30am Keynote Lecture 12:
Empire
Current and Future Needs
in Electric Drive Vehicle
Batteries
Ahmad Pesaran
10:30am – 11:30am Keynote Lecture 13:
Blue
Large-Scale Hydrogen
Production from Nuclear
Energy Using High
Temperature Electrolysis
Jim O’Brien
11:35am – 12:35pm Keynote Lecture 14:
Regency
Manipulation of a Thermal
Emission by Use of Microand Nano-scale Structures
Erez Hasman
11:35am – 12:35pm Keynote Lecture 15:
Empire
Research Challenges in
Heat Transfer to Foods
Peter Fryer
11:35am – 12:35pm Keynote Lecture 16: Direct
Blue
Waste Heat Utilization
from Liquid-Cooled
Supercomputers
Bruno Michel
12:30pm – 2:00pm
2:00pm – 3:00pm
Regency
2:00pm – 3:00pm
Empire
2:00pm – 3:00pm
Blue
3:05pm – 4:35pm
Regency
3: 05pm – 4:35pm
Empire
3:05pm – 4:35pm
Blue
3:30pm – 6:00pm
4:00pm – 5:00m
4:00pm – 6:00pm
Lunch on your own
Keynote Lecture 17:
Heat Transfer in Advanced
Nuclear Power Systems:
Issues and Challenges
Michael Corradini
Keynote Lecture 18:
Reduced Order Thermal
Models of Multi-Scale
Microsystems
Yogendra Joshi
Keynote Lecture 19: Eddie
Leonardi Memorial Lecture
“Natural Convection from
Earth to Space”
Victoria Timchenko
Panel Session 4:
Challenges and
Opportunities in Thermal
and Energy Management
of Information Technology
Centers
Panel Session 5:
Supercritical Heat Transfer
Panel Session 6: Heat and
Mass Transfer in Human
Biology
Exhibits
Afternoon Break
Poster Session 5
Schedule at a Glance
4:00pm – 6:00pm
Hampton
7:00pm – 9:00pm
Regency
Open Forum on Radiative
Transfer and Properties
for Renewable Energy
Applications
International Heat Transfer
Banquet
D AY F O U R : T H U R S D AY,
AUGUST 12
7:00am – 6:00pm
8:30am – 9:00am
8:30am – 12:30pm
8:00am – 10:00am
10:00am – 11:00am
Regency
10:00am – 11:00am
Empire
10:00am – 11:00am
Blue
11:05am – 12:05pm
Regency
11:05am – 12:05pm
Empire
11:05am – 12:05pm
Blue
12:00pm – 2:00pm
Congressional
2:05pm – 3:05pm
Empire
Registration
Coffee Break
Exhibits
Poster Session 6
Keynote Lecture 20:
Thermal Management
Issues in Fuel Cell
Technology
Nigel Brandon
Keynote Lecture 21: Multiscale Simulations of Heat
Transfer and Fluid Flow
Problems
Wen-Quan Tao
Keynote Lecture 22:
History, Advances, and
Challenges in Liquid Flow
and Flow Boiling Heat
Transfer in Microchannels:
A Critical Review
Satish Kandlikar
Keynote Lecture 23:
The Finite Element
Method for Micro-channel
Flow and Heat Transfer
Perumal Nithiarasu
Keynote Lecture 24:
Upscaling Methodology for
Radiative Transfer in
Porous Media; New
Trends
Jean Taine
Keynote Lecture 25:
Space Experiment of
Marangoni Convection on
International Space
Station
Hiroshi Kawamura
Heat Transfer Awards
Luncheon
Keynote Lecture 26:
Macroscale and
Microscale Phenomena
Encountered in Multiphase
Energy Storage and
Transport Systems
Masahiro Kawaji
2:05pm – 3:05pm
Blue
2:05pm – 3:05pm
Regency
3:10pm – 4:40pm
Regency
3:10pm – 4:40pm
Empire
3:10pm – 4:40pm
Blue
3:30pm – 6:00pm
4:30pm – 5:30pm
4:30pm – 6:30pm
4:30pm – 6:30pm
Congressional
7:00pm – 9:00pm
Blue
Keynote Lecture 27:
Inverse Heat Transfer
Problems: New Trends on
Solution Methodologies
and Applications
H.R.B. Orlande
Keynote Lecture 28:
Heat and Mass Transfer at
Phase Change and
Chemical Reactions in
Microscale
Vladimir Kuznetsov
Panel Session 7:
Two-Phase Flow Patterns
in Micro-channels
Panel Session 8: Thermal
and Water Management in
PEFC’s
Panel Session 9:
Heat Transfer, Fluid Flow
and Environmental Issues
Related to Natural
Refrigerants
Exhibits
Afternoon Break
Poster Session 7
Open Forum on US-India
Collaboration
Opportunities in Heat
Transfer
Keynote and Panel
Moderators Dinner
D AY F I V E : F R I D AY,
AUGUST 13
7:00am – 4:00pm
8:30am – 9:00am
8:30am – 10:30am
10:30am – 11:30am
Regency
Registration
Coffee Break
Poster Session 8
Keynote Lecture 29:
Interfacial Thermal Fluid
Phenomena in Thin Liquid
Films
Oleg Kabov
10:30am – 11:30am Keynote Lecture 30:
Blue
Thermosolutal Natural
Convection in Partially
Porous Domains
Dominique Gobin
10:30am – 11:30am Keynote Lecture 31:
Empire
Heat Transfer Design in
Adsorption Refrigeration
Systems for Efficient Use
of Low Grade Thermal
Energy
R. Z. Wang
7
11:35am – 12:35pm Keynote Lecture 32:
Regency
Phononics: A New
Science and Technology
of Controlling Heat Flow
and Processing
Information by Phonons
Baowen Li
11:35am – 12:35pm Keynote Lecture 33:
Blue
Use of Analytical
Expressions of Convection
in Conjugated Heat
Transfer Problems
Reijo Karvinen
11:35am – 12:35pm Keynote Lecture 34:
Empire
Steam Jet Condensation
in a Pool: From
Fundamental
Understanding to
Engineering Scale
Analysis
Chul-Hwa Song
12:30pm – 2:00pm Lunch on your own
2:00pm – 3:00pm
Keynote Lecture 35:
Regency
Influence of Force Fields
and Flow Patterns on
Boiling Heat Transfer
Performance
Paolo Di Marco
2:00pm – 3:00pm
Keynote Lecture 36:
Blue
Recent Advances in
Turbine Heat Transfer with
a View on Transition to
Coal-Gas Based Systems
Minking Chyu
2:00pm – 3:00pm
Keynote Lecture 37:
Empire
Use of CFD in the
Analysis of Heat Transfer
Related Problems that
Arise in Building Energy
Studies
Patrick Oosthuizen
3:05pm – 4:05pm
Keynote Lecture 39: Role
Blue
of Entropy Generation in
Momentum and Heat
Transfer
Heinz Herwig
3:05pm – 4:05pm
Keynote Lecture 40:
Empire
Recent Advances in
Measurement of Turbulent
Reacting Flows in Which
Heat Transfer is
Dominated by Radiation
Graham Nathan
4:05pm – 4:30pm
Closing Session
Regency
Keynote Sessions
Monday, August 9, 8:50am – 9:50am
Regency Ballroom
Keynote 1: Fourier Lecture – A Review of Natural Convection
Graham de Vahl Davis, University of New South Wales, Australia
Graham de Vahl Davis was born in Sydney in 1931. After completing a BE at the University of Sydney in
1951, he undertook a PhD at the University of Cambridge. From 1956 he spent four years as a
Research Officer with the AAEC, initially at Harwell, England, then at Lucas Heights.
In 1960 de Vahl Davis joined the UNSW School of Mechanical and Industrial Engineering. He was
initially responsible for the School’s Refrigeration and Air Conditioning Laboratory and later led the
Heat Transfer Research Group within the Department of Fluid Mechanics and Thermodynamics. During his time with the
School he also held a number of international visiting appointments at institutions such as New York, Brown and Stanford
universities in the USA, Israel’s Hebrew University of Jerusalem and Technion Institute of Technology, and London’s Imperial
College. He spent most of his research career on natural convection and, for several years, on solidification in microgravity.
On 1 January 1981, de Vahl Davis assumed the headship of the School and continued his work to build the School’s capacity
for computational fluid dynamics and heat-transfer research. In 1983 he published his seminal paper “Natural convection of
air in a square cavity: A benchmark numerical solution” which is still one of the most frequently cited papers in that field.
He became Professor in 1991, retired in 1994 and became Emeritus Professor. He is a Member of the Order of Australia and
Fellow of the Academy of Technological Sciences and Engineering as well as several professional societies.
This talk will be a review of some aspects of the computational study of flow and heat transfer, mostly initiated by natural
convection, with which my colleagues, students and I have been associated over a period of almost 50 years, including some
interesting and, perhaps, unexpected phenomena exhibited by such flows.
Among the topics to be discussed are the well-known double-glazed window problem; three dimensional natural convection
in a box; motion on the mid-plane of the box; the dangers of upwind differences; how to do non-dimensionalisation
effectively; the method of the false transient; flow in a thermosyphon; effects of thermal boundary conditions; and natural
convection in a solidifying liquid in microgravity.
Monday, August 9, 10:00am – 11:00am
Blue Room
Keynote 2: From Megawatt to Gigawatt: New Developments in Concentrating Solar Thermal Power
Prof. Muller-Steinhagen, University of Stuttgart, Germany
Prof. Müller-Steinhagen is the director of the Institute of Technical Thermodynamics of the German
Aerospace Centre and the director of the Institute for Thermodynamics and Thermal Engineering of
the University of Stuttgart. His research work covers a wide range of topics related to heat and mass
transfer, multi-phase flow, fuel cells, solar technology and process thermodynamics. Prof. MüllerSteinhagen is the author of more than 550 books and articles, and was awarded the 1992 and 1993
TMS Bauxite Processing Awards, the 1994 Light Metals Award, the Beilby Medal and Prize, the UK Heat Transfer Society Mike
Akrill Trophy, the Best Paper 2000 in the Canadian Journal of Chemical Engineering and the 2009 D.Q Kern Award of the
American Institute of Chemical Engineers. He is a Fellow of the Royal Academy of Engineering, President of EUROTHERM
and of the IMDEA Board of Trustees, member of the Executive Boards of EUREC and ICHMT, and a member of the
Innovation and Sustainability Councils of the State of Baden-Württemberg.
On October 30th 2009, an industrial consortium consisting of 12 major companies initiated a 400 billion Euro project with the
aim to supply by 2050 15% of the European electricity from solar thermal power plants in North Africa. This so-called
Desertec Project has its roots in detailed studies elaborated by the German Aerospace Center, as well as research,
development and demonstration activities which demonstrate the reliability and the economic potential of this technology.
The present paper outlines the Desertec project and its integration into a wider concept to achieve both security and
sustainability of electricity provision for Europe, North Africa and the Middle East. A technology roadmap for solar thermal
power plants is presented and the required R&D efforts are identified. Improved heat transfer processes are in the focus of
this effort. This includes heat storage in the GWh-range for temperatures up to 800°C, direct steam generation at 500°C
within hundreds of kilometres of absorber tubes of parabolic trough collectors, central receivers to provide pressurized gas at
1000°C for solar gas turbine plants, resource-efficient cooling of condensers, transient models of multi-scale processes for
optimised process control as well as solar thermal desalination, fuel up-grading and hydrogen production systems.
Experimental and theoretical research involving all mechanisms of heat transfer and fluid flow is required together with largescale demonstration to resolve the combined challenges of performance and cost. To become relevant for industrial
application, this knowledge must be linked with new developments in materials science, energy economy and meteorology.
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Keynote Sessions
In this paper, innovative concepts already realised in recently completed solar thermal power plants are reported, together
with on-going research activities and recently proposed new ideas. Electricity from solar thermal power plants may become
cost-competitive with mid-load electricity from conventional power plants within 10-15 years, but there is still a wide scope of
improvements to drive costs down even further. The large scale of construction, the high temperatures and the naturally
transient operation provide formidable challenges for academic and industrial R&D.
Monday, August 9, 10:00am – 11:00am
Regency Ballroom
Keynote 3: Max Jacob Lecture: Conjugate Heat Transfer within a Heterogeneous Hierarchical Structure
Ivan Catton, UCLA, USA
Optimization of heat exchangers (HE), compact heat exchangers (CHE) and micro- heat exchangers by
design of their basic structure is the focus of this work. Consistent models are developed to describe
transport phenomena in a porous medium that take into account the scales and other characteristics of
the medium morphology. Equation sets allowing for turbulence and two-temperature or twoconcentration diffusion are obtained for non-isotropic porous media with interface exchange. The
equations differ from known equations and were developed using a rigorous averaging technique, hierarchical modeling
methodology, and fully turbulent models with Reynolds stresses and fluxes in the space of every pore. The transport
equations are shown to have additional integral and differential terms. The description of the structural morphology
determines the importance of these terms and the range of application of the closure schemes. A natural way to transfer from
transport equations in a porous media with integral terms to differential equations with coefficients that could be
experimentally or numerically evaluated and determined is described. The relationship between CFD, experiment and closure
needed for the volume averaged equations is discussed. Mathematical models for modeling momentum and heat transport
based on well established averaging theorems are developed. Use of a ‘porous media’ length scale is shown to be very
beneficial in collapsing complex data onto a single curve yielding simple heat transfer and friction factor correlations.
The general transport equations developed for a single phase fluid in a heat exchange medium have many more integral and
differential terms than the homogenized or classical continuum mechanics equations. Once these terms are dealt with by
closure, the resulting equation set is relatively simple and their solution is obtained using simple numerical methods quickly
enough for multiple parameter optimization using Design of Experiment (DOE) or genetic algorithms. Current efforts to
significantly improve the performance of a HE for electronic cooling, a two temperature problem, and of a finned tube heat
exchanger, a three temperature problem, are described.
Monday, August 9, 10:00am – 11:00am
Empire Room
Keynote 4: Control of Turbulent Transport: Less Friction and More Heat Transfer
Nobuhide Kasagi, University of Tokyo, Japan
Nobuhide Kasagi received BS (1971), MS (1973) and Ph.D. degree (1976) in mechanical engineering
from the University of Tokyo. Since 1976, he has been a faculty member in the Department of
Mechanical Engineering at the University of Tokyo with a sabbatical leave at Stanford University (198081). He is currently serving as Professor of Thermal and Fluids Engineering, and also Member of the
Science Council of Japan and Principal Fellow of the Japan Science and Technology Agency, both of
which are advisory bodies for the science and technology policy of Japan.
He served as President of the Japan Society of Mechanical Engineers, the Japan Society of Fluid Mechanics and the Japan
Society of Computational Fluid Dynamics. He is and has been involved in various international activities as Executive Member
of the International Centre of Heat and Mass Transfer, President of the World Assembly of Experimental Heat Transfer, Fluid
Mechanics and Thermodynamics, Organizer of the International Symposium on Turbulence and Shear Flow Phenomena, and
Editor-in-Chief of the International Journal of Heat and Fluid Flow. He is Fellow of Royal Academy of Engineering, Royal
Swedish Academy of Sciences, ASME, JSME and JSFM.
His current research interest lies in advanced thermal and fluids science and technology such as turbulence control, small-scale
energy systems with gas turbines and solid oxide fuel cells, micro flow systems, and computational fluid dynamics and heat transfer.
Because of the importance of fundamental knowledge on turbulent heat transfer for further decreasing entropy production
and improving efficiency in various thermo-fluid systems, we revisit a classical issue whether enhancing heat transfer is
possible with skin friction reduced or at least not increased as much as heat transfer. The answer that numerous previous
studies suggest is quite pessimistic because the analogy concept of momentum and heat transport holds well in a wide range
of flows. Nevertheless, the recent progress in analyzing turbulence mechanics and designing turbulence control offers a
chance to develop a scheme for dissimilar momentum and heat transport. By reexamining the governing equations and
boundary conditions for convective heat transfer, the basic strategies for achieving dissimilar control in turbulent flow is
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Keynote Sessions
generally classified into two groups, i.e., one for the averaged quantities and the other for the turbulent fluctuating
components. As a result, two different approaches are discussed presently. First, under three typical heating conditions, the
contribution of turbulent transport to wall friction and heat transfer is mathematically formulated, and it is shown that the
difference in how the local turbulent transport of momentum and that of heat contribute to the friction and heat transfer
coefficients is a key to answer whether the dissimilar control is feasible. Such control is likely to be achieved when the weight
distributions for the stress and flux in the derived relationships are different. Secondly, we introduce a more general
methodology, i.e., the optimal control theory. The Fréchet differentials obtained clearly show that the responses of velocity
and scalar fields to a given control input are quite different due to the fact that the velocity is a divergence-free vector while
the temperature is a conservative scalar. By exploiting this inherent difference, the dissimilar control can be achieved even in
flows where the averaged momentum and heat transport equations have the same form.
Tuesday, August 10, 10:30am – 11:30am
Empire Room
Keynote 5: Challenging Problems of Non-Equilibrium Aerothermodynamics of Entry Probes
Sergey Surzhikov, Yu Ishlinski Institute for Problems in Mechanics, Russian Academy of
Sciences, Russia
Sergey T. Surzhikov Date of birth: April 6, 1952. City of Birth: Olonets, Country of Birth: Karelia (north
autonomous region of USSR) Married, 2 children 1. Education 1975 : Moscow State Technical University
(the Baumanski Institute); Certificate of degree with honors. M.Sci. in Mechanical Engineering; Aerospace
Department; General subjects: spacecraft and space vehicle designing, chemical and physical mechanics,
heat and mass transfer, radiative heat transfer, gas dynamics, booster engines designing. 1984 : Moscow State University;
Certificate of degree with honors. M.Sci. in Physics; Department of Physics; General subjects: general physics, theoretical
physics, mathematical modeling and applied mathematics, plasma physics, gas discharges, laser physics, radiative heat transfer.
2. Experience 1978 – 1980: Scientist, Senior Scientist of the Central Scientific-Research Institute (TsNIIMash) 1984 – 1986: Head
of subdivision of the Central Scientific-Research Institute (TsNIIMash) 1986 – 1988: Senior Scientist of the Institute for Problems
in Mechanics Russian Academy of Sciences (Department of the Physical Gas Dynamics) 1988 – present : Professor of the
Moscow Institute for Physics and Technology (MIPT) 1991 – 1992: Leading Scientist of the Institute for Problems in Mechanics
Russian Academy of Sciences (Department of the Physical Gas Dynamics) 1992 – 1997: Deputy Head of the Laboratory for
Physical Problems in Gas Dynamics 1997 – 2004: Head of the Radiative Gas Dynamics Laboratory of the Institute for Problems in
Mechanics Russian Academy of Sciences 2004 –present Deputy Director of the Institute for Problems in Mechanics Russian
Academy of Sciences 2006 – present Corresponding member of Russian Academy of Sciences 3. Participation in Scientific and
Engineering Associations 1995 – 2004 : Member, Senior Member of the American Institute of Aeronautics and Astronautics
2005 – present: Associate Fellow of the American Institute of Aeronautics and Astronautics.
A number of future space missions include scenarios where radiative heating becomes important. To develop a prediction
computational fluid dynamics (CFD) tools for re-entry flows where radiation is important, some major areas are addressed.
Most significant of them are the following: (1) physical-chemical kinetics of high temperature dissociated and ionized gases,
(2) transport properties of the gases mixtures, (3) spectral radiative properties of high temperature gases and lowtemperature plasmas, (4) numerical simulation algorithms for prediction of non-equilibrium gas mixtures dynamics and
radiation heat transfer in volumes of various geometry, (5) models of physical and chemical processes attendant interaction of
gas flows and radiation with thermo-protection systems of space vehicles (including their thermo-chemical destruction,
ablation, sublimation, etc.). State of the art of computational aerophysics based on modern one-, two-, and three-dimensional
computational fluid dynamic codes is discussed in view of future missions on Mars, Saturn, Titan, Jupiter, as well as return
space vehicles from planets and different bodies of Solar system, including Moon. As a rule, these codes are based on the
following groups of governing equations: (a) the Navier-Stokes and continuity equations, (b) the equations of mass
conservation of separate species, (c) the equation of energy conservation, including total and vibrational energy, and
electronic energy, as well as (d) radiation heat transfer equation (in multi-group approximation). The codes contain also
different calculation codes for prediction spectral optical properties of high temperature gases. Calculations are performed
with using a multi block and multi grid computational technology on structured calculation meshes, as well as on unstructured
grids. Numerical simulation results which demonstrate good agreement of obtained calculation data with experimental and
flight data are demonstrated. These numerical simulations were performed for different classes of space vehicles, like the
Pathfinder, MSRO, segmental-conical, MSL, Exomars for different classes of entering trajectories. Several kinetic models of
gas phase reactions and models of physical kinetics of non-equilibrium dissociation and ionization are discussed. It is shown
that studied kinetic models (such as the Park et al. model, the Dunn and Kang model, the Martin model, the Carlson et al.
model, our own models) provide acceptable agreement between species distributions for conditions close to thermodynamic
equilibrium, but there are some discrepancies between experiment and calculated data for non-equilibrium conditions.
Formulation of current problems of computational radiation gas dynamics of space vehicles is presented and discussed.
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Keynote Sessions
Tuesday, August 10, 10:30am – 11:30am
Regency Ballroom
Keynote 6: Heat and Mass Transfer Issues in The Design of Solid State Hydrogen Storage Devices
Professor S. Srinivasa Murthy, Indian Institute of Technology, Madras, India
Professor S. Srinivasa Murthy is a Professor in Refrigeration & New Energy Technologies at the
Indian Institute of Technology Madras, India; where he held many positions including ChairmanMechanical Engineering Department, Dean-Industrial Consultancy & Sponsored Research,
Member-Board of Governors, etc.
In the past four decades, Prof. Srinivasa Murthy has extensively worked on Heat and Mass Transfer
related problems in various applications such as Refrigeration (Absorption Systems / New Working Fluids); Energy
Conservation & Heat Recovery (Heat Pumps / Heat Transformers); Solar Thermal Energy Utilisation and Solid State Hydrogen
Storage (Heat & Mass Transfer & Thermodynamics). He has published over 300 research papers including about 150 in
refereed International Journals. In these areas, he has supervised 28 Doctoral and over 100 Masters theses.
Prof. Srinivasa Murthy is a Member of Scientific Council of International Center for Heat and Mass Transfer; Country Delegate
to the Assembly for International Heat Transfer Conferences and also to the International Institute of Refrigeration. He is the
Regional Editor: of Applied Thermal Engineering (Elsevier) and is on the Editorial Boards of several International Journals. He
is the President of the Indian Society for Heat and Mass Transfer, and Vice President of Solar Energy Society of India. He is a
Fellow of Six professional Academies and Societies, including ASME.
Metal hydrides are formed when certain metals or alloys are exposed to hydrogen at favorable temperatures and pressures.
In order to sustain the sorption of hydrogen during this exothermic process, the generated heat has to be removed
effectively. Release of hydrogen is an endothermic process needing supply of heat to the metal hydride matrix. Depending on
the application, the heat transfer medium can be either a liquid or a gas. Reduction of the total weight of hydrogen storage
devices is essential towards utilization of hydrogen for mobile and portable applications. While a variety of new storage
materials with desirable sorption characteristics are being suggested, optimal thermal design of the storage device remains a
major challenge. Lack of thermodynamic, transport and thermophysical property data of the material particles and of the bed
is another drawback which needs to be addressed.
Tuesday, August 10, 10:30am – 11:30am
Blue Room
Keynote 7: Computational Heat Transfer in Complex Systems
Jayathi Murthy, Purdue University, USA
Jayathi Murthy is Robert V. Adams Professor of Mechanical Engineering at Purdue University and Director
of PRISM: NNSA Center for Prediction of Reliability, Integrity and Survivability of Microsystems. She
received her Ph.D degree from the University of Minnesota in the area of numerical heat transfer and has
worked in both academia and in industry. During her employment at Fluent Inc., a leading vendor of CFD
software, she developed the unstructured solution-adaptive finite volume methods underlying their
flagship software Fluent, and the electronics cooling software package ICEPAK. More recently, her research has addressed submicron thermal transport, and the development of numerical techniques for concurrent electro-thermal simulation in emerging
electronic devices. She is the recipient of the IBM Faculty Partnership award 2003-2005, the 2004 Journal of Electronics
Packaging Best Paper award, the 2007 ASABE Best Paper Award and the 2008 ASME HTD Best Paper Award. Prof. Murthy
serves on the editorial board of Numerical Heat Transfer, is an editor of the 2nd edition of the Handbook of Numerical Heat
Transfer, and serves as Associate Editor of the ASME Journal of Heat Transfer. She has served on numerous national committees
and panels on electronics thermal management and CFD, and is the author of over 200 technical publications.
The talk reviews the challenges facing the development of computational techniques for heat transfer and fluid flow in
complex multiscale and multiphysics systems, and offers suggestions for future research.
Tuesday, August 10, 11:35am – 12:35pm
Empire Room
Keynote 8: CVD Growth and Thermal Characterization of Carbon Nanotubes
Dr. Shigeo Maruyama, The University of Tokyo, Japan
Dr. Shigeo Maruyama is a professor and Chairman of Mechanical Engineering, School of Engineering at
The University of Tokyo. He received his Ph.D. in Mechanical Engineering from The University of Tokyo
in 1988 and worked as a research associate at the same department. While he is research associate of
the University of Tokyo, he joined Professor Richard E. Smalley (Nobelaureate in Chemistry (1996)
group at Rice University as visiting fellow for about 2 years during 1989 through 1991. During this
period, he changed his research field from turbulent heat transfer to chemical physics of clusters, fullerenes, and carbon
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Keynote Sessions
nanotubes. After returning to The University of Tokyo, he worked as Lecturer for a year, then associate professor from 1993
and then from 2004 as a full professor. During this period he was appointed at Engineering Research Institute in School of
Engineering for 3 years. He has explored a new field of “molecular and nano-scale thermal engineering” in the field of
mechanical engineering. After his discovery of new CVD generation technique of single-walled carbon nanotubes from
alcohol in 2002, he concentrated on the studies of generation mechanism of single-walled carbon nanotubes through CVD
generation, molecular dynamics simulations, optical spectroscopy, application for electrical and energy devices. He is a Fellow
of Japan Society of Mechanical Engineering. He is an editor of “Nanoscale and Microscale Thermophysical Engineering,” an
associate editor of “International Journal of Heat and Mass Transfer,” an associate editor of “International Communications in
Heat and Mass Transfer,” an editorial board member of “Nano,” and an advisory Board member of “International Journal of
Thermal Sciences.” He is assigned as program officer of Japan Society for the Promotion of Science (JSPS) from 2009.
Single-walled carbon nanotubes (SWNTs) are noble promising material for many applications. Growth process of single-walled
carbon nanotubes by chemical vapor deposition (CVD) is discussed through several experiments and molecular dynamics
simulations. Heat transfer issues related with SWNTs, such as thermal conductivity of each SWNTs, thermal properties of
composite materials with SWNTs, thermal boundary resistance between SWNTs and other material will be also discussed.
Tuesday, August 10, 11:35am – 12:35pm
Regency Ballroom
Keynote 9: Turbulence-Radiation Interaction: From Theory to Application in Numerical Simulations
Professor Pedro Coelho, Instituto Superior Tecnico, Technical University of Lisbon, Portugal
Prof. Pedro Coelho has a B.Sc. in Mechanical Engineering (1984), a M.Sc. in Energy Transfer and Conversion
(1988), a Ph.D. in Mechanical Engineering (1992) and the Habilitation in Mechanical Engineering (2005). All
the degrees were obtained from Instituto Superior Técnico, Technical University of Lisbon. He is currently
Associate Professor in the area of Thermofluids and Technologies of Energy Conversion at the Mechanical
Engineering Department of Instituto Superior Técnico, where he has taught since 1984. He is responsible for
the group of disciplines of Transport Phenomena, and he has taught Computational Mechanics, Heat Transfer, Advanced Heat
Transfer and Combustion. He was the coordinator of the Master in Mechanical Engineering in 2007-2008, and is vice-President of
the Mechanical Engineering Department since 2009. He has more than 50 papers published in international journals, and more
than 80 papers presented at international conferences. He is co-author of a book on Combustion (in Portuguese) for undergraduate
and master students. He has participated in more than 20 projects, most of them sponsored by the European Community and by
the Portuguese Science and Technology Foundation. His research is in the field of numerical simulation of heat transfer and
combustion problems. Specific areas of interest are radiation models, gas radiative properties, turbulence-radiation interaction,
turbulent diffusion flames, mild combustion and industrial combustion equipment.
Theoretical analysis and experimental investigations have shown that the mean heat fluxes in turbulent gaseous flows are
influenced not only by the mean scalar fields (temperature and molar fraction of the species), but also by the scalar fluctuations. It
is widely recognized that the increase of radiative fluxes in comparison with laminar flows may exceed 100%. This interaction
between turbulence and radiation is mainly due to the non-linearity between radiative emission and temperature. It is particularly
important in reactive flows, since temperature fluctuations are typically higher in these flows than in non-reactive ones.
In this article, a survey of the theory concerning turbulence-radiation interaction (TRI) is presented, along with applications in
numerical simulations. We firstly present experimental and theoretical fundamentals on TRI. Then, direct numerical simulation
and stochastic methods are addressed. Although they provide reliable information on TRI, they are too computationally
demanding for practical applications. We will then focus on methods based on the solution of the time-averaged form of the
conservation equations. Although many different approaches are available, we will concentrate on two methods. One is based
on the solution of the time-averaged form of the radiative transfer equation using the optically thin fluctuation approximation,
and a combustion model based on a prescribed probability density function (pdf) approach. The second one is based on the
photon Monte Carlo method for radiative transfer calculations in media represented by discrete particle fields, and a
combustion model based on the Monte Carlo solution of the transport equation for the joint pdf of scalars. Finally, the role of
TRI in large eddy simulation is discussed, and the main consequences of TRI in combustion systems are summarized.
Tuesday, August 10, 11:35am – 12:35pm
Blue Room
Keynote 10: The Flow and Heat Transfer in a Packed Bed High Temperature Gas-Cooled
Reactor: A Systems CFD Approach
Professor C.G. (Jat) du Toit, North-West University, South Africa
C.G. (Jat) du Toit is professor of Mechanical Engineering at the North-West University. He has
published more than 60 papers in international and national journals and conference proceedings and
was the co-editor of the proceedings of two conferences.
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Keynote Sessions
He is a registered professional engineer with practical experience in the fields of civil, mechanical, chemical and metallurgical
engineering and focuses on computational fluid dynamics modelling. He is a partner of a commercial engineering software
development and consulting firm. In this capacity he is member of the Flownex systems CFD simulation software
development team, which has sold licenses in the USA, Europe, Japan and Africa.
He has also been a senior technical consultant for the Pebble Bed Modular Reactor (PBMR) project since 1999 and serves on
the editorial board of the national “R&D Journal” and the international journal “Computational Thermal Sciences”. He is a
past-president of the executive committee of the South African Association for Theoretical and Applied Mechanics, a
member of the General Assembly of the International Union for Theoretical and Applied Mechanics, a member of the
Assembly for International Heat Transfer.
His current interests are the development of advanced thermal-fluid simulation models for the PBMR nuclear reactor, the
application of a new global approach to the finite element method and the development of a multilevel solution strategy
within the systems CFD framework.
In the development of the proposed pebble-bed modular reactor (PBMR) power conversion cycle engineers must be able to
predict the performance of individual thermal-fluid components, as well as the thermal-fluid performance of the integrated
plant consisting of all its sub-systems. The paper will endeavour to give an overview of some the studies performed to
address this issue. The focus will first be on the systems CFD methodology that provides the engineer with the basis for the
progressive thermal-fluid analysis of the plant. A typical investigation will start out with a first order analysis consisting of 1D
and lumped models. The complexity of the simulation can then gradually and selectively be increased and eventually also the
level of abstraction until the required degrees of complexity and levels of abstraction are reached. This will be determined by
the nature of the simulation and the detail and character of the information required. The paper will subsequently address the
thermal-fluid modelling of the reactor within this framework. The 1D comprehensive network model that was developed
requires a proper understanding of the various phenomena that influence the thermal-fluid performance of the reactor.
Phenomena that were investigated, are amongst others, the porous structure, pressure drop, convection heat transfer and
the effective thermal conductivity. A thorough knowledge of the porous structure within the packed bed is important to any
rigorous analysis of the transport phenomena, as all the heat and flow mechanisms are sensitive to the porous structure. In
this paper a new approach to simulate the effective thermal conductivity for randomly packed beds using existing correlations
is discussed. More attention is given to packing structure using coordination number and contact angles, resulting in a more
accurate simulation of the bulk and wall regions.
Wednesday, August 11, 10:30am – 11:30am
Regency Ballroom
Keynote 11: Whole-Body Human Thermal Modeling, an Alternative to Immersion in Cold
Water and Other Unpleasant Endeavors
Dr. Eugene H. Wissler, University of Texas at Austin, USA
Dr. Eugene H. Wissler became interested in human thermal physiology while stationed at the Army
Medical Research Laboratory at Fort Knox. His first assignment involved analyzing various aspects of
finger cooling, which led to his developing the first multi-element human thermal model. Although
generating numerical results for that rather crude model required hours of hand calculation, it laid the
groundwork for more realistic models that followed, including several developed by Dr. Wissler.
The human thermoregulatory system is capable of maintaining the temperature of critical within a suitable range over a wide
range of ambient conditions. This paper discusses the physical and physiological aspects of thermal regulation in the human.
Complex interactions between various systems are described in terms of a whole-body mathematical model. Several
applications of the model are discussed.
Wednesday, August 11, 10:30am – 11:30am
Empire Room
Keynote 12: Current and Future Needs in Electric Drive Vehicle Batteries
Ahmad A. Pesaran, National Renewable Energy Laboratory, Golden, Colorado
Ahmad Pesaran holds a Ph.D. in Mechanical Engineering from University of California, Los Angeles. He
has worked at the National Renewable Energy Laboratory since 1983 on various energy efficiency
technologies in building, advanced air conditioning, and automotive batteries. Dr. Pesaran started
working on thermal management of batteries and ultracapacitors for hybrid electric and plug-in electric
vehicles since 1995 collaborating with car and battery manufacturers on as part of the US Department
of Energy’s Vehicle Technologies Programs. He currently leads several projects for Department of Energy and industrial
partners, which include thermal characterization and analysis of batteries, electrochemical-thermal modeling and simulation of
batteries and ultracapacitors for use in hybrid and plug-in vehicles. He is an active member of the FreedomCAR
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Keynote Sessions
Electrochemical Energy Storage Technical Team and is a member of Society of Automotive Engineers and American Society
of Mechanical Engineers. He has presented and chaired many sessions at the ASME-sponsored conferences.
Batteries are considered to be a critical component for making future transportation more energy efficient and less
dependent on petroleum through hybrid, plug-in hybrid, electric, and fuel cell vehicles. In this paper, the current status of
batteries for electric drive vehicle applications will be discussed. Special attention will be given to the thermal issues
associated with batteries in vehicle environment. We will also discuss future needs of batteries for further development.
Wednesday, August 11, 10:30am – 11:30am
Blue Room
Keynote 13: Large-Scale Hydrogen Production from Nuclear Energy using High Temperature Electrolysis
Dr. James O.Brien, Sr. Research Engineer, Idaho National Laboratory
Dr. James O’Brien received his Ph.D. in Mechanical Engineering from the University of Minnesota in
1981 with a specialty in Heat Transfer. He served as a member of the ME faculty at Penn State from
1981 – 1985 and as a research engineer at NASA Lewis (now Glenn) from 1985 – 1990. He joined the
Idaho National Laboratory in 1990. At INL, he has performed research on boiling heat transfer, heat
transfer enhancement, energy conversion, and other energy-related research topics. His research has
focused on high-temperature electrolysis for the past several years. He is the author or co-author of more than 30 journal
articles and 90 conference papers on a variety of topics in thermal sciences.
Hydrogen can be produced from water splitting with relatively high efficiency using high-temperature electrolysis. This
technology makes use of solid-oxide fuel cells, running in reverse to produce hydrogen from steam, while consuming
electricity and high-temperature process heat. When coupled to an advanced high-temperature nuclear reactor, the overall
thermal-to-hydrogen efficiency for high-temperature electrolysis can be as high as 50%, which is about double the overall
efficiency of conventional low-temperature electrolysis. Current hydrogen production is based almost exclusively on steam
reforming of methane, a method that consumes a precious fossil fuel while emitting carbon dioxide to the atmosphere.
Demand for hydrogen is increasing rapidly for refining of increasingly low-grade petroleum resources, such as the Athabasca
oil sands and for ammonia-based fertilizer production. Large quantities of hydrogen are also required for conversion of
biomass to liquid fuels. If supplemental nuclear hydrogen is used, almost all of the carbon in the biomass can be converted to
liquid fuels in a nearly carbon-neutral fashion. Ultimately, hydrogen may be employed as a direct transportation fuel in a
“hydrogen economy.” The tremendous quantities of hydrogen that would be required for this concept should also be
produced without consuming fossil fuel or emitting greenhouse gases.
An overview of the high-temperature electrolysis program at the Idaho National Laboratory (INL) will be presented, including
basic theory, modeling, and experimental activities. Modeling activities include both computational fluid dynamics and largescale systems analysis. We have also demonstrated high-temperature electrolysis in our laboratory at the 15 kW scale,
producing over 5500 L/hr of hydrogen.
Wednesday, August 11, 11:35am – 12:35pm
Regency Ballroom
Keynote 14: Manipulation of a Thermal Emission by Use of Micro- and Nanoscale Structures
Dr. Erez Hasman, Technion – Israel Institute of Technology, Haifa, Israel
Erez Hasman is the Head of Micro and Nanooptics Laboratory, Faculty of Mechanical Engineering and
Russell Berrie Nanotechnology Institute, Technion – Israel Inst. of Technology, Haifa 32000, Israel. He
received the B.Sc. degree (in physics) in 1981 from the Tel Aviv University, the M.Sc. degree in 1985
from the Technion, Haifa, and the Ph.D. in 1992 from Weizmann Institute of Science, Rehovot, Israel.
From 1981 to 1986, he was a senior scientist in Rafael company. From 1992 to 1998, he was in the
optics industry as the chief physicist of graphic and recognition products line, in Optrotech company, and later as the
technology analysis manager and head of physics group in Elop company in Israel. Presently, he is an associate Professor of
optical sciences and head of Micro and Nanooptics Laboratory, Faculty of Mechanical Engineering and Russell Berrie
Nanotechnology Institute, Technion – Israel Inst. of Technology, Haifa, Israel. Prof. Erez Hasman has a wide experience in
physical optics and specifically in nanoscale – optics. His group has made significant contributions in the field of nanophotonics and radiative heat transfer from nanostructures, and specifically for developing a new branch in optics – spinoptics:
The symmetry breaking in nanostructures due to spin-orbit interaction, potentially opens a new avenue for controlling light in
nanometer-scale optical devices. His nanooptics laboratory is involved in research of nanoscale structures, surface plasmon
polaritons, near-field manipulation, and thermal radiation from nanoscale-structures. (see also: www.technion.ac.il/optics)
In high temperature and vacuum applications, when heat transfer is predominantly by radiation, the material’s surface
morphology is of substantial importance. Several micro and nanostructures designs have been proposed to enhance the
material’s emissivity and its radiative coherence, as control of thermal emission is of crucial concern in the design of infrared
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Keynote Sessions
sources, optical filters, solar cells, and sensing devices. In this lecture, we discuss different mechanisms to modify the thermal
emission. High coherent thermal emission from a periodic microstructure is experimentally and theoretically presented in the
mid-infrared. The enhanced coherency is due to coherent coupling between resonant cavities obtained by surface standing
waves. Other approach introduces coherent thermal source by forming a plasmonic bandgap structure upon metal at
radiation frequencies that are much smaller than the plasma frequency. Such a structure modifies the dynamics of the surface
wave and results in a Van Hove singularity in the spectral density of states. Finally, we show that the radiative modes can be
controlled by the structure geometry.
Wednesday, August 11, 11:35am – 12:35pm
Empire Room
Keynote 15: Research Challenges in Heat Transfer to Foods
Dr. Peter J. Fryer, University of Birmingham, UK
Peter Fryer studied Chemical Engineering at Cambridge at undergraduate and PhD level and was then
appointed to a lectureship there. He left Cambridge in 1994 to move to Birmingham, where he has
built up a large group studying how to apply engineering principles to foods. He is currently Head of
School and Director of the EPSRC Centre for Formulation Engineering. His research interests are into
heat transfer to foods, including chocolate, ice cream and beer, especially in how to produce safe
foods and deliver taste and nutritional value.
Heat transfer in foods is a commonplace operation in the home and restaurant, but is also the basis for a very large industry.
Foods are complex non-Newtonian soft solids or structured liquids whose thermal behaviour is difficult to model; but
engineering understanding is needed to develop processes that are safe and products that are attractive to the consumer.
The increasing incidence of obesity in the developed world, and of food shortage elsewhere, demands that the industry
adopts processes that give nutritious products in environmentally acceptable ways. This paper reviews the heat transfer
problems that are found in food processing, with particular reference to the modelling of heating operations to ensure safety,
problems that are found in the fouling and cleaning and process plant, and how heating and cooling are used to generate
structure. Research challenges for the future are outlined.
Wednesday, August 11, 11:35am – 12:35pm
Blue Room
Keynote 16: Direct Waste Heat Utilization from Liquid-Cooled Supercomputers
Dr. Bruno Michel, Manager Advanced Thermal Packaging, IBM Zurich Research Laboratory –
Advanced Thermal Packaging
Bruno Michel received a Ph.D. degree in bio-chemistry/biophysics from the University of Zurich,
Switzerland in 1988 and subsequently joined the IBM Zurich Research Laboratory to work on scanning
probe microscopy and its applications to molecules and thin organic films. He then introduced microcontact printing and led an international industry project for the development of accurate large-area
soft lithography for the fabrication of LCD displays. Dr. Michel started the Advanced Thermal Packaging group in Zurich in
2003 in response to the needs of the industry for improved thermal interfaces and better miniaturized convective cooling.
Main current research topics of the Zurich group are microtechnology / microfluidics for nature inspired miniaturized tree-like
hierarchical supply networks, hybrid liquid / air coolers, 3D packaging, and thermophysics to understand heat transfer in
nanomaterials and structures. With the high-performance coolers he contributes to improved datacenter efficiency and
energy re-use in future green datacenters.
Chip microscale liquid-cooling reduces conductive and convective resistance thereby improving the efficiency of datacenters
by allowing coolant temperatures above the free cooling limit in all climates. This eliminates the need for chillers and allows
the thermal energy to be re-used in cold climates. Replacing the combustion processes for secondary users with recycled
heat from the datacenter effectively eliminates carbon dioxide emission during the winter season and reduces operating cost
throughout the year. The energy balance of emission-reduced datacenters is compared with a classical air cooled datacenter,
a datacenter with free cooling in a cold climate zone, and a datacenter with chiller-mediated energy re-use. Hot water cooled
datacenters reduce the effective energy cost by almost a factor of two compared to a current datacenter and reduce the
carbon footprint by an even larger factor. Our energy re-use concept has been demonstrated in terms of cost and energy
savings in a 60 ºC liquid cooled supercomputer. Additional alternative energy re-use schemes in hot climates for desalination
and adsorption cooling allow close to full use of datacenter heat in all climates and all seasons. Output temperatures for
these applications compared to space heating need to be 10-20 ºC higher which becomes possible through hotspot adapted
cooling that eliminates mixing of fluids with different temperatures. In addition, interlayer cooled chip stacks allow double
sided hotspot optimized cooling even closer to the heat source with low flow rates and low pumping power. That improves
the large efficiency gain that becomes possible through 3D chip stacking.
15
Keynote Sessions
Wednesday, August 11, 2:00pm – 3:00pm
Regency Ballroom
Keynote 17: Heat Transfer in Advanced Nuclear Power Systems: Issues and Challenges
Professor Michael L. Corradini, University of Wisconsin, Madison
Michael L. Corradini is Chair of Engineering Physics and Wisconsin Distinguished Professor of Nuclear
Engineering and Engineering Physics at the University of Wisconsin-Madison. He also holds
appointments in the Department of Mechanical Engineering and the Institute of Environmental
Studies. Previously, at Sandia National Laboratories he was principal investigator for LWR vapor
explosion research and for the USNRC as well as other severe accident research. He was elected a
1990 Fellow of the American Nuclear Society. In 1998, he was elected to the National Academy of Engineering. He has also
served as a presidential appointee in 2002 and 2003 as the chair of the Nuclear Waste Technical Review Board (a separate
government agency). In 2004, he was appointed as a board member on the INPO National Accreditation Board for Nuclear
Training and the National Council on Radiation Protection. Most recently, he was appointed to the scientific advisory board of
the French Civilian Atomic Energy Agency. In 2006, he was appointed to the USNRC Advisory Committee on Reactor
Safeguards. Most recently, he began the Energy Institute at the University of Wisconsin. The Energy Institute is a Universitywide center connecting faculty and staff with research, education and outreach opportunities to aid the state and nation.
Almost 450 nuclear power plants are currently operating throughout the world and supplying about 17% of the world’s
electricity. These plants perform safely, reliably, and have no free-release of byproducts to the environment. Given the current
rate of growth in electricity demand and the ever growing concerns for the environment, nuclear power can only satisfy the need
for electricity and other energy-intensive products if it can demonstrate (1) enhanced safety and system reliability, (2) minimal
environmental impact via sustainable system designs, and (3) competitive economics. The U.S. Department of Energy with the
international community has begun research on the next generation of nuclear energy systems that can be made available to the
market by 2030 or earlier, and that can offer significant advances toward these challenging goals; in particular, six candidate
reactor system designs have been identified. These future nuclear power systems will require advances in materials, reactor
physics, as well as thermal-hydraulics to realize their full potential. However, all of these designs must demonstrate enhanced
safety above and beyond current light water reactor systems if the next generation of nuclear power plants is to grow in number
far beyond the current population. This paper reviews the advanced Generation-IV reactor systems and the key safety
phenomena that must be considered to guarantee that enhanced safety can be assured in future nuclear reactor systems.
Wednesday, August 11, 2:00pm – 3:00pm
Empire Room
Keynote 18: Reduced Order Thermal Models of Multi-Scale Microsystems
Dr. Yogendra Joshi, Georgia Institute of Technology, USA
Yogendra Joshi is Professor and John M. McKenney and Warren D. Shiver Distinguished Chair at the
G.W. Woodruff School of Mechanical Engineering at the Georgia Institute of Technology in Atlanta,
GA. His research interests are in multi-scale thermal management. He received a Bachelor of
Technology degree in Mechanical Engineering from the Indian Institute of Technology in Kanpur in
1979, Master of Science in Mechanical Engineering from the State University of New York, Buffalo in
1981, and a Doctor of Philosophy in Mechanical Engineering and Applied Mechanics, from the University of Pennsylvania in
1984. He is the author or co-author of over 200 archival journal and conference publications, and is an elected Fellow of the
ASME and the American Association for the Advancement of Science. He has served as Associate Editor for the ASME J. of
Electronics Packaging (two terms) and the ASME J. Heat Transfer, and is currently an Associate Editor for the IEEE
Transactions in Components and Packaging Technologies and as Guest Editor for the ASME J. Heat Transfer. He was a corecipient of ASME Curriculum Innovation Award (1999), Inventor Recognition Award from the Semiconductor Research
Corporation (2001), the ASME Electronic and Photonic Packaging Division Outstanding Contribution Award in Thermal
Management (2006), ASME J. of Electronics Packaging Best Paper of the Year Award (2008), IBM Faculty Award (2008), and
IEEE Semitherm Significant Contributor Award (2009). His research team won the Intel Data Center Efficiency Challenge
Competition in the Enterprise Category in 2009.
Thermal systems often involve multiple spatial and temporal scales, where transport information from one scale is relevant at
others. Optimized thermal design of such systems and their control require approaches for their rapid simulation. These
activities are of increasing significance due to the need for energy efficiency in the operation of these systems. Traditional fullfield simulation methodologies are typically unable to resolve these scales in a computationally efficient manner. We handle
the simulations of conjugate transport processes over selected length scales of interest via reduced order modeling through
approaches such as compact finite elements, and proper orthogonal decomposition. In order to incorporate the influence of
length scales beyond these, lumped models are invoked, with appropriate handshaking between the two frameworks. We
illustrate the methodology through selected examples, with a focus on information technology systems.
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Keynote Sessions
Wednesday, August 11, 2:00pm – 3:00pm
Blue Room
Keynote 19: Eddie Leonardi Memorial Lecture “Natural Convection: from Earth to Space”
Dr. Victoria Timchenko, The University of New South Wales, Australia
Dr. Victoria Timchenko received her Honours Degree in Physics from Kharkov State University, Ukraine
in 1983 and her Ph.D. in Engineering from the Institute for Problems in Machinery, The Ukrainian
Academy of Sciences, in 1993. In 1994 she started to work in the University of NSW, Sydney, Australia
as a Researcher. Currently she is a Senior Lecturer in the School of Mechanical and Manufacturing
Engineering, UNSW, Australia. Her research interests include natural convection, solidification and
melting processes under earth gravity and microgravity conditions, MEMS synthetic jet actuators for the cooling of integrated
circuits, enhancement of heat transfer in dimpled/protruded surface heat exchangers.
She will present a lecture dedicated to the memory of Prof. Eddie Leonardi, formerly International Heat Transfer Conference
(IHTC-13) Secretary, who tragically died in early age on December 14, 2008. Eddie Leonardi had a large span of research
interests, he has worked in both computational fluid dynamics/heat transfer and refrigeration and air-conditioning for over 25
years. However starting from his PhD ‘A Numerical Study of the Effects of Fluid Properties on Natural Convection’ obtained in
1984, one of his main passions was natural convection and therefore the focus of this lecture will be on what Eddie Leonardi
has achieved in numerical and experimental investigations of laminar natural convective flows.
Thursday, August 12, 10:00am – 11:00am
Regency Ballroom
Keynote 20: Thermal Management Issues in Fuel Cell Technology
Nigel Brandon, Energy Engineers Laboratory, Imperial College, UK
Prof. Nigel Brandon FREng has been working in the field of fuel cell science, engineering and
technology for the past 18 years, firstly in industry with BP and Rolls-Royce) and now in academia
(Imperial College London). He was a founder of Ceres Power in 2001, an AIM listed company
developing fuel cell mCHP products, where he holds the position of Chief Scientific Advisor, having
previously held positions as CEO and CTO. He was awarded the Silver Medal from the UK Royal
Academy of Engineering in 2007 for his work on fuel cell engineering leading to commercial exploitation. He is Senior Fellow
to the Research Council energy programme, UK focal point in climate change, energy and environment with China, and
Director of the Energy Futures Lab at Imperial College, which leads multi-disciplinary energy research at Imperial College
The paper will review the current state of the art in fuel cell technology, and discuss emerging trends in fuel cell engineering,
with particular reference to the important role of thermal management in determining performance.
Thursday, August 12, 10:00am – 11:00am
Empire Room
Keynote 21: Multiscale Simulations of Heat Transfer and Fluid Flow Problems
Wen-Quan Tao, Xi’an Jiaotong University, China
Tao Wen-Quan is a Professor of Xi’an Jiaotong University. He received his undergraduate diploma in
1962 and the graduate diploma in 1966 from Xi’an Jiaotong University. He is now the Associate Editor
of ASME Journal of Heat Transfer, International Journal of Heat & Mass Transfer and International
Communication in Heat Mass Transfer. His research interests include: Advanced computational
methods and their applications, Multiscale simulations of heat transfer and fluid flow problems,
enhancement of heat transfer: theory and applications, Heat transfer and fluid flow in mini and micro channels.
Multiscale simulation is a rapidly evolving area of research that will have a great impact on computational mathematics and
numerical modeling in engineering. In this keynote lecture following parts are included. First, what is multiscale problem. In
the thermal and fluid science multiscale problems may be classified into two categories: multiscale process and multiscale
system. By multiscale process we mean that the overall behavior is governed by processes occur at different length scales. By
multiscale system we refer to a system that is characterized by a large variation in length scales. The cooling of an electronic
system is such a typical multiscale system. Existing numerical methods for three geometric scales (macro, meso and micro) are
briefly mentioned. In the second part the necessity of multiscale simulation is discussed. Examples are provided for multiscale
process and multiscale system. In this lecture focus is put on the simulation of multiscale process. In the third section numerical
approaches developed for the simulation of multiscale processes are presented. There are two types of simulation approaches.
One is the usage of a general governing equation and solving the entire flow field involving a variation of several orders in
characteristic geometric scale. The other is the so-called “solving regionally and coupling at the interfaces”. In this approach
the processes at different length level are simulated by different numerical methods and then information is exchanged at the
interfaces between different regions. The exchange of information should be conducted in a way that is physically meaningful,
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Keynote Sessions
mathematically stable, and computationally efficient. The key point is the establishment of the reconstruction operator, which
transforms the data of few variables of macroscopic computation to large amount of variables of microscale or mesoscale
simulation. For different coupling cases the existing methods for such operators are briefly reviewed. In the fourth part, four
numerical examples of multiscale simulation are presented: liquid flow in nanochannels with roughness by using MDS and
FVM, flow and heat transfer in a micro nozzle by using DSMC in fluid and FVM in solid, flow past a cylinder and natural
convection heat transfer in a square cavity by using coupled FVM and LBM. Finally, it is pointed out that we have a long way
to go in order to have a successful full multiscale simulation for the complicated engineering problems as transport process in
PEMFC and refrigerant condensation process on a enhanced surface. Further researches are highly required to establish
robust and quick-convergent numerical solution approaches. Some further research needs are proposed.
Thursday, August 12, 10:00am – 11:00am
Blue Room
Keynote 22: History, Advances, and Challenges in Liquid Flow and Flow Boiling Heat Transfer
in Microchannels: A Critical Review
Dr. Satish Kandlikar, Rochester Institute of Technology, USA
Satish Kandlikar is the Gleason Professor of Mechanical Engineering at RIT. He received his Ph.D. degree
from the Indian Institute of Technology in Bombay in 1975 and has been a faculty there before coming
to RIT in 1980. He has worked extensively in the area of flow boiling heat transfer and CHF phenomena
at microscale, single-phase flow in microchannels, high heat flux chip cooling, and water management in
PEM fuel cells. He has published over 200 journal and conference papers. He is a Fellow member of ASME and Associate
Editor of a number of journals including ASME Journal of Heat Transfer. He is Executive Editor of Heat Exchanger Design
Handbook published by Begell House. He has received the RIT’s Eisenhart Outstanding Teaching Award in 1997 and Trustees
Outstanding Scholarship Award in 2006. He has received the 2008 Rochester Engineer of the Year award from Rochester
Engineering Society. Currently he is working on DOE and GM sponsored projects on Fuel Cell water management under
freezing conditions, and an NSF sponsored project on roughness effect on fluid flow and heat transfer at microscale.
As the scale of devices becomes small, thermal control and heat dissipation from these devices can be effectively
accomplished through the implementation of microchannel passages. The small passages provide a high surface area to
Volume ratio that enables higher energy transfer rates. High performance microchannel heat exchangers are also attractive in
applications where space and/or weight constraints or performance enhancements are desired. This survey article provides a
historical perspective of the progress made in understanding the underlying mechanisms in single-phase liquid flow and twophase flow boiling processes and their use in high heat flux removal applications. Future research directions for (i) further
enhancing the single-phase heat transfer performance, and (ii) enabling practical implementation of flow boiling in
microchannel heat exchangers, are outlined.
Thursday, August 12, 11:05am – 12:05pm
Regency Ballroom
Keynote 23: The Finite Element Method for Microchannel Flow and Heat Transfer
Dr. P. Nithiarasu, Civil and Computational Engineering Centre, Swansea University
Professor P. Nithiarasu (PN) is a personal chair and EPSRC advanced fellow at Civil and Computational
Engineering centre (C2EC), School of Engineering, Swansea University. PN obtained his
undergraduate, postgraduate and PhD degrees from India before moving to Swansea University in
1996 as a research fellow to work with Professor O.C. Zienkiewicz. PN became a lecturer at Swansea
University in 2000, senior lecturer in 2004, reader in 2006 and full professor in 2008. He was awarded a
DSc by Swansea University in 2007. PN’s research interests include computational fluid dynamics, heat transfer and
biomedical modelling. PN is one of the two editors of newly transformed journal “International Journal for Numerical
Methods in Biomedical Engineering” published by Wiley. PN is a winner of Zienkiewicicz silver medal (ICE, 2002) and
ECCOMAS award (2004). PN has published more than 150 research articles and co-authored two text books in the areas of
computational heat transfer, fluid dynamics and biomedical engineering. PN co-chairs three international conferences and
one of them is in the area of computational thermal problems (www.thermacomp.com).
In this paper, the finite element method for modelling of microchannel flow and heat transfer is discussed. The situations that
need unstructured mesh technology are highlighted in addition to the flexible nature of the finite element method for
problems with the need for adaptive refinement. Many of these aspects are demonstrated by solving flow and heat transfer
through microchannels. Both mechanically driven and electrokinetically driven single phase flows in microchannels are
considered. A brief discussion is provided on enhancement methods in which the finite element modelling can help. Only a
selection of results are presented in this paper. More results will be presented during the conference.
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Keynote Sessions
Thursday, August 12, 11:05am – 12:05pm
Empire Ballroom
Keynote 24: Upscaling Methodology for Radiative Transfer in Porous Media; New Trends
Jean Taine, Professor, Ecole Centrale Paris
Issued from the Department of Physics of École Normale Supérieure de Cachan, Graduate from Université Paris VI, Docteur
es Sciences in Chemical Physics from Université ParisSud, Professor of École Centrale Paris (Statistical Physics, Heat transfer).
Previously Deputy Scientific Director, in Charge of Mech. Eng. and Energy at the Ministry of Research of France; Chair of the
International Scientific Committee of IHTC12 (Grenoble 2002). Editor of International Journal of Heat and Mass Transfer.
Author of a textbook on Heat Transfer (4th edition) and Energy. Research fields have been: molecular relaxation of CO2 for
atmospheric applications, models of gas radiation at high temperature for heat transfer, coupled gas radiation and
turbulence; and now, coupled turbulent combustion and radiation, radiation of porous media.
The X and gamma ray tomography techniques lead today to an accurate knowledge of the morphology of most of the
porous media. From this knowledge, the radiative properties of these media can be accurately characterized, at any spatial
scale, by a statistical cumulated extinction distribution function, absorption and scattering cumulated probabilities and a
general scattering phase function. When the homogenized medium associated with a porous medium follows the Beer’s laws,
extinction, absorption and scattering coefficients can be identified from these statistical functions. In all other cases, a
Generalized Radiative Transfer Equation (GRTE), directly expressed from these statistical functions, is associated with the
porous medium. When the medium is optically thick at a spatial scale such as it can be considered isothermal, the radiative
transfer can be modeled from a radiative Fourier law; the radiative conductivity is then directly determined by a perturbation
technique of the GRTE or RTE. Three strategies for calculating radiation transfer in porous media, based on the GRTE, on the
RTE or simply on diffusion, are then discussed. Paths for future research are finally given.
Thursday, August 12, 11:05am – 12:05pm
Blue Room
Keynote 25: Space Experiment of Marangoni Convection on International Space Station
Hiroshi Kawamura, Suwa Tokyo University of Science, Japan
1970: Graduated from graduate school of the University of Tokyo Ph.D. Since 1970: Scientist at Japan
Atomic Energy Research Institute. Since 1988: Professor of Tokyo University of Science. Since 2008:
Professor of Suwa Tokyo University of Science. 1983-2008 Principal scientist of Marangoni convection
experiment on the International Space Station.
The Japanese Experimental Module “Kibo” on the International Space Station ISS has been
constructed and is now devoted to various space experiments. The authors are conducting a series of experiments on the
Marangoni convection in a liquid bridge on ISS since August 2008. A liquid bridge with a diameter of 30 mm and the
maximum length of 60mm was formed in a microgravity. Temperature difference was imposed between both end plates and
Marangoni convection was induced. Critical condition for the transition from steady to oscillatory flow was measured. Three
dimensional velocity profile was obtained using the PTV. Traveling surface temperature wave was visualized by an IR camera.
Procedure of performing the space experiment and major results will be presented in the talk.
Thursday, August 12, 2:05pm – 3:05pm
Empire Room
Keynote 26: Macroscale and Microscale Phenomena Encountered In Multiphase Energy
Storage and Transport System
Masahiro Kawaji, Department of Chemical Engineering & Applied Chemistry, University of
Toronto, Canada
Masahiro Kawaji is Professor at the University of Toronto and City College of New York. He has been
conducting research on multiphase flow and phase change heat transfer.
Complex macroscale and microscale heat and mass transfer phenomena encountered in several thermal
energy storage and transport systems are discussed. Thermal storage and transport systems involving ice slurries and
nanoemulsions of phase change materials can be used for either cooling or heating applications or both, which can contribute
to the reduced usage of electricity during peak hours. But heat and mass transfer and stability issues are encountered in the
production, transport and storage of the heat storage media. Both the heat transfer enhancement effect and detrimental
effects such as Ostwald ripening and supercooling will be discussed. Another interesting microscale phenomenon recently
encountered in energy transport devices such as heat pipes is the enhancement of heat transport with the use of self-rewetting
fluids. Critical heat fluxes in boiling can be enhanced by up to 300% and this helps prevent liquid dryout at high heat fluxes in
different types of heat pipes. Both the nature of the enhancement effect and possible mechanisms will be discussed.
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Keynote Sessions
Thursday, August 12, 2:05pm – 3:05pm
Blue Room
Keynote 27: Inverse Heat Transfer Problems: New Trends On Solution Methodologies And
Applications
H.R.B. Orlande, Federal University of Rio de Janiero, Brazil
Professor Orlande has authored and co-authored over 170 international technical publications in
diverse fields involving computational and analytical heat transfer, fluid mechanics, inverse problems,
optimization, control and thermal tomography. He is member of scientific council of the International
Centre for Heat and Mass Transfer (International Centre for Heat and Mass Transfer) and also of the
International Scientific Committee do International Symposium on Convective Heat and Mass Transfer in Sustainable Energy.
He is currently an Associate Editor of the international journal on Inverse Problems in Science and Engineering, Journal on
Heat Transfer Engineering and Journal on High Temperatures High Pressures. Nowadays, he works at the department of
mechanical engineering of Federal University of Rio de Janeiro.
Systematic methods for the solution of inverse problems have developed significantly during the last twenty years and have
become a powerful tool for analysis and design in engineering. In fact, inverse analysis is today a common practice in which
the groups involved with experiments and numerical simulation synergistically collaborate throughout the research work, in
order to obtain the maximum of information regarding the physical problem under study. On the other hand, the successful
application of these methods calls for increasing elaboration of the physical and mathematical models, controlled
experiments, and perhaps most importantly, feasible models for the related uncertainties. Inverse problems are
mathematically classified as ill-posed, that is, their solutions do not satisfy either one of the requirements of existence,
uniqueness or stability. The solution approaches generally consist of the reformulation of the inverse problem in terms of an
approximate well-posed problem. A variety of techniques is nowadays available for the solution of inverse problems, which
can be found in the open literature. In this paper we review various approaches for the solution of inverse heat transfer
problems, including those based on classical regularization techniques, as well as those based on the Bayesian statistics. Such
techniques are then applied to the solution of inverse problems of practical interest, such as the characterization of nonhomogeneous materials in micro-scales, as well as the prediction of the temperature field in oil pipelines.
Thursday, August 12, 2:05pm – 3:05pm
Regency Ballroom
Keynote 28: Heat and Mass Transfer with Phase Change and Chemical Reactions in Microscale
Vladimir V. Kuznetsov, Institute of Thermophysics, Russian Academy of Sciences, Russia
Vladimir V. Kuznetsov is the Head of Department of Thermophysics of Multiphase Systems at the
Kutateladze Institute of Thermophysics, Siberian Branch of the Russian Academy of Sciences and
Professor of Novosibirsk State University, Novosibirsk, Russian Federation. He received the M.Sc.
degree (in physics) in 1972 from the Novosibirsk State University, Ph.D degree in 1978 from the
Kutateladze Institute of Thermophysics and the degree of Doctor of Science in Physics and
Mathematics in 1995 from the same institute. His research interests are the characterization of multiphase phenomena and
heat transfer with phase change in micro and nanoscale structures, multispecies transport and heat transfer in microchannels
with catalytic chemical reactions, transport phenomena and wave propagation in multiphase systems including high rate
phase change. He has published over 200 journal and conference papers. He is Deputy Editor-in-Chief of Journal of
Engineering Thermophysics, member of the National Committee on Heat and Mass Transfer, Russian Academy of Sciences.
In recent years considerable attention has been paid to the study of microscale flow and heat transfer with phase change and
chemical reactions. This article reviews the patterns of the microscale two-phase gas-liquid flow, the statistical parameters of
slug flow and capillary phenomena in annular flow for a rectangular microchannel. The evaporative and condensing heat
transfer model for the curved liquid microfilm in microchannel and near contact line is developed and discussed. The
influence of forced convection, nucleate boiling and thin film evaporation on microscale flow boiling heat transfer is reviewed
and analyzed. The model of forced boiling heat transfer in microchannel is developed and compared with the existing
experimental data. The mechanism and patterns of microscale explosive evaporation in the MEMS system is determined at
high external heat flux density and the acousto-thermal model of the explosive evaporation is considered. The results of
calculations are compared with the experimental data. The peculiarities of heat and mass transfer in a micro channel with
surface catalytic reactions producing the hydrogen are presented. The kinetics of sequence of chemical reactions at nanoscale
catalyst under conditions of significant nonuniformity of temperature and species concentration fields is considered.
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Keynote Sessions
Friday, August 13, 10:30am – 11:30am
Regency Ballroom
Keynote 29: Interfacial Phenomena in Thin Liquid Films
Oleg Kabov, Professor, Institute of Thermophysics, Russian Academy of Sciences, Russia
Professor Oleg A. Kabov graduated from the Tomsk Polytechnic State University, Russia, in 1978 and
received the Ph.D. degree in the technical sciences from the Institute of Thermophysics, Siberian Branch
of Russian Academy of Sciences (IT) in 1987. In 1999 he received the degree of Doctor of Sciences in
Physics and Mathematics (habilitation) from the same institute. Since 1987, he has been the Head of
Laboratory of Enhancement of Heat Transfer in IT (Novosibirsk). His current research interests include the
areas of shear-driven and falling liquid films, cooling systems of microelectronics, physics of two-phase flows in microgravity, as
well as convective and vapour space condensation. Since 1997 he has also been involved in an intensive collaboration with a
Research Staff of the Universite Libre de Bruxelles and has been managing the “Two-Phase System Group” of the Microgravity
Research Center of ULB. He is involved as a coordinator in the preparation of several experiments performed under
microgravity conditions (Parabolic Flights, Sounding Rockets, International Space Station). He has authored and coauthored
more than 180 papers in referred journals and conference proceedings and has delivered more than 50 keynotes, plenary, and
invited lectures at technical conferences and institutions. Since 1994 he is serving as regional editor of the Journal of Enhanced
Heat Transfer and since 2009 he is a member of editorial board of the Journal of Microgravity Science and Technology. Since
2005 he is also co-director of the Heat Transfer International Research Institute of ULB and IT RAS. In 2007 he was granted the
diploma of Professor on thermal physics and thermal fluids science of Russian Academy of Sciences. Since 2009 he is involved
in close cooperation with Center of Smart Interfaces of Technische Universität Darmstadt as a Fellow.
The heat transfer, dynamics, stability and rupture of thin liquid films with and without phase-change have fascinated scientists
over many decades. Films are ubiquitous in nature and play an important role in our daily life. Thin film flows occur over a
wide range of flow rates (Re=10-2 – 106) and length scales (10-6 – 103 m) and are central to several areas of engineering. The
paper focuses on the recent progress that has been achieved in the interfacial thermal fluid phenomena in thin liquid films
through conducting experiments. Phase shift schlieren technique, fluorescence method and infrared thermography have
been used. Some experiments have been done during parabolic flight campaigns of the European Space Agency under
microgravity conditions. A spenwise regular structures formation was discovered for films falling down an inclined plate with a
built-in local rectangular heater. If the heating is low enough, a stable 2D flow with a bump at the front edge of the heater is
observed. For lager heat flux this primary flow becomes unstable, and the instability leads to another steady 3D flow, which
looks like a regular structure with a periodically bent leading bump and an array of longitudinal rolls or rivulets descending
from it downstream. The heat flux needed for the onset of instability grows almost linearly with the increase of Re number.
Strong surface temperature gradients up to 10-13 K/mm, both in the streamwise and spanwise directions have been
measured. For a wavy film it was found that heating may increase the wave amplitude because thermocapillary forces are
directed from the valley to the crest of the wave. Thin and very thin (less than 10 µm) liquid films driven by a forced gas/vapor
flow (stratified or annular flows), i.e. shear-driven liquid films in a narrow channel are a promising candidate for the thermal
management of advanced semiconductor devices in earth and space applications. Development of such technology requires
significant advances in fundamental research, since the stability of joint flow of locally heated liquid film and gas is a rather
complex problem. Experiments with water and FC-72 in flat channels (height 0.2-2 mm) have been conducted. Maps of flow
regimes were plotted. It was found that stratified flow exists and stable in the channels with 0.2 mm height and 40 mm width.
The critical heat flux for a shear driven film may be up to 10 times higher than that for a falling liquid film, and reaches 400
W/cm2 in experiments with water at atmospheric pressure. This fact makes use of shear-driven liquid films promising in high
heat flux chip cooling applications. It was found that decreasing of gravity leads to a flow destabilization.
Friday, August 13, 10:30am – 11:30am
Blue Room
Keynote 30: Thermosolutal Natural Convection in Partial Porous Domains
Dr. Dominique Gobin, Universite Pierre Marie Curie, France
Dr. Dominique Gobin, born in 1951, is a research director at CNRS (France). He got a degree in
Electrical engineering (Supelec – 1974) and a PhD in Mechanical engineering (Paris – 1984). He is a staff
scientist at FAST Laboratory (Orsay) in the Heat Transfer Group. His research activity deals with coupled
heat and mass transfer in processes involving natural convection in fluid and/or porous media and
solid-liquid phase change. His main field of interest concerns the interaction of convective transfer and
instabilities in a fluid phase with the dynamics of a phase change interface. His present activity focuses on solidification of
binary mixtures, numerical simulation of double diffusive convection in composite fluid-porous domains and the modelling of
spreading and solidification of droplets impacting cold substrates. D. Gobin is teaching fundamentals of heat transfer at Ecole
Centrale de Paris and has supervised 20 PhD students. He is the editor-in-chief of the “International Journal of Thermal
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Keynote Sessions
Sciences”. In 2007 and 2008 he has been the scientific director of IRSN (French Institute for Radioprotection and Nuclear
Safety). He is presently vice-director of USAR, a support unit of the French National Agency for Research.
In many industrial processes or natural phenomena coupled heat and mass transfer and fluid flow take place in configurations
combining a clear fluid and a porous medium. The modelling of such systems has been a controversial issue, essentially due
to the description of the interface between the fluid and the porous domains. The validity of the so-called one-domain
approach – more intuitive and numerically simpler to implement – compared to a two-domain description where the interface
is explicitly accounted for, is now clearly assessed.
This paper reports recent developments, concerning the numerical simulation of such flows as well as the stability studies.
The continuity of the conservation equations between a fluid and a porous medium are examined and the conditions for a
correct handling of the discontinuity of the macroscopic properties are analyzed. A particular class of problems dealing with
thermal and double diffusive natural convection mechanisms in partially porous enclosures is presented, and it is shown that
this configuration exhibits specific features in terms of the heat and mass transfer characteristics, depending on the properties
of the porous domain.
Friday, August 13, 10:30am – 11:30am
Empire Room
Keynote 31: Heat Transfer Design in Adsorption Refrigeration Systems for Efficient Use of Low
Grade Thermal Energy
Wang Ruzhu (R. Z. Wang), Shanghai Jiao Tong University, China
Wang Ruzhu (R. Z. Wang), graduated from Shanghai Jiao Tong University in 1984 and 1987 for his
bachelor and master degrees, he received his PhD from Shanghai Jiao Tong University in 1990 in the
field of Refrigeration and Cryogenics (he was a sandwich PhD student between SJTU and Free
University Berlin during April 1988 to March 1990), he was promoted to associate professor in 1992,
and professor in 1994. He had been appointed as the director of Institute of Refrigeration and Cryogenics, Shanghai Jiao
Tong University since 1993. Prof. Wang has published about 300 journal papers, about 180 of them are in international
journals. He has written 5 Books regarding Refrigeration Technologies. His major contributions are adsorption refrigeration,
heat transfer to superfluid helium, heat pumps, CCHPs and solar energy systems. He was elected as CheungKong Chaired
Professor in 2000 by the Ministry of Education (MOE) of China. Currently He is the president of Shanghai Society of
Refrigeration, the vice chairman of Chinese Society of Heat Transfer. Prof. Wang was elected as one of the top one hundred
outstanding professors in China Universities by MOE China in 2007. He was awarded as model teacher of China in 2009.
He is the associate editor of Energy-the international journal, Solar Energy, and Chinese Journal of Solar Energy (Acta Solaries
Sinica), Chinese Journal of Refrigeration. He is also the editorial board member of International Journal of Refrigeration,
Applied Thermal Engineering, Energy Conversion and Management, Chinese Science Bulletin, Chinese Journal of Chemical
Engineering, Chinese Journal of Engineering Thermophysics, Journal of Shanghai Jiao Tong University.
In the last ten years, he was invited to give plenary or keynote lectures in international conferences for 8 times, such as 3
plenary lectures for International Sorption Heat Pump Conference (2002-Shanghai, China; 2005-Denver, USA; 2008-Seoul,
Korea), 1 plenary lecture for 7th IIR Gustav Lorentzen Conference on Natural Refrigerants (May 28-32, Trondheim, Norway), 2
keynote lectures for International Seminar of Heat Pipes, Heat Pumps and Refrigerators (Minsk 2001, 2005) , 1 keynote
lecture for International Conference on Multiphase Flow (2004, Japan), 1 keynote lecture for AICARR’2008 (the annual
conference of Italy Association of Refrigeration) (2008, Vicenza, Italy).
Adsorption refrigeration and heat pump have been considered as very important means for the efficient use of low grade
thermal energy in the temperature range (60-150°C). The all adsorption systems are merely heat exchangers based
thermodynamic systems, good design of heat transfer means and the ways to couple heat and mass transfer with reaction or
sorption processes are the key issues for the performances of a sorption system. The heat and mass transfer in adsorption
beds have been studied in details, in which the adsorbent bed could be arranged with finned heat exchanger embedded
with adsorbent particles, or the adsorbent particles could be compressed and solidified and then coupled with finned tube or
plate heat exchangers, the use of expanded graphite seemed to be the best option to improve both heat and mass transfer
efficiently. The study shows that heat transfer in adsorption bed should be enhanced to couple with the heat transfer of
thermal fluids. Heat pipes and good thermal loop design could yield the thermal performances of a sorption system very
efficient, which could be coupled with heating and cooling to the sorption beds well. A novel design with passive evaporation
called as rising film evaporation was introduced, which is coupled with a gravity heat pipe for smart cooling output. It is also
shown that heat and mass recovery in the internal sorption systems are critical to improve performances, novel arrangement
of fluid and refrigerant may result high performance sorption systems. Based upon the above researches, various sorption
systems have been developed, and high efficient performances have been reached. Typical sorption systems include (1) A
silica gel-water adsorption water chillier with a COP about 0.55 when powered with 80oC hot water, (2) A CaCl2-ammonia
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Keynote Sessions
adsorption refrigerator with a COP over 0.3 at -20 °C when powered with 120 °C water vapor, which has a specific cooling
power about 600 W/kg-adsorbent. The above systems have shown that solid sorption systems have been becoming a market
potential products, low grade thermal energy, which was usually considered as waste heat, could be transferred into high
grade cooling. This paper shows the detailed high efficient solid sorption systems, their heat transfer design, thermodynamic
system coupling, performance test results. Some examples of low grade thermal powered cooling systems were also shown.
Friday, August 13, 11:35am – 12:35pm
Regency Ballroom
Keynote 32: Phononics: A New Science and Technology of Controlling Heat Flow and
Processing Information by Phonons
Prof. Baowen Li, Director, National University of Singapore
Prof. Baowen Li received his B.Sci (1985) in Physics from Nanjing University, M.Sci (1989) from Chinese
Academy of Sciences, Beijing, and Dr.rer.nat (1992) from Universitat of Oldenburg. He joined NUS in
2000 as an assistant professor, and promoted to associate professor in 2003 and full professor in 2007.
He is currently Executive Director of NUS Graduate School for Integrative Sciences and Engineering,
and Director of Centre for Computational Science and Engineering. His research interests include but not limited to heat
conduction in low dimensional systems, complex networks and systems biology, non-equilibrium statistical mechanics, waves
propagation and scattering in random/turbulent media etc. He is one of the founding fathers of the new field Phononics – a
new science and technology in processing information and controlling heat flow by phonons.
He is leading a team of more than 30 members consisting of theoretical, computational and experimental physicists, material
scientists, and engineers to study how to improve the thermoelectric efficiency of different nanostructures and how to design
workable phononic devices such as thermal diode, thermal transistor, thermal logic gates and thermal memories.
Heat due to lattice vibration (phonons) is traditionally regarded as harmful for information processing. In this paper, we will
demonstrate via numerical simulation, theoretical analysis and experiments that, phonons, can be manipulated like electrons.
They can be used to carry and process information. Basic phononic devices such as thermal diode, thermal transistor, thermal
logic gate and thermal memory will be discussed via nonlinear lattice model. Moreover, we will also discuss how to
manipulate and tune thermal conductivity of nanostructure so that to control heat flow. Both theoretical and experimental
works will be shown.
Friday, August 13, 11:35am – 12:35pm
Blue Room
Keynote 33: Use of Analytical Expressions of Convection in Conjugated Heat Transfer Problems
Reijo Karvinen, Tampere University of Technology, Netherlands
Reijo Karvinen has studied at TUT (Tampere University of Technology) where he passed M.Sc.1972 and Ph.D. 1976. He has
served as an assistant, chief assistant and laboratory engineer at TUT 1971 – 1978. After an appointment to the associate
professorship 1979 he was also an acting professor at TUT and Helsinki University of Technology 19821986. Since 1986 he has held the professorship in Heat Transfer and Fluid Dynamics at TUT. He has
taking part in many administrative duties at TUT: the head of the laboratory and head or vice-head of
the Department of Mechanical Engineering, the member of different planning and steering groups, the
leader of the doctoral graduation ceremony 2007 and so on. He has also been the member in the
board of many national research programmes and the coordinator or vice-chairman of European COST
programme. Naturally, the reviewing of papers in many journals or conferences have been among the
duties. He has also been the referee in the selection of many professors in Finland and abroad and the
referee of app. 20 Ph.D. theses in Finland, Sweden, Norway, Canada and Estonia. Finally, the
membership in the board of the association of Finnish university professors 1984-1990 and acting as chairman of the Council
1993-1997 is worth mentioning. The most important results in research are in the fields of equipment development for pulp
and paper industry, boilers, cooling of electronic equipment and glass processing.
The heat transfer coefficient of convection from the wall to the flow depends on flow type, on surface temperature
distribution in a stream-wise direction, and in transient cases also on time. In so-called conjugated problems, the surface
temperature distribution of the wall and flow are coupled together. Thus, the simultaneous solution of convection between
the flow and wall, and conduction in the wall is required because heat transfer coefficients are not known. For external and
internal flows very accurate approximate analytical expressions have been derived for heat transfer in different kinds of
boundary conditions which change in flow direction. Due to the linearity of the energy equation the superposition principle
can be adopted to couple with these expressions the surface temperature and heat flux distributions in conjugated problems.
In the paper this type of approach is adopted and applied to a number of industrial applications ranging from flat plates of
electroluminecence displays to the optimization of heat transfer in fins, fin arrays and mobile phones.
23
Keynote Sessions
Friday, August 13, 11:35am – 12:35pm
Empire Room
Keynote 34: Steam Jet Condensation in a Pool: From Fundamental Understanding to
Engineering Scale Analysis
Dr. Chul-Hwa Song, General Project Manager (Director), Korea Atomic Energy Research
Institute (KAERI), Korea
General Project Manager (Director), KAERI; Working for KAERI since 1985; In Charge of the APR+
Project as Project Manager at KAERI (2007~); Professor, Univ. Sci. & Technol. (UST), Korea (Mar. ’08~);
In Charge of the Major ‘Advanced Nuclear System Engineering’; Visiting Researcher, CEA-Grenoble
Nuclear Research Center, France (Aug. 1987~Feb. 1989
• Some R&D Careers Relevant to ALWR Developments at KAERI:
General Project Manager, In Charge of the APR+ Core Technology Development (‘07~)
Project Manager, In Charge of APR1400 New Safety Concepts Development & Performance Verification (‘99~’06)
Principal Investigator, In Charge of SMART Experiments (‘97~’99)
• Awards
Best Paper Award, KNS, Korea (2002, 2004)
Technical Achievement Award, KNS, Korea (2004)
Prime Minister Award, Korean Government (2005)
Best Lecturer Award, Univ. Sci. & Technol. (UST), Korea (2009)
• Major Academic Activities
50 SCI Papers and 1 Book (Co-authored) since 2000
Professional Comm. Member, National Science & Technology Commission (NSTC), Korea (Feb. ‘10 ~)
Board Member (Publication Secretary) & Council Member, KNS, Korea (Sept. ’09~)
Chair, Professional Comm. on T-H Experiments, KNS (’07~)
Editor, Nuclear Engineering & Technology (NET), Korea (Sept. ‘08~)
Fellow, ABI (2008~), USA
Member, Session Organizer, Track Organizer, or Co-Chair of TPC, Organizing Comm., or Scientific Comm. in
Int’l Mtg. (e.g., NURETH, NUTHOS, ICAPP, NTHAS, WORTH, etc.)
Invited Lectures or Speeches in Domestic & Int’l Academic Events (e.g., ICONE, NURETH, NTHAS, WORTH, etc.)
The phenomena of direct contact condensation (DCC) of steam jet submerged into a water pool occurs due to the actuation
of steam discharging devices in many industrial processes and there are practically two kinds of technical concerns to
consider. The one is a concern on the thermal mixing in water pool. The other concern is on thermo-hydraulically induced
mechanical loads on the structures of relevant systems. Both concerns may be inter-related with each other in terms of
thermally-induced hydrodynamic loads on the relevant system. There are practically at least two kinds of concerns in terms of
DCC-induced thermal mixing in a pool: the local hot spot, which may affect the stability of condensation phenomena, and the
thermal stratification, which usually exists over the whole pool region. Both aspects can be well described only if the local
behaviour of condensing steam jet and the resultant turbulent jet in a pool are well understood. In this paper, the DCCrelated thermo-fluid dynamic features are discussed, based mainly on our experiences of developing the relevant engineering
systems over the past years. Fundamental characteristics of condensing steam jets are discussed, including the local
behaviour of condensing jets and the resultant turbulent jet to importantly affect the macroscopic circulation in a pool. Then
the local analysis of condensing jet behaviour and the global analysis of thermal mixing in a pool are discussed with practical
application to engineering in mind.
Friday, August 13, 2:00pm – 3:00pm
Regency Ballroom
Keynote 35: Influence of Force Fields and Flow Patterns on Boiling Heat Transfer Performance
Prof. Paolo DiMarco, Universita di Pisa, Italy
Paolo DiMarco is Professor of Engineering Thermodynamics and Heat Transfer at Department of
Energetics, University of Pisa. He received his PhD in Nuclear Engineering in 1989 at the University of
Pisa. His research interests include Single-Phase and Boiling Heat Transfer, Bubble Dynamics, Heat
Transfer in Microgravity, Effect of Electric Fields on Heat Transfer, Instability in Boiling Loops, Two-Phase
Flow Measurements, Clean Energy Systems (wind and biomass).
His main field of activity is the study of the effect of force fields on boiling heat transfer and bubble dynamics, conducted
across the past twelve years through many experimental campaigns in microgravity conditions, ranging from parabolic flights,
sounding rocket and droptower experiments, and to a Foton satellite flight.
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Keynote Sessions
He is member of several international associations, and currently Secretary of Eurotherm Committee and of the Steering
Committee of the Italian Union of Thermo-Fluid-Dynamics (UIT).
Recent experimentation of boiling in different environments, namely in reduced or enhanced gravity and/or in the presence
of electric fields, have shed new light on the comprehension of boiling phenomena and have focused the objectives of future
investigation. The recent results achieved by the author and other research groups around the world are reported and
discussed in the paper. After a short introduction on some fundamental phenomena and their dependence on force fields,
pool and flow boiling are dealt with. In particular, it is stressed that, due to increased coalescence, peculiar flow regimes take
place in reduced gravity, influencing the heat transfer performance. The application of an electric field may, in some instances,
delay or avoid these regime transitions. In boiling at high flowrate, the phenomena are dominated by inertia and thus gravityindependent; however the threshold at which this occurs has still to be determined. Finally, guidelines for forthcoming
research in boiling are identified.
Friday, August 13, 2:00pm – 3:00pm
Blue Room
Keynote 36: Recent Advances in Turbine Heat Transfer – A View of Transition to Coal-Gas Based Systems
Dr. Minking K. Chyu, Leighton and Mary Orr Chair Professor and Chairman, University of Pittsburgh
Dr. Minking K. Chyu is presently the Leighton and Mary Orr Chair Professor and Chairman of the
Mechanical Engineering and Materials Science Department at the University of Pittsburgh. He received
his Ph.D. degree from the University of Minnesota in 1986. He was a faculty member at Carnegie
Mellon University for 14 years before joining the University of Pittsburgh in 2000, as an endowed chair
professor and chairman in mechanical engineering. His primary research area lies in thermal and energy
issues relating to power and propulsion systems. He has been Air Force Summer Research Fellow,
Department of Energy Oak Ridge Research Fellow, and DOE Advanced-Turbine-System Faculty Fellow.
He was named the 2002 Engineer of The Year by the ASME Pittsburgh Chapter. He is Fellow of the
American Society of Mechanical Engineers (ASME) and Associate Fellow of American Institute of
Aeronautics and Astronautics (AIAA). He serves on the Scientific Council of the International Centre of Heat and Mass
Transfer (ICHMT). Since 2007, he has been a Resident Fellow of Institute of Advanced Energy Sciences (IAES), National
Energy Technology Laboratory (NETL), the Department of Energy, and as the group leader in Energy Conversion Devices. He
is an associate editor of Journal of Heat Transfer and on the advisory board of International Journal of Fluid Machinery and
Systems. He has published nearly two hundred and fifty technical papers in archive journals and conference proceedings.
Gas turbines are one of the most effective and versatile devices in producing immense amount of power for propulsion and
energy for utilities. Technical edges for a gas turbine generally imply better performance and greater efficiency, leading to as
high as possible a gas temperature at the turbine inlet. However, this simple thermodynamic goal is limited in practice by
several factors. The thermo-mechanical capability of the metal alloys used to make turbine components, particularly for those
vanes and blades immediately downstream of the combustor, limits the component operating temperature to an acceptable
level well below the stoichiometric combustion temperature. In addition to component structure and life constraints, the gas
temperature is also limited in real life applications by regulatory restrictions on emissions. Striving for better performance and
higher efficiency in both aircraft jet engines and land-based gas turbines has been one of the major research and
development efforts in many developed countries for decades. While abundant heat transfer information associated with
cooling of various turbine components is available in both public and proprietary domains, the turbine community continues
call for innovation to minimize the required coolant amount and fabrication costs. This is particularly the case when coal,
either in its gasified or liquefied form, is being developed as one of the major fuel sources to alleviate the dependence of oil
or its derivatives. In addition to sulfur and NOx emissions, carbon dioxides capture and sequestration have become a
significant part of emission control. To meet the performance and emission goals of next generation power and propulsion
systems, future coal-gas fired turbines will likely be operated at temperatures unprecedentedly higher than those in the
current turbine fleets. The working fluid in these future turbines could contain substantial moisture (steam) mixed with carbon
dioxide, instead of air or nitrogen in the conventional gas turbines. Moisture is found to be especially detrimental to the
structural integrity of thermal barrier coating (TBC) and rendering excessive level of thermal load on the gas side of turbine
airfoil. Due mainly to mandated efficiency requirements, future turbines will have to be operated with a limited amount of
coolant and reduced usage of external cooling. Thus advanced cooling with innovative technologies resulting in not only
superb heat transfer performance but improved cooling uniformity is particularly desirable. This study will begin with an
overview of recent advances in turbine heat transfer. This will be followed by a discussion of potential thermodynamic cycles
for future clean-coal based turbines. The effects of these cycle options on the level of thermal loading on the turbine airfoils
will be assessed. Various cooling technologies pursued recently and in the near future will be discussed. While the primary
applications of this study are directed to large-scale utility turbine systems, they are applicable to the thermal control of
aircraft engine turbines.
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Keynote Sessions
Friday, August 13, 2:00pm – 3:00pm
Empire Room
Keynote 37: Use of CFD in the Analysis of Heat Transfer Related Problems that Arise in
Building Energy Studies
Dr. Patrick Oosthuizen, Queen’s University, Canada
Patrick Oosthuizen was born and educated in South Africa. He received his B.Sc., M.Sc., and Ph.D.
degrees in Mechanical Engineering from the University of Cape Town and an M.A.Sc. degree in
Aerospace Engineering from the University of Toronto. After teaching for several years at the University
of Cape Town Dr. Oosthuizen joined the Department of Mechanical Engineering at Queen’s University.
His primary research interests are in the areas of Convective Heat Transfer and Energy Systems. He has undertaken many
studies concerned with fundamental aspects of natural and combined convection. He has also undertaken research in the
design of solar crop dryers for use in developing countries, the design of building solar energy systems, the prediction of heat
transfer through window systems, the prediction of thermal comfort in atrium buildings, and the design and application of
fuel cell and reformer systems. He has received several awards for his research, teaching and service including the Jules
Stachiewicz Medal for outstanding contributions to research in heat transfer in Canada, the CANCAM Award in recognition of
outstanding achievements and technical excellence in thermofluids engineering, the Queen’s University Alumni Association
Award for Excellence in Teaching, the Queen’s University Distinguished Service Award, and several Best-Paper awards. He has
also been made a Fellow of the American Society of Mechanical Engineers and of the Engineering Institute of Canada.
Professor Oosthuizen has published more than 600 technical papers and has published textbooks on Compressible Fluid
Flow and on Convective Heat Transfer Analysis.
Energy simulation (ES) computer programs have been and still are widely used in the design and analysis of building energy
systems. However, most ES programs assume that the air in the indoor building space is well mixed. As a result, such
programs cannot accurately predict building energy consumption for buildings with non-uniform air temperature distributions
in the indoor space. They also cannot predict variations in thermal comfort levels in different parts of the building. As a result,
in recent years Computational Fluid Dynamics (CFD) has become quite widely used in the design and evaluation of buildings
energy systems. CFD is, of course, the prediction of fluid flow, heat and mass transfer, chemical reactions, and related
phenomena by numerically solving the set of governing equations. CFD can be used, for example, to predict the thermal
comfort, natural lighting, natural ventilation, and indoor air quality in a building and as a result is proving to be an extremely
valuable tool in the design of buildings and building systems. This, together with the fact that today’s commercial CFD
software packages are relatively easy to use, has led to this quite widespread adoption of CFD methods in building energy
analysis. Energy usage in buildings can be decreased, for example, by the use of daylighting (use of solar illumination in place
of artificial lighting), by the use of natural ventilation, and by solar heating. CFD analysis provides a means of relatively
accurately studying the effect of building design on the effectiveness of daylighting, natural ventilation, and solar heating.
Another example of the use of CFD is in the study of the effect of various window blind arrangements on the building
performance. In order for a CFD package to be used effectively in building energy analysis it should allow the use of a wide
range of turbulence models, it should allow the incident solar radiation on the atrium to be found and used in the calculation
of the indoor flow and temperature fields, it should allow the radiant heat exchange in the building to be incorporated into
the calculation, and it should allow the effects of the thermal masses of the walls, floors, etc. to be easily incorporated into the
calculation when they are deemed to be important. In this paper, examples of the use of CFD methods in building energy
analysis will be discussed. The prediction of thermal comfort and natural ventilation will in particular be considered. The
prediction of the spread of smoke and contaminants in the building will also be considered and the use of CFD methods in
developing design guidelines for particular types of buildings will be discussed.
Friday, August 13, 3:05pm – 4:05pm
Blue Room
Keynote 39: The Role of Entropy Generation in Momentum and Heat Transfer
Heinz Herwig, Technical University Hamburg-Harburg, Germany
Heinz Herwig, born 23.07.1950 in Dresden/Germany; University education: Mechanical Engineering
at the Ruhr-University Bochum/Germany (1970 – 1975); PhD (1981): Laminar flow separation
(Ruhr-University Bochum/Germany); Habilitation (2. PhD; 1985): Influence of variable properties on
momentum and heat transfer (Ruhr-University Bochum/Germany); 1987 – 1992: Professor for
Theoretical Fluid Mechanics (Ruhr-University Bochum/Germany); 1994 – 1999: Full Professor for
Technical Thermodynamics (TU Chemnitz/Germany); 1999 – today: Full Professor and Head of the Institute for Thermo-Fluid
Dynamics, TU Hamburg-Harburg/Germany; Research interest in Fluid Mechanics, Heat Transfer, Thermodynamics and their
interaction; Author of 8 books; Author / co-author of approx. 200 papers, mostly in international journals like: Int. J. Heat
Mass Transfer, Journal of Heat Transfer, Heat and Mass Transfer, Int. J. Heat and Fluid Flow, Int. J. of Thermal Sciences,
26
Keynote Sessions/Panel Sessions
Journal Fluid Mechanics, Physics of Fluids, Experiments in Fluids, Int. J. Computational Fluid Dynamics, and Physics of Fluids.
Entropy generation in a velocity and temperature field is shown to be very significant in momentum and heat transfer
problems. After the determination of this post-processing quantity many details about the physics of a problem are available.
This second law analysis (SLA) is a tool for conceptual considerations, for the determination of losses, both in the velocity and
the temperature field, and it helps to assess complex convective heat transfer processes. These three aspects in conjunction
with entropy generation are discussed in detail and illustrated by several examples.
Friday, August 13, 3:05pm – 4:05pm
Empire Room
Keynote 40: Recent Advances in Measurement of Turbulent Reacting Flows in Which Heat
Transfer is Dominated by Radiation
Prof. Graham Nathan, University of Adelaide, Australia
Professor Nathan is the founding Director of The University of Adelaide’s Centre for Energy
Technology. He is experienced in both the science and application of thermal energy systems.
spanning solar, geothermal and the combustion of fossil and bio-fuels. He was principal leader of the
Chief Design Team for the award winning fuel and combustion system for the Sydney Olympic Relay
Torch and has jointly led the development of low NOx combustion technology in rotary cement kilns. His research specializes
in the development and application of laser diagnostic methods to complex turbulent reacting flows.
Recent advances in diagnostic methods are providing new capacity for detailed measurement of turbulent, reacting flows in
which heat transfer is dominant. Radiation typically becomes dominant in flames containing soot and/or with sufficient
physical size, so is important in many flames of practical significance. The presence of particles, including soot, increases the
coupling between the turbulence, chemistry and radiative heat transfer processes. Particles also increase the difficulties of
laser-based measurements by increasing the interferences to the signal and the attenuation of the beam. The paper reviews
recent advances in techniques to measure temperature, mixture fraction, soot volume fraction, velocity, particle number
density and the scattered, absorbed and transmitted components of radiation propagation through particle laden systems.
Panel Sessions
Monday, August 9, 2:30pm – 4:00pm
Regency Ballroom
Panel Session – 1: Education in Heat Transfer Engineering and Thermal Sciences – Future Pathways and Challenges
Moderator: Frank A. Kulacki, University of Minnesota (Minneapolis, Minnesota, USA)
Panel Members: Terrence W. Simon, University of Minnesota (Minneapolis, Minnesota, USA)
John Richard Thome, École Polytechnic Fédéral de Lausanne (Lausanne, Switzerland)
Robert O. Warrington, Michigan Technological University (Houghton, Michigan, USA)
Hideo Yoshida, Kyoto University (Kyoto, Japan)
Heat transfer engineering and thermal sciences are pervasive elements in nearly all branches of engineering practice and in
industry where thermal control is essential to product quality and process reliability. The enlarged design and applications
framework now includes atomic to geologic time and spatial scales. The responsibility of engineering educators to deliver
educational programs to address this breadth of applications has raised new challenges for both undergraduate and
graduate education. This panel will therefore discuss how we are to address this new reality. At the center of the issue is the
appropriate body of knowledge that should comprise the educational future for heat transfer engineers and researchers.
Each panelist will be asked to respond to several key questions on the topic in brief presentations. Topical foci in the
presentations include: emerging areas of thermal science and engineering, skill set development at the undergraduate and
graduate levels, pathways forward on multidisciplinary education in the thermal sciences, and industry’s role in working with
academia to define the framework and content of education and practice in thermal sciences and
engineering. Ample time for questions and interaction between the panelists and audience will follow
the panel presentations.
Dr. Frank Kulacki is Professor of Mechanical Engineering at the University of Minnesota. His research
contributions include fundamental heat transfer correlations for free convection and convection in porous
media. His research has also included topics related nuclear safety, nuclear waste storage and disposal,
catalytic combustion, electrohydrodynamic augmentation of heat and mass transfer, and composite
materials. His current research includes boiling of emulsions, microchannel heat transfer, and heat and mass
27
Panel Sessions
transfer in frost. He has published over 150 articles and technical reports and has presented 200 seminars and invited lectures on
technical and educational topics. He has served as department chair at the University of Delaware, dean of engineering at the
Colorado State University and dean of the Institute of Technology at the University of Minnesota. He has served as Chair of the
Heat Transfer Division of ASME and has been a member of the ASME Board on Professional Development and Board on
Engineering Education. He recently chaired the task force on graduate education for the ASME Education Center and serves on
the Vision 2030 project which concerns the future education of mechanical engineers for the 21st Century. Dr. Kulacki is a Fellow of
the ASME and AAAS.
Monday, August 9, 2:30pm – 4:00pm
Empire Ballroom
Panel Session – 2: Polymer-Carbon Composite Heat Exchangers – Challenges and Opportunities
Moderator: Prof. Arthur E. Bergles, University of Maryland, College Park (Maryland, USA)
Panel Members: Prof. Jane Davidson, University of Minnesota (Minnesota, USA)
Dr. Carl A. Zweben, Consultant, Devon (Pennsylvania, USA)
This panel begins by outlining the considerable history of polymer heat exchangers (PHX). The applications of PHX have
always been hampered by the low thermal conductivity of the material. Attention then turns to carbon-fiber polymer
composites, which have thermal conductivities equivalent to corrosion-resistant metals and which can be cheaply and easily
molded in commercial manufacturing processes. These attributes, combined with the low energy investment in the
fabrication of polymer composites, have created an opportunity for a transformational change in heat exchanger technology
(CPHX). Polymer composites and other non-metallic materials are also being applied to cooling systems for microelectronic
components. The stage is set for the commercialization of low-cost, low-weight compact heat exchangers for corrosive fluids,
including sea water and “gray” water cooled power and chemical processing plants, OTEC systems, geothermal heating
systems, and desalination plants where the use of high-cost metal heat exchangers cannot be justified. Polymers are also
being used to an increasing extent in automobiles, and this is expected to extend to CPHX. It is anticipated that audience
discussion will examine the state-of-the-art in mold design, property prediction of polymer-composites, and the thermal and
structural modeling of heat exchanger elements.
Art Bergles is a Glenn L. Martin Institute Professor of Engineering at University of Maryland. He also holds an Emeritus
appointment at RPI and is a Senior Lecturer at MIT. He has been associated with the PHX program at
Maryland for four years. A member of NAE, he has also been elected to several foreign academies. He
is a fellow of seven societies and has been given three honorary degrees. Currently, his additional
research interests are enhancement of heat transfer in heat exchangers and heat transfer in
microchannels.
Monday, August 9, 2:30pm – 4:00pm
Blue Room
Panel Session – 3: Heat Recovery in Waste/Biomass to Energy Systems
Moderators: Ashwani Gupta, Ph.D., University of Maryland College Park (Maryland, USA)
Petr Stehlik, Ph.D., Brno University of Technology (Brno, Czech Republic)
Panel Members: Helmut Seifert, Ph.D., Karlsruher Institut für Technologie (Karlsruhe, Germany)
David Kukulka, Ph.D., Buffalo State-SUNY (New York, USA)
Qiuwang Wang, Ph.D., Xi’an Jiaotong University (Shaanxi, P.R. China)
Energy recovery in thermal processing of waste and biomass (renewable energy sources) plays an important role since it
contributes to enhanced efficiency of the available resources. This panel will provide the participants with an opportunity
to discuss energy conversion and utilization, efficient heat recovery systems, up to date heat exchange equipment,
problems of fouling, possibilities of “compactness” and “enhancement” and the pitfalls of their application in this area.
Ashwani Gupta is Distinguished University Professor at the University of Maryland, College Park. He received his Ph.D and
higher doctorate, D.Sc. from the University of Sheffield, UK. He has co-authored three books and over
450 papers. He is a Fellow of AIAA, ASME, SAE and the Institute of Energy (UK). He has received
several national awards and best paper awards from ASME and AIAA. His research interests include
combustion, energy conversion and efficiency, and clean alternative fuels production and utilization.
28
Panel Sessions
Petr Stechlik is Professor and a Director of the Institute of Process and Environmental Engineering at
Brno University of Technology in the Czech Republic, and a director of research and development of a
certified engineering and contracting company. He also currently holds the position of Vice President
of the Czech Society of Chemical Engineers. His research and development as well as application
activities are aimed at waste and biomass processing, waste to energy systems, applied heat transfer,
energy saving and environmental protection.
Wednesday, August 11, 3:05pm – 4:35pm
Regency Ballroom
Panel Session – 4: Challenges and Opportunities in Thermal and Energy Management of Information Technology Centers
Moderator: Madhusudan K. Iyengar, Ph.D., IBM Advanced Thermal Laboratory (New York, USA)
Panel Members: Yogendra Joshi, Ph.D., Georgia Tech (Atlanta, USA)
H. Ezzat Khalifa, Ph.D., Syracuse University (New York, USA)
Information Technology data centers consume a large amount of electricity globally. Cooling has been found to contribute
about one third of this energy use. This panel will present discussion from leading technologists and experts to inform
attendees on prevalent trends, emerging technical challenges, and future research opportunities.
Madhusudan K. Iyengar is a Senior Engineer at the IBM Advanced Thermal Laboratory, working on
server cooling and data center energy efficiency. He has a Ph.D. in Mechanical Engineering from the
University of Minnesota. He has co-authored 3 book chapters, over 75 refereed papers, and holds 40
U.S. patents.
Wednesday, August 11, 3:05pm – 4:35pm
Empire Room
Panel Session – 5: Supercritical Heat Transfer
Moderator: Igor Pioro, Ph.D., University of Ontario Institute of Technology (Canada)
Panel Member: Derek Jackson, Ph.D., University of Manchester (U.K.)
Heat Transfer (HT) at SuperCritical Pressures (SCPs) was studied very intensively in the 1950’s till 1980’s in relation to SC steam
generators and turbines used at coal-fired thermal power plants. In the 1990’s, SC HT research became attractive again due
to development of SC water-cooled nuclear-reactor concepts, SC carbon dioxide thermodynamic cycles and other
applications in various industries.
Therefore, the panel includes various aspects of SC HT (HT regimes and correlations, etc,) in relation to the latest
developments in thermal and nuclear power industries and other non-power applications.
Igor Pioro M.A.Sc. (1979), Ph.D. (1983), Doctor of Technical Sciences (1992), P.Eng. (2008) is an
international expert in areas of nuclear engineering (reactor thermalhydraulic, Generation IV nuclear
reactor concepts); thermal sciences (boiling, forced convection including supercritical pressures); and
heat engineering (two-phase thermosyphons, heat exchangers, heat-recovery systems). He is an
Associate Professor and Director of Graduate Programs at the Faculty of Energy Systems and Nuclear
Science, University of Ontario Institute of Technology. He is an author/co-author of 7 books, 140
papers, 26 inventions, and more than 30 major technical reports. He is also a member of the
Executive Committee of the Nuclear Engineering Division of ASME, member of ANS and Associate
Editor of the ASME Journal of Engineering for Gas Turbines & Power.
Wednesday, August 11, 3:05pm – 4:35pm
Blue Room
Panel Session – 6: Heat and Mass Transfer in Human Biology
Moderator: Franz-Josef Kahlen, Ph.D., University of Cape Town (South Africa)
Panel Members: Heidi Abrahamse, Ph.D., University of Johannesburg (South Africa)
George S. Dulikravich, Ph.D., Florida International University (USA)
Sarit Kumar Das, Ph.D., Indian Institute of Technology Madras (Chennai, India)
This panel addresses the application of mass and heat transfer to human biological systems, in an effort to understand the balancing
29
Panel Sessions
and driving factors present in biological systems, and the stability of such biological systems in the presence of perturbations.
Franz-Josef Kahlen is a Professor with the Mechanical Engineering department at the University of
Cape Town, South Africa, where his teaching and research focus on mass and heat transfer. He is the PI
on biological systems as well as industrial manufacturing research projects.
Thursday, August 12, 3:10pm – 4:40pm
Regency Ballroom
Panel Session – 7: Two-Phase Flow Patterns in Microchannels
Moderator: John R. Thome, Ph.D., Ecole Polytechnique Fédérale de Lausanne (Switzerland)
Panel Members: Avram Bar-Cohen, Ph.D., University of Maryland, College Park (Maryland, USA)
Srinivas Garimella, Ph.D., Georgia Institute of Technology (Georgia, USA)
Izok Zun, Ph.D., University of Ljubljana (Slovenia)
Two-phase flow patterns play an important role in microscale processes, influencing heat transfer, void fraction, pressure drop,
critical heat flux, vapor/gas separation, etc. In particular, topics that will be discussed and debated include:
• What/how many principal flow patterns do we actually need to have in the microscale?
• How can we improve the usefulness and accuracy of flow pattern maps?
• Can we unify flow pattern maps for adiabatic and diabatic flows?
• What are the critical needs in experimental and analytical techniques for ever smaller scales?
• Should these maps contain more embedded information for modeling purposes?
• How does/should this work link up with other research areas, such as microfluidics?
John R. Thome is Professor of Heat and Mass Transfer at the Swiss Federal Institute of Technology in
Lausanne (EPFL), Switzerland where his primary research interests are two-phase flow and heat transfer,
covering both macro- and micro-scale heat transfer. He is the author of four books and numerous
publications and in 1998, he received the ASME Heat Transfer Division’s Best Paper Award. In 2008,
Thome received the J&E Hall Gold Medal from the U.K. Institute of Refrigeration for his extensive
research contributions on refrigeration heat transfer.
Thursday, August 12, 3:10pm – 4:40pm
Empire Room
Panel Session – 8: Thermal and Water Management in PEFCs
Moderators: Shawn Litster, Ph.D., Carnegie Mellon University (Pennsylvania, USA)
Partha P. Mukherjee, Ph.D., Oak Ridge National Laboratory (Tennessee, USA)
Panel Members: Nancy Garland, Ph.D., U.S. Department of Energy (Washington, D.C., USA)
Brant A. Peppley, Ph.D., Queen’s University (Ontario, Canada)
Thomas A. Trabold, Ph.D., General Motors Fuel Cell Research (New York, USA)
Chao-Yang Wang, Ph.D., Pennsylvania State University (Pennsylvania, USA)
Leading researchers from academia, government and industry will discuss water and thermal management in polymer
electrolyte fuel cells (PEFCs), widely considered as the 21st century clean energy conversion systems for automotive, portable
and stationary power. They will share the recent advancements and discuss their visions regarding the primary challenges and
path forward.
Shawn Litster is an Assistant Professor in the Department of Mechanical Engineering at Carnegie
Mellon University, where his group studies transport phenomena in porous electrodes, two-phase flow
in PEFCs, and miniaturized fuel cells. He received his Ph.D. from Stanford University and M.A.Sc. and
B.Eng. degrees from the University of Victoria.
30
Panel Sessions/Forums
Partha P. Mukherjee received his Ph.D. in Mechanical Engineering from Pennsylvania State University,
M.S. from IIT Kanpur and B.S. from North Bengal University. His research interests include transport
and materials aspects in fuel cells and batteries. He is currently a Scientist at Oak Ridge National
Laboratory following his tenure as a Director’s Research Fellow at Los Alamos National Laboratory.
Thursday, August 12, 3:10pm – 4:40pm
Blue Room
Panel Session – 9: Heat Transfer, Fluid Flow and Environmental Issues Related to Natural Refrigerants
Moderator: Zahid Ayub, Ph.D., P.E. Isotherm, Inc. (Texas, USA)
Panel Members: Eckhard Groll, Ph.D., Purdue University (Indiana, USA)
Bjorn Palm, Ph.D., KTH (Stockholm, Sweden)
Bruce Badger, International Institute of Ammonia Refrigeration (Virginia, USA)
This panel discussion will provide an open forum to the participants to discuss issues related to the heat transfer and fluid flow
as well as the pros and cons of Natural Refrigerants. The topic is timely because of the current concerns related to global
warming and ozone depletion as a result of synthetic refrigerants.
There will be detailed discussion on the upcoming changes in refrigerant classification with a potential impact on US and
International fire and building codes. New trends toward smaller, packaged ammonia systems using secondary coolants or
expanding fluids such as carbon dioxide on the low sides will be discussed. The discussion will also cover latest research
activities towards the use of carbon dioxide as a replacement for the fluorocarbon-based refrigerants in heat pumping, air
conditioning, and refrigeration applications. In addition, the potential use of carbon dioxide in particular applications and the
barriers that must be overcome before its acceptance will be discussed. Advances in theory and recent experimental data on
low refrigerant charge systems will also be presented.
Zahid Ayub, received his Ph.D. in mechanical engineering from Iowa State University and is recognized
as one of the pioneers in the field of Ammonia Enhanced Heat Transfer. He has authored over 70
international journal and conference papers and currently holds six U.S. patents. In 1998, he was
elected ASME Fellow and is an active member of ASHRAE (Fellow), IIAR, AIChE, IoR (UK), IIR, RETA,
and Eurammon and is currently the Executive Editor of the Journal of Heat Transfer Engineering. He is
a registered Professional Engineer in the States of Michigan and Texas and is Founder and Director of
the Natural Fluids Refrigeration Center (GIKI, Pakistan).
Forums
Wednesday, August 11 – 4:00pm – 6:00pm
Hampton Room
Forum 1: Radiative Transfer and Properties for Renewable Energy Applications
Radiation heat transfer and thermal radiative properties are critical for solar energy utilization, building thermal management,
and high-temperature thermal systems. Recent advances have resulted in novel materials and microstructures that can tailor
the radiative properties and alter the radiation heat transfer in the near- and far-fields for energy harvesting applications. This
forum will provide the participants with an opportunity to discuss the state-of-the-art theories and methods in the
investigation and/or control of the radiative heat transfer and properties.
Speakers: Xianfan Xu (Purdue University, USA)
Pei-feng Hsu (Florida Institute of Technology, USA)
Philippe Ben-Abdallah (Laboratoire de Thermocinétique CNRS UMR 6607, France)
Laurent Pilon (University of California, Los Angeles, USA)
Xiulin Ruan (Purdue University, USA)
Arvind Narayanaswamy (Columbia University, USA)
Hong Ye (University of Science and Technology of China, P. R. China)
Bong Jae Lee (University of Pittsburgh, USA)
31
Forums
Session Chair: Dr. Qunzhi Zhu is a Professor at School of Energy and Environmental Engineering,
Shanghai University of Electric Power, P. R. China. He is a Professor of Special Appointment (Eastern
Scholar) at Shanghai Institutions of Higher Learning. He received his Ph.D. in Mechanical Engineering
from the Georgia Institute of Technology, USA. His research interests include characterization and
modeling radiative properties of micro/nano materials, solar energy utilization, and distributed
energy systems.
Session Co-Chair: Dr. Zhuomin Zhang is ASME Fellow and a professor of mechanical engineering at
Georgia Tech. He received his B.S. and M.S. degrees in engineering thermophysics from the University
of Science and Technology of China (USTC), and a Ph.D. degree in mechanical engineering from MIT.
He is the author of the book Nano/Microscale Heat Transfer (McGraw-Hill, 2007) and an editor (with
B.K. Tsai and G. Machin) of the Radiometric Temperature Measurements: I. Fundamentals & II.
Applications (Elsevier, 2010).
Thursday, August 12 – 4:30pm – 6:30pm
Congressional Room
Forum 2: US-India Collaboration Opportunities in Heat Transfer
ASME and ISHMT jointly organize a Heat and Mass Transfer conference which is held in India every two years. Joint
workshops are held to foster collaboration in emerging areas of heat transfer. This session will provide a forum to discuss
international collaboration experience and to disseminate information about funding opportunities for international research
collaboration.
Speakers: Michael Corradini (University of Wisconsin – Madison)
P. S. Ayyaswamy (University of Pennsylvania)
Marjorie Lueck (NSF Program Manager)
S. Srinivasa Murthy (ISHMT and IIT-Madras)
Tim Fisher (Purdue University)
Session Chair: Dr. Milind A. Jog is an Associate Professor of Mechanical Engineering at the University
of Cincinnati. Dr. Jog was the ASME Co-Chair for the 9th ISHMT-ASME Conference held in Mumbai,
India during January 2010.
Session Co-Chair: Dr. Raj M. Manglik is a Professor of Mechanical Engineering at the University of
Cincinnati and the Director of the Thermal-Fluids and Thermal Processing Laboratory. He will be the
ASME Co-Chair for the 10th ISHMT-ASME Heat and Mass Transfer conference to be held in December
2011.
Session Co-Chair: Dr. Srinath V. Ekkad is an Associate Professor of Mechanical Engineering at Virginia
Tech. Dr. Ekkad was the US Scientific Coordinator for the 8th ISHMT-ASME conference held in
Hyderabad in January 2008.
32
Conference Awards
William
D
Dr. William Begell has had a long and distinguished career as a chemical-nuclear engineer,
researcher and publisher. Dr. Begell taught at Columbia University and was the Engineering
Director of its Heat Transfer Research Facility. There, he managed the large-scale seminal
work on two-phase flows, burnout studies and cooling procedures for nuclear reactors,
some of which were conducted directly under the founder of the US Nuclear Navy,
Admiral Hyman Rickover. He later became involved in a US Air Force intelligence project
that culminated in the cofounding of Scripta Technica (1962), a publishing company
specializing in the presentation of important scientific and engineering materials translated
from foreign languages into English. Building upon his experience and reputation in the
field, Dr. Begell founded Hemisphere Publishing Corporation (1966) where he continued
to pursue his personal research and publishing activities. It was here that he developed an
impressive list of 86 high-impact engineering and biomedical journals as well as hundreds
of basic texts, research books and reference tools.
Begell
Dr. Begell’s visionary sense of future trends in engineering and biomedicine led to the
creation of interdisciplinary and cross-disciplinary publications. Throughout the years, Dr.
Begell’s contributions and support of scholarly societies were a factor in the development of
new branches of knowledge. In some cases, these innovative titles led to the establishment
of new fields of endeavor and study. Dr. Begell was one of the founding members of the
Society of Scholarly Publishing and has been nominated for and granted many awards
for his achievements in science, engineering and publishing and the ASME Heat Transfer
Division Distinguished Service Award (2005).
International Heat Transfer Conference 14
August 11, 2010
O The William Begell Medal for Excellence
in Thermal Science and Engineering
The William Begell Medal, For Excellence in Thermal Science and Engineering is
being established in 2010 and is made possible by the support and generosity of
William Begell’s friends, colleagues, and Begell House Inc. sponsorship.
T
2010 Recipient of the
William Begell Medal
Nobuhide Kasagi
Nobuhide Kasagi received BS (1971), MS (1973) and Ph.D. (1976) degrees in mechanical
engineering from the University of Tokyo. Since 1976, he has been a faculty member in
the Department of Mechanical Engineering at the University of Tokyo with a sabbatical
leave at Stanford University (1980-81), and now serves as Professor of Thermal and Fluids
Engineering. He is also working for the science and technology policy of Japan as Executive
Member of the Science Council of Japan, and Principal Fellow in the Center for Research and
Development Strategy of the Japan Science and Technology Agency.
Nobuhide Kasagi
He has been involved in fundamental and applied research on fluid mechanics and heat
transfer. He started his research work with investigation of wall turbulence structure, and
then extended it to modeling and large-scale numerical simulation of turbulent transport
phenomena, control of turbulent transport, two-phase flows with particles/cells/bubbles,
micro-scale thermal and fluid systems, micro cell processing, and computer-aided
visualization and image processing. He has also led applied research projects, which are
related to high-temperature gas turbines, solid oxide fuel cells, micro heat exchangers, and
small-scale distributed energy systems. He is currently working for developing advanced
turbulence control schemes, GT-SOFC hybrid energy systems, micro energy conversion, and
computational fluid mechanics and heat transfer. He is the author of more than 700 articles
and 30 books, and the curator of scientific databases, “DNS Database of Turbulence and Heat
Transfer” and “3-D PTV Database of Turbulent Flows,” which have been available on the web
since 1995.
The William Begell Medal for Excellence in Thermal Science and Engineering
is being awarded to an individual, from among those selected to deliver
Keynote Lectures at the International Heat Transfer Conference. In 2010 The
Medal bestowed to Nobuhide Kasagi who is held in high regard by the heat
transfer community for his contributions and excellence in thermal science
and technology.
The Key-Note Lecture:
CONTROL OF TURBULENT TRANSPORT: LESS FRICTION
AND MORE HEAT TRANSFER
Kasagi served as President of the Japan Society of Mechanical Engineers, the Japan Society
of Fluid Mechanics and the Japan Society of Computational Fluid Dynamics. He is and has
been actively participating in various international activities as, e.g., Executive Member of
the International Centre of Heat and Mass Transfer, President of the World Assembly of
Experimental Heat Transfer, Fluid Mechanics and Thermodynamics, and organizer of various
conferences such as the International Symposium on Turbulence and Shear Flow Phenomena.
He has committed himself to Editor of JSME International Journal, Editorial Board Member
for Experimental Heat Transfer, Associate Editor of Fluid Dynamics Research, and Managing
Editor of Journal of Flow Visualization. He is now Editor-in-Chief of International Journal
of Heat and Fluid Flow, Advisory Editor of Journal of Flow Turbulence and Combustion and
Advisory Board Member of e-Fluids.
Nobuhide Kasagi
The University of Tokyo
Tokyo, Japan
Yosuke Hasegawa
The University of Tokyo
Tokyo, Japan
Koji Fukagata
Keio University
Yokohama, Japan
Kaoru Iwamoto
Tokyo University of Agriculture
and Technology, Tokyo, Japan
2010 WILLIAM BEGELL MEDAL COMMITTEE
He is a recipient of JSME Medal for the Best Papers (1987, 1990, 2008, and 2010), GTSJ Best
Paper Award (1988), JSME Thermal Engineering Achievement Award (1993), Heat Transfer
Society of Japan Award (2002), JSME Fluids Engineering Award (2004), Fluid Science Award
(2004), JSME Thermal Engineering Award for International Activity (2008) and so forth. He is
Fellow of Royal Swedish Academy of Sciences (2003), Royal Academy of Engineering (2007),
Engineering Academy of Japan (2002), ASME (1994), JSME (2001) and JSFM (2005).
Geoffrey F. Hewitt
Committee Chairman
33
Adrian Briggs
Graham de Vahl Davis
Jaques Padet
Gian Piero Celata
Kemo Hanjalic
Yelena Shafeyeva
Conference Awards
The Max Jakob Memorial Award
Eminent Achievement in Heat Transfer
The Max Jakob Memorial Award is presented to Ivan Catton, Ph.D. for extensive, sustained and
pioneering contributions to a wide variety of basic and applied problems in thermal science and
engineering, ranging from natural convection, flow instability, solar energy and porous media
transport to nuclear reactor safety, and for outstanding service to the heat transfer community.
Dr. Catton will present his lecture entitled, “Conjugate Heat Transfer within a Heterogeneous
Hierarchical Structure” on August 9, 10:00am - 11:00am.
The Luikov Medal
For Outstanding Contributions to the Science and Art of Heat and Mass Transfer
The Luikov Medal, awarded by the International Centre for Heat and Mass Transfer (ICHMT) to one individual every two years,
is dedicated to Aleksey Vassillevich Luikov, a renowned Russian pioneer in the field of heat transfer and thermophysics.
Avram Bar-Cohen is the recipient of the award for 2008 and has made outstanding contributions to the science and art of
heat and mass transfer, most notably through his work on ebullient thermal management of electronic systems and for
activities in international scientific cooperation in conjunction with ICHMT programs. Avram Bar-Cohen is an Honorary
Member of ASME. The award will be given during the banquet dinner on Wednesday, August 11, from 7:00pm - 9:00pm.
34
Tours
Steven F. Udvar-Hazy Center Tour, 14390 Air and Space Museum Parkway , Chantilly, VA 20151
Tuesday, August 10, 2:00pm – 6:00pm*
Cost – $20
Visit 163 aircraft and 154 large space artifacts, along with more than 1,500 smaller
objects, on display in the National Air and Space Museum's
Steven F. Udvar-Hazy Center in Virginia. Artifacts at the center
are displayed in open hangar settings rather than exhibition
galleries. Space history artifacts include armament missiles
and rockets used in earth atmosphere.
* Tour end time is approximate
NIST – National Institute of Standards and Technology Tour, Gaithersburg, Maryland
Tuesday, August 10, 1:00pm – 5:00pm*
Cost – $20
Come see how the National Institute of Standards and Technology promotes U.S. innovation and industrial competitiveness
by advancing measurement science, standards, and technology in ways that enhance economic security and improve our
quality of life. You'll see the large-scale fire research facility, the nanofluids heat transfer laboratory, the flow calibration
facilities, and other laboratories related to the thermal sciences. Tour will consist of 15 minutes per lab with 5 minutes to travel
from lab to lab. Participants must wear close-toed shoes and long pants.
Please note: Participants must complete and return this foreign visitor form in order to take this tour.
www.asmeconferences.org/IHTC14/Tours
* End time approximate
Tour Limited to 50 people
U.S. Naval Academy Tour, Annapolis, Maryland
Tuesday, August 10, 2:00pm – 6:00pm*
Cost – $20
Visit the outstanding educational facilities for engineering at the U.S. Naval
Academy for course instruction and research by midshipmen and faculty. The
Naval Academy graduates officers for the United States Navy and Marine Corp.
The mission statement of the Naval Academy is "To develop Midshipmen morally,
mentally and physically and to imbue them with the highest ideals of duty, honor
and loyalty in order to graduate leaders who are dedicated to a career of naval
service and have potential for future development in mind and character to
assume the highest responsibilities of command, citizenship and government."
Attendees must bring a government issued photo ID, such as a passport. US
citizens may bring a driver’s license.
* End time approximate
Tour limited to 50 people
University of Maryland Tour, College Park, Maryland
Tuesday, August 10, 2:00pm – 6:00pm*
Cost – $20
Tour the thermofluids laboratories at UMD. The labs to be visited are the Combustion
Engineering Lab (Gupta), Heat Pump Lab (Radermacher), Small and Smart Thermal Systems
Lab (Ohadi), Micro/Nanoscale Heat Transfer and Energy Conversion Lab (Yang), Ballard
Power Systems Fuel Cell Lab (Jackson), Thermal Packaging of Photonics and Electronic
Systems Lab (Bar-Cohen), and the Phase Change Heat Transfer Lab (Kim). About 20 minutes
will be spent in each of the laboratories.
* End time approximate
Tour Limited to 100 people
Visitors wishing to arrange Guided tours of Washington, DC, can go to the following sites:
City Segway Tours: http://citysegwaytours.com/washington-dc
Grayline Tours: http://www.graylinedc.com/
Tourmobile Sightseeing: http://www.tourmobile.com/
DC Ducks: http://www.dcducks.com/
Viatoor: http://www.viator.com/Washington-DC/d657-ttd
35
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
MONDAY, AUGUST 9
POSTER SESSION 1: 11:00am – 1:00pm
Keynotes
Combustion
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
3-1 Combustion 1
Palladian
Session Chair: Kevin McGrattan, National Institute of Standards
and Technology, Gaithersburg, MD, USA
32-1 Keynote
Regency
11:00am - 1:00pm
8:50am - 9:50am
Research on Mechanisms and Applications of Catalytic
Combustion of Natural Gas
Session Chair: Richard Goldstein, University of Minnesota,
Minneapolis, MN, USA
Board #1: Poster IHTC14-22044
Shihong Zhang, Ning Li, Beijing Institute of Civil Engineering
and Arch., Beijing, China
A Review of Natural Convection
Keynote (Invited Presentation Only). IHTC14-23364
Numerical Investigation of a Symmetrical Combustion
Burner and External Convection Heat Transfer Characteristic
Graham de Vahl Davis, University of New South Wales,
Sydney, NSW, Australia
Board #2: Poster IHTC14-22046
32-2 Keynote
Blue
Xing Li, li Jia, Beijing Jiaotong University, Beijing, China, Hui
Yang, Beijing University of Civil Engineering and Architecture,
Beijing, China
10:00am - 11:00am
Session Chair: Erich Hahne
Numerical and Experimental Study on Lift-off Suppression
Phenomenon of Subsonic Hydrogen Jet Diffusion Flame
From MegaWatt to GigaWatt: New Developments in Solar
Thermal Power
Board #3: Poster IHTC14-22116
Keynote (Invited Only). IHTC14-23411
Shuichi Torii, Kumamoto-u.ac.jp, Kumamoto, Japan
Hans Müller-Steinhagen, Institute of Technical
Thermodynamics, Stuttgart, Germany
3-D Numerical Research on Combusting in the Whole
Regenerative Heating Furnace
32-3 Keynote
Regency
Board #4: Poster Presentation Only IHTC14-22145
Kuncan Zheng, Zhi Wen, Xunliang Liu, University of Science and
Technology Beijing, Beijing, China, Xianlan Huang, Baoshan Iron &
Steel Co. Ltd, Beijing, Shanghai, China, Yanfeng Wang, Baoshan
Iron & Steel Co. Ltd., Shanghai, Shanghai, China, Yanqiu Ren, Inner
Mongolia University of Science and Technology, Baoutou, China
10:00am - 11:00am
Session Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Conjugate Heat Transfer Within a Heterogeneous
Hierarchical Structure
Heat Transfer Characteristics of Low Reynolds Number
Turbulent Swirling LPG/Air Flame Impinging on a Flat Surface
Keynote (Max Jakob Memorial Award Lecture).
IHTC14-23421
Board #5: Poster IHTC14-22366
Subhash Chander, Arun Kaushal, Gurpreet Singh, National
Institute of Technology, Jalandhar, Punjab, India, Anjan Ray,
Indian Institute of Technology, New Delhi, India
Ivan Catton, UCLA, Los Angeles, CA, USA
32-4 Keynote
Empire
10:00am - 11:00am
Numerical Simulation of Heat Transfer and Fluid Dynamics in
Supersonic Chemically Reacting Flows
Session Chair: Geoffrey F. Hewitt, Imperial College London,
London, United Kingdom
Board #6: Poster Presentation Only IHTC14-22371
Alexander M. Molchanov, Anna Arsentyeva, State University
of Aerospace Technologies, Moscow, Moscow, Russia
Control of Turbulent Transport: Less Friction and More Heat
Transfer
Analysis of Transport Processes and Chemical Reaction in
Combustion Duct of Compact Methane Reformer
Keynote (Begell House Lecture). IHTC14-23344
Nobuhide Kasagi, Yosuke Hasegawa, The University of
Tokyo, Tokyo, Japan, Koji Fukagata, Keio University,
Yokohama, Japan, Kaoru Iwamoto, Tokyo University of
Agriculture and Technology, Tokyo, Japan
Board #7: Poster IHTC14-22420
Guogang Yang, Wei Wei, Dalian Maritime University, Dalian,
China, Jinliang Yuan, Lund University, Lund, Sweden, Danting
Yue, Xinrong LV, Dalian Maritime University, Dalian, China
Numerical Simulation of Gas/Oil Co-combustion Process and
Thermal NOx Formation in a Retrofitted Oil-Fueled Boiler
Board #8: Poster IHTC14-22424
Haijun Li, Dalian Maritime University, Dalian, Liaoning Province,
China, Sufen Li, Dalian University of Technology, Dalian, Liaoning
Province, China, Xinxiang Pan, Dalian Maritime University,
Dalian, China, Jianguo Pu, Xudong Wang, Dalian Boiler and
Pressure Vessel Inspection, Dalian, Liaoning Province, China
36
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
CFD Simulation of a Hydrogen Reformer Furnace
Evaluation of Heat Transfer Models with Measurements in a
Hydrogen-fuelled Spark Ignition Engine
Board #17: Poster IHTC14-23121
Board #9: Poster IHTC14-22438
Dezhi Zheng, Bin Wu, Purdue University Calumet, Hammond,
IN, USA, Jeff Fleitz, Robert Trajkovski, BP Corp., Whiting, IN,
USA, Chenn Q. Zhou, Purdue University Calumet, Hammond,
IN, USA
Joachim Demuynck, Sebastian Verhelst, Ghent University UGent, Gent, Belgium, Michel De Paepe, Ghent UniversityUGent, Gent, Belgium, Henk Huisseune, Roger Sierens,
Ghent University - UGent, Gent, Belgium
Analysis of the Flow in the Combustor-Transition Piece
Considering the Variation in the Fuel Composition
Flow-Rate and Reaction-Temperature Effects upon Ethanol
Steam Reforming with Cu/ZnO/Al2O3
Board #18: Poster IHTC14-23155
Board #10: Poster IHTC14-22440
Armando Gallegos-Munoz, J. Arturo Alfaro-Ayala,
Universidad de Guanajuato, Salamanca, Mexico, Alfonso
Campos-Amezcua, Alejandro Mani-Gonzalez, Instituto de
Investigaciones Electricas, Cuernavaca, Mexico, J. Manuel
Riesco-Avila, Universidad de Guanajuato, Salamanca, Mexico,
Marco P. Flores-López, Instituto de Investigaciones
Electricas, Cuernavaca, Mexico
Yuki Okuhigashi, Japan/Doshisha University, Kyotanabe,
Kyoto-fu, Japan, Katsuya Hirata, Doshisha University,
Kyotanabe, Kyoto, Japan, Jiro Funaki, Doshisha University,
Kyotanabe-shi, Kyoto, Japan, Toshio Shinoki, Mitsubishi
Electric Corporation/Japan, Amagasaki, Hyogo, Japan
Understanding the Fire Hazards of Grouped Electrical
Cables
Convection
Board #11: Poster IHTC14-22466
7-3 Single Phase Convection 1
Kevin McGrattan, National Institute of Standards and
Technology, Gaithersburg, MD, USA, Jason Dreisbach,
Nuclear Regulatory Commission, Washington, DC, USA,
Andrew Lock, Nathan Marsh, Marc Nyden, NIST,
Gaithersburg, MD, USA
Ambassador
11:00am - 1:00pm
Session Chair: Akira Murata, Tokyo University of Agriculture and
Technology, Tokyo, Japan
Session Co-Chair: Josua Meyer, University of Pretoria, Pretoria,
South Africa
Unstable Thermal Modes in Fischer-Tropsch Reactors with
Fixed Pelletized Catalytic Bed
Unsteady Boundary Layer Flow and Heat Transfer over a
Permeable Stretching Sheet: Case of Heat Flux
Board #12: Poster IHTC14-22469
Igor Derevich, Faculty of Fundamental Sciences, Department
of Applied Mathematics, Moscow, Moscow, Russia, Vadim
Ermolaev, Modern Chemical Technology and Nanomaterials,
NTCSTM, Troitsk, Moscow, Russia, Vladimir Mordkovich,
New Chemical Technologies and Nanomaterials Department,
FGU NTCSTM, Troitsk, Moscow, Russia
Board #19: Poster Presentation Only IHTC14-22031
Waqar A. Khan, National University of Sciences and
Technology, Karachi, Sindh, Pakistan, Ioan Pop, University of
Cluj, Cluj, Romania
Turbulent Flow in a Composite Channel
Investigation of a Laminar Boundary Layer at Hydrogen
Combustion
Board #20: Poster IHTC14-22134
Marcelo de Lemos, Instituto Tecnológico de Aeronáutica ITA, São José dos Campos, Brazil, Renato A. Silva, DECOM/
CEUNES/UFES, São Matues, Brazil, Lidia F. Santos, Instituto
Tecnologico de Aeronautica - ITA, São José dos Campos,
Brazil
Board #13: Poster IHTC14-22509
Eduard P. Volchkov, S.S. Kutateladze Institute of
Thermophysics, Novosibirsk, Novosibirsk Region, Russia,
Vladimir V. Lukashov, Institute of Thermophysics, Novosibirsk,
Russia, Vladimir V. Terekhov, Institute of Thermophysics SB
RAS, Novosibirsk, Russia
Heat Transfer in Separated Flows at High Levels of FreeStream Turbulence
Pyrolysis of Organic Compounds Using Incomplete
Combustion on Ceramics Bed
Board #21: Poster IHTC14-22154
Viktor I. Terekhov, Kutateladze Institute of Thermophysics SB
RAS, Novosibirsk, Russia, Nadezhda I. Yarygina, Kutateladze
Institute of Thermophysics SB RAS, Novosibirsk, Russia
Board #14: Poster IHTC14-22553
Seigo Sakai, Ryo Abo, Yokohama National University,
Yokohama, Kanagawa, Japan, Kuniomi Araki, Nobushige
Amino, ASK Co., Ltd., Sagamihara, Kanagawa, Japan
Turbulent Heat Transfer Over a Moving Plate Due To
Impinging Slot Jets
Optimisation of Annular Cylindrical and Spherical Fins in an
Internal Combustion Engine under Realistic Conditions
Board #22: Poster IHTC14-22168
Himadri Chattopadhyay, Jadavpur University, Kolkata, India,
Ali Cemal Benim, Fachhochschule Duesseldorf, Duesseldorf,
Germany
Board #15: Poster IHTC14-22658
Fernando Illán Gómez, Universidad Politécnica de Cartagena,
Cartagena, Murcia, Spain, Mariano Alarcón García,
Universidad de Murcia, Murcia, Murcia, Spain
Homotopy Analysis for Flow and Heat Transfer over an
Unsteady Stretching Permeable Surface with Heat Source
Experimental Study on a Compact Methanol-Fueled
Reformer with Heat Regeneration Using Ceramic
Honeycomb
Board #23: Poster Presentation Only IHTC14-22199
Lijuan Wang, Liancun Zheng, Xinxin Zhang, University of
Science and Technology Beijing, Beijing, China
Board #16: Poster IHTC14-22742
Yasuhiro Rai, Kazuya Tatsumi, Kazuyoshi Nakabe, Kyoto
University, Kyoto, Kyoto, Japan
37
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Simultaneous Heat And Mass Transfer in Inclined Channel
with Asymmetrical Conditions
Unified Integral Transform Approach in the Hybrid Solution
of Multidimensional Nonlinear Convection-Diffusion
Problems
Board #24: Poster IHTC14-22221
Board #34: Poster IHTC14-22396
Othmane Oulaid, Sherbrooke and Cadi Ayyad Universities,
Sherbrooke, QC, Canada, Brahim Benhamou, Cadi Ayyad
University of Marrakech, Marrakech, Morocco, Nicolas
Galanis, Université de Sherbrooke, Sherbrooke, QC, Canada
Renato M. Cotta, Federal University of Rio de Janeiro, Rio de
Janeiro, RJ, Brazil, João Nazareno N. Quaresma, Federal
University of Pará, Belém, PA, Brazil, Leandro Sphaier,
Universidade Federal Fluminense, Niterói, RJ, Brazil, Carolina
P. Naveira-Cotta, Federal University of Rio de Janeiro, Rio de
Janeiro, RJ, Brazil
Geometric Optimization of Forced Convection in Cooling
Channels with Internal Heat Generation
Board #25: Poster IHTC14-22230
Numerical Study of Laminar Flow and Mass Transfer for Inline Spacer-filled Passages
Tunde Bello-Ochende, Josua Meyer, Olabode T. Olakoyejo,
University of Pretoria, Pretoria, Gauteng, South Africa
Board #35: Poster IHTC14-22399
On the Correlation Between Vorticity Strength and
Convective Heat Transfer
Steven Beale, National Research Council of Canada, Ottawa,
ON, Canada, Jon G. Pharoah, Seyed M. Mojab, Queen’s
University, Kingston, ON, Canada, Ashwani Kumar, National
Research Council of Canada, Ottawa, ON, Canada
Board #26: Poster IHTC14-22269
Charbel Habchi, Thierry Lemenand, Dominique Della Valle,
Hassan Peerhossaini, University of Nantes, Nantes, France
Tornado Prevention: A Novel Method
Heat and Fluid Flow in Expanding Concentric Annular FlowPassage with Rotating Inner-Wall
Board #27: Poster IHTC14-22279
Board #36: Poster IHTC14-22403
Aleksei Varaksin, Michael Romash, Viktor Kopeitsev,
Maxim Gorbachev, Joint Institute of High Temperatures,
Russian Academy of Sciences, Moscow, Russia
Akira Murata, Kaoru Iwamoto, Tokyo University of Agriculture
and Technology, Tokyo, Japan
On the Analysis of Turbulent Transient Flows in Channels
A Study on the Solid-liquid Rotating Flow for Solid Transport
in an Inclined Annulus
Board #28: Poster IHTC14-22291
Board #37: Poster Presentation Only IHTC14-22437
Vyacheslav M. Kraev, Dmitry S. Yanyshev, Moscow Aviation
Institute, School 2 Engines for Flying Vehicles, Moscow, Russia
S.M. Han, S.W. Choi, Sungkyunkwan University, Suwon, Korea
(Republic), Y.J. Kim, Korea Institute of Geoscience and Mineral
Resources, Daejeon, Korea (Republic), Young-Kyu Hwang,
Sungkyunkwan University, Suwon, Korea (Republic)
Studies on Flow and Heat Transfer of Liquid Falling
Board #29: Poster Presentation Only IHTC14-22293
Exact Solutions of Accelerated Flows for a Generalized
Burger Fluid
Ning Mei, Ocean University of China, Qingdao, China, Hongyu
Si, Engineering College, Ocean University of China, Qingdao,
Shandong Province, China, Jie Zhao, Ecole Centrale de
Nantes, Nantes, Nantes, France, Yu Bai, Ocean University of
China, Qingdao, Shandong, China
Board #38: Poster Presentation Only IHTC14-22454
Fangfang Zhao, Liancun Zheng, Xinxin Zhang, University of
Science and Technology Beijing, Beijing, China
Single-Phase Heat Transfer and Pressure Drop Of Water
Cooled Inside Horizontal Smooth Tubes in the Transitional
Flow Regime
Chaotic Mixing: A Sure Way for Optimal Thermal Conditions?
Board #39: Poster IHTC14-22797
Michel Speetjens, Eindhoven University of Technology,
Eindhoven, Netherlands
Board #30: Poster. IHTC14-22338
Josua Meyer, Leon Liebenberg, Jonathan Olivier, University
of Pretoria, Pretoria, South Africa
Tangential Gas Injection into a Supersonic Stream
Board #40: Poster IHTC14-22922
Heat Transfer and Pressure Drop Characteristics of Water in
the Transitional Flow Regime of Horizontal Smooth Tubes at
Constant Wall Temperature
Eduard B. Vasilevskiy, Andrey V. Novikov, Ivan V. Ezhov,
Central Aerohydrodynamic Institute (TsAGI), Zhukovsky,
Moscow Region, Russia
Board #31: Poster IHTC14-22340
Alternative and Relevant Representation to Heat Transfer
Coefficient for Modeling the Heat Transfer between a Fluid
and a Non-Isothermal Wall in Transient Regime
Josua Meyer, Alicia Du Preez, University of Pretoria, Pretoria,
South Africa
Numerical Heat Transfer Studies of Flows over Concave
Surfaces
Board #41: Poster IHTC14-23019
Benjamin Remy, Alain Degiovanni, LEMTA, NancyUniversité, CNRS, Vandoeuvre-lès-Nancy, France (Metro)
Board #32: Poster IHTC14-22390
Leandro F. Souza, Universidade de São Paulo, São Carlos,
Brazil, Joseph T. C. Liu, Brown University, Providence, RI,
USA
An LES Insight into Convective Mechanism of Heat Transfer
in a Wall-bounded Pin Matrix
Board #42: Poster IHTC14-23205
Investigation of Flow and Mass Transfer on a Flat Plate
Downstream of a Shear inducing Moving Wall
Domenico Borello, Dipartimento di Meccanica e Aeronautica,
Sapienza Università di Roma, Roma, Italy, Giovanni Delibra,
Kemal Hanjalic, Franco Rispoli, Dipartimento di Meccanica e
Aeronautica, ‘Sapienza’ Università di Roma, Roma, Italy
Board #33: Poster IHTC14-22394
Kalyanjit Ghosh, Richard Goldstein, University of Minnesota,
Minneapolis, MN, USA
38
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Heat Pipes
An Investigation of Flat-Plate Oscillating Heat Pipes
Board #51: Poster IHTC14-22706
12-2 Steady and Oscillating Heat Pipes
Palladian
Peng Cheng, ThermAvant Technologies, Columbia, MO, USA,
Scott Thompson, University of Missouri, Columbia, MO, USA,
Joe Boswell, ThermAvant Technologies, Columbia, MO, USA,
Hongbin Ma, University of Missouri, Columbia, MO, USA
11:00am - 1:00pm
Session Chair: Suresh V. Garimella, Purdue University, West
Lafayette, IN, USA
Session Co-Chair: Timothy S. Fisher, Purdue University, West
Lafayette, IN, USA
Effect of Working Fluids on Pulsating Heat Pipe Thermal
Performance
Board #52: Poster IHTC14-22714
Experimental Investigation of Closed Loop Pulsating Heat Pipe
Koji Fumoto, Kushiro National College of Technology, Kushiro,
Hokkaido, Japan, Masahiro Kawaji, University of Toronto,
Toronto, ON, Canada, Tsuyoshi Kawanami, Kobe University,
Kobe, Hyogo, Japan
Board #43: Poster Presentation Only IHTC14-22008
Hamed Jamshidi, Sharif University of Technology, Kerman,
Iran, Mohammad Behshad Shafii, Sharif University of
Technology, Tehran, Iran
Flow and Heat Transfer Numerical Simulation of Gravity-type
Heat Pipe
Experimental Investigation on the Heat Transfer
Characteristics of Nanofluid in Self-Exciting Mode
Oscillating-Flow Heat Pipe
Board #53: Poster Presentation Only IHTC14-22748
Ye Zhangbo, Li Qifen, Zhao Lifeng, Pan Weiguo, Shanghai
University of Electric Power, Shanghai, China
Board #44: Poster Presentation Only IHTC14-22081
Shang Fu-Min, Liu Jian-Hong, Changchun Institute of
Technology, Changchun, China, Deng-Ying Liu, Affiliation
Institute of Engineering, Beijing, China
Experimental Investigation of Solar Heat Pipes with Ethanol
Solution as Working Fluid
Board #54: Poster IHTC14-23097
Theoretical Analysis on the Thermal Characteristics of
Oscillating Heat Pipe
Hang Guo, Haiyan Du, Fang Ye, Chongfang Ma, Beijing
University of Technology, Beijing, China
Board #45: Poster IHTC14-22103
An Experimental Study of Heat Pipe Performance using
Binary Mixture Fluids that Exhibit Strong Concentration
Marangoni Effects
Haizhen Xian, North China Electric Power University, Beijing,
China, Dengying Liu, Institute of Engineering Thermophysics,
Chinese Academy of Sciences, Beijing, China, Xiaomin Liu,
Yongping Yang, X.Z. Du, North China Electric Power
University, Beijing, China
Board #55: Poster IHTC14-23255
Kenneth Armijo, University of California, Berkeley, CA, USA,
Van Carey
Experimental Study on Flat Plate Pulsating Heat Pipe
Heat Transfer Equipment
Board #46: Poster Presentation Only IHTC14-22329
Chaofa Hu, li Jia, Beijing Jiaotong University, Beijing, China
14-3 Single Phase Heat Exchangers 1
Operational Mechanism of Square Capillary Looped
Pulsating Heat Pipe
Ambassador 11:00am - 1:00pm
Board #47: Poster Presentation Only IHTC14-22331
Session Chair: Lizhi Zhang, South China University of Technology,
Guangzhou, Guangdong, China
Session Co-Chair: Leandro Sphaier, Universidade Federal
Fluminense, Niterói, RJ, Brazil
Wei Qu, Bin Yang, Institute of Engineering Thermophysics,
Chinese Academy of Sciences, Beijing, China
Study on the Heat Transfer Performance of Pulsating Heat Pipe
with Different Working Mediums under different Working States
A Large Eddy Simulation (LES) of Plate-fin and Tube Heat
Exchangers
Board #48: Poster Presentation Only IHTC14-22514
Board #56: Poster IHTC14-22030
Guozhen Xie, Beijing University of Civil Engineering and
Architecture, Beijing, Beijing, China
Lizhi Zhang, South China University of Technology,
Guangzhou, Guangdong, China
Experimental Study on Counter-Gravity Effect of Non-Phase
Change Heat Pipes
A Numerical Study and Thermodynamic Analysis on a Novel
Regular Hexagonal Plate Heat Exchanger with Spherical Ribs
Board #49: Poster IHTC14-22555
Board #57: Poster IHTC14-22245
Suvit Lee, Hai-O Energy (M) Sdn. Bhd., Kuala Lumpur,
Malaysia, Dazhong Yuan, Institute of Engineering
Thermophysics, CAS, Beijing, China, Bangxian Wu, Institute
of Engineering Thermophysics, CAS, Beijing, China
Wenjing Du, Fei Wang, Shandong University, Jinan, China,
Gongming Xin, Institute of Thermal Science and Technology,
Shandong University, Jinan, Shandong, China, Shihu Zhang,
Shandong University, Jinan, Shandong Province, China, Lin
Cheng, Shandong University, Jian, Shandong Province, China
Experiment Study on Ground Temperature Recovery and
Operating Performance of Intermittent Heat Storage in
GSHP System
Numerical Investigation on Shell-Side Performance of Heat
Exchangers with Overlap Helical Baffles
Board #50: Poster IHTC14-22598
Board #58: Poster IHTC14-22250
Sufen Li, Dalian University of Technology, Dalian, Liaoning
Province, China, Lanhua Dai, Da Lian University of
Technology, Da Lian, China, Yan Shang, Da Lian University of
Technology, Dalian, China
Shui Ji, Wenjing Du, Shandong University, Jinan, Shandong
Province, China, Lin Cheng, Shandong University, Jian,
Shandong Province, China
39
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Trends in Shellside Thermal Design Methods
Flow Field Study in Louvered Fin and Round Tube Heat
Exchangers
Board #59: Poster Presentation Only IHTC14-22260
Board #68: Poster. IHTC14-22577
Thomas Lestina, R. Stanley Kistler, Heat Transfer Research,
Inc., College Station, TX, USA
Henk Huisseune, Christophe T’Joen, Ghent University UGent, Gent, Belgium, Peter De Jaeger, nv Bekaert sa,
Zwevegem, Belgium, Michel De Paepe, Ghent UniversityUGent, Gent, Belgium
Semi-analytical Calculation of the Inlet Zone Performance
Factor of Ideal Shell and Tube Heat Exchangers
Board #60: Poster IHTC14-22276
Effect of Spacer Grids on the Local Heat Transfer
Koorosh Mohammadi, Wolfgang Heidemann, Hans MuellerSteinhagen, University of Stuttgart, Stuttgart, Germany
Board #69: Poster IHTC14-22589
Benediktas Cesna, Eugenijus Uspuras, Lithuanian Energy
Institute, Kaunas, Lithuania
A New Criterion for Assessing the Heat Exchanger
Performance
Geometry of Plate Fins for Maximizing Heat Transfer
Board #61: Poster IHTC14-22315
Board #70: Poster IHTC14-22615
Mingtian Xu, Shandong University, Jian, Shandong Province,
China, Jiangfeng Guo, ShanDong University, Jinan, China, Lin
Cheng, Shandong University, Jian, Shandong Province, China
Timo Karvinen, Reijo Karvinen, Tampere University of
Technology, Tampere, Finland
Thermo-Hydraulic Performance of a Heat Exchanger
Consisting of Metal Foam Covered Tubes
Obtaining Closure for Heat Exchanger Modeling Based on
Volume Averaging Theory (VAT)
Board #62: Poster IHTC14-22382
Board #71: Poster IHTC14-22971
Christophe T’Joen, Ghent University - UGent, Gent , Belgium,
Peter De Jaeger, nv Bekaert sa, Zwevegem, Belgium, Henk
Huisseune, Ghent University - UGent, Gent, Belgium, Michel
De Paepe, Ghent University-UGent, Gent, Belgium
Feng Zhou, Southeast University, Nanjing, China, Nicholas
Hansen, Ivan Catton, UCLA, Los Angeles, CA, USA
Measurements of Local Heat Transfer Coefficients in Heat
Exchangers with Inclined Flat Tubes by Means of the
Ammonia Absorption Method
Use of Optimum Seeking Method in Test of Heat Transfer
Performance of Finned Tubes
Board #72: Poster IHTC14-23092
Board #63: Poster IHTC14-22386
Ulf Ahrend, ABB AG Corporate Research Center Germany,
Ladenburg, Germany, Angelika Hartmann, Juergen Koehler,
Technical University Braunschweig, Braunschweig, Germany
Xinping Ouyang, Hua Zhang, University of Shanghai for
Science and Technology, Shanghai, China, Guomei Wu,
Shanghai Institute of Industrial Boiler, Shanghai, China, Ni Liu,
University of Shanghai for Science and Technology, Shanghai,
China
Optimization of the Fin-and-Tube Heat Exchanger Design for
Non-Standard Applications
Board #73: Poster IHTC14-23390
Influence of Adsorbent Properties on Enthalpy Wheel
Performance
Anybek Orozaliev, Christian Budig, Klaus Vajen, Kassel
University, Kassel, Hessen, Germany
Board #64: Poster IHTC14-22401
Natural Convection
Leandro Sphaier, Universidade Federal Fluminense, Niterói,
RJ, Brazil, William M. Worek, University of Illinois at Chicago,
Chicago, IL, USA
20-1 Natural Convection 1
Diplomat
Study on a Cascade Utilization of Liquid Natural Gas (LNG)
Cold Energy for Power Generation
11:00am - 1:00pm
Session Chair: Arcot R. Balakrishnan, Indian Institute of
Technology Madras, Chennai, Tamilnadu, India
Session Co-Chair: Luiz Fernando Milanez, University of
Campinas - UNICAMP, Campinas, Sao Paulo, Brazil
Board #65: Poster IHTC14-22411
Yuanwei Lu, Beijing University of Technology, Beijing, China,
Hongchang Yang, Beijing University of Technology, Beijng,
China, Chongfang Ma, Beijing University of Technology,
Beijing, China
Double-Diffusive Natural Convection in an Enclosure Having
Finite Thickness Walls
Heat Transfer Enhancement in a Double Pipe Heat
Exchanger by Insertion of Propeller-Type Swirl Generators
Board #74: Poster IHTC14-22335
Geniy V. Kuznetsov, Tomsk Polytechnic University, Tomsk,
Russia, Mikhail A. Sheremet, Tomsk State University, Tomsk,
Russia
Board #66: Poster IHTC14-22427
Khwanchit Wongcharee, Somsak Pethkool, Mahanakorn
University of Technology, Bangkok, Thailand, Chinaruk
Thianpong, King Mongkuts Institute of Technology
Ladkrabang, Bangkok, Bangkok, Thailand
Natural Convection Ventilation in Fully Open Enclosures
Board #75: Poster IHTC14-22404
Morteza Nateghi, Hastie Group Limited, Sydney, NSW, Australia,
S. W. Armfield, The University of Sydney, Sydney, NSW, Australia
Performance of a Plate-Type Cross-Flow Enthalpy
Exchanger Made of Paper
Board #67: Poster IHTC14-22502
Nae Kim, University of Incheon, Incheon, Korea (Republic),
Eul-Jong Lee, University of Incheon, Incheon, Korea
(Republic), Kil-Sup Song, Sang-Jin Cha, Jung-Pyo Lee,
University of Incheon, Incheon, Korea (Republic)
40
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Study on the Route to Chaos of Natural Convection in
Cylindrical Envelope with an Internal Concentric Cylinder
with Slots
Turbulent Flow in a Differentially Heated Cavity: Direct
Numerical Simulation and Regularization Modeling
Board #83: Poster Presentation Only IHTC14-23267
Board #76: Poster IHTC14-22414
Xavier Trias, Andrey Gorobets, Technical University of
Catalonia, Terrassa, Barcelona, Spain, Assensi Oliva, Centre
Tecnològic de Transferència de Calor - Universitat Politècnica
de Catalunya, Terrassa, Spain, Roel Verstappen, University of
Groningen, Groningen, Netherlands
Kun Zhang, University of Shanghai for Science and
Technology, Shanghai, China, M. Yang, University of Shanghai
for Science and Technology, Shanghai, China, Yuwen Zhang,
University of Missouri, Columbia, MO, USA
Conjuguate Heat Transfer by Natural Convection,
Conduction and Radiation in Partitioned Enclosures
Numerical Study of 3D Nonlinear Disturbance Growth in
Transitional Natural Convection
Board #77: Poster Presentation Only IHTC14-22431
Board #84: Poster IHTC14-23300
Vincent Sambou, ESP / Université Cheikh Anta Diop, Dakar,
Senegal, Berangere Lartigue, Universite Paul Sabatier,
Toulouse, France, Françoise Monchoux, Université Paul
Sabatier, Toulouse, France, Mamadou Adj, ESP / Université
Cheikh Anta Diop, Dakar, Senegal
Tilek Aberra, Steven W. Armfield, Masud Behnia, The
University of Sydney, Sydney, NSW, Australia, Shigenao
Maruyama, Atsuki Komiya, Tohoku University, Sendai, Japan
Turbulent Natural Convection Inside a Square Enclosure with
Baffles
Flow Characteristics and Structures of Three-Dimensional
Unsteady Thermal Convection in a Container
Board #85: Poster. IHTC14-23397
Khudheyer S. Mushatet, Thi-Qar University/Iraq, Nassiriya,
Iraq, Iraq
Board #78: Poster IHTC14-22439
Satoshi Fujita, Doshisha University, Kyotanabe-shi, Kyoto,
Japan, Katsuya Hirata, Doshisha University, Kyotanabe,
Kyoto, Japan, Jiro Funaki, Doshisha University, Kyotanabe-shi,
Kyoto, Japan, Hirochika Tanigawa, Maizuru National College
of Technology, Maizuru-shi, Kyoto, Japan
Solar
26-1 Solar Energy
Ambassador
Sensitivity of Diffusive-Convective Transition to the Initial
Conditions in a Transient Benard-Marangoni Problem
11:00am - 1:00pm
Session Chair: Sandra Boetcher, University of North Texas,
Denton, TX, USA
Session Co-Chair: Jane H. Davidson, University of Minnesota,
Minneapolis, MN, USA
Board #79: Poster IHTC14-22600
Eric Chenier, University of Marne-la-Vallee, Marne-la-Vallee,
France, Claudine Delcarte, Université Paris-Sud 11, Orsay,
France, Christophe Desceliers, Université Marne-la-Vallee,
Marne-la-Vallee, France, Frederic Doumenc, Université Pierre
et Marie Curie, Orsay, France, Beatrice Guerrier, CNRS,
Orsay, France, Benoit Trouette, University Paris-Sud 11, Orsay,
France
Drying Edible Soybean Dregs using Solar Energy
Board #86: Poster Presentation Only IHTC14-22019
Shengyong Liu, Lei Hua, Henan Agricultural University,
Zhengzhou, China
Development of a Profiled Multilayer Tube (PML) for High
Temperature Solar Receiver and Heat Exchanger
Flow Transitions and Bifurcations of Buoyancy-induced
Flows from an Enclosed Cylindrical Heat Source
Board #87: Poster IHTC14-22094
Jens Jedamski, Lars Amsbeck, Reiner Buck, German
Aerospace Center (DLR), Stuttgart, Germany, Peter Heller,
German Aerospace Center (DLR), Tabernas, Spain, Ralf Uhlig,
Felipe Vasquez, German Aerospace Center (DLR), Stuttgart,
Germany, Patrice Touchon, Commissariat a L’Energie
Atomique (CEA), LITEN, Grenoble, France, Raphael Couturier,
Commissariat a L´Energie Atomique, Grenoble, France
Board #80: Poster IHTC14-22648
Diego Angeli, DIMeC - Dipartimento di Ingegneria Meccanica e
Civile, Università di Modena and Reggio Emilia, Modena,
Modena, Italy, Arturo Pagano, DIIM - Dipartimento di Ingegneria
Industriale e Meccanica, Università degli Studi di Catania,
Catania, Modena, Italy, Mauro A. Corticelli, Dipartimento di
Ingegneria Meccanica e Civile, Università degli Studi di Modena
e Reggio Emilia, Modena, Italy, Giovanni S. Barozzi, DIMeC Dipartimento di Ingegneria Meccanica e Civile, Università di
Modena and Reggio Emilia, Modena, Modena, Italy
Convective Heat Transfer in a Helical Coil Solar Thermal
Collector
Board #88: Poster IHTC14-22114
Flow Pattern Transition and Related Heat Transfer in an
Annular Gap Around a Truncated Conical Rotor in a Cylinder
Allan May, T.S. O’Donovan, Heriot-Watt University, Edinburgh,
Scotland, United Kingdom
Board #81: Poster IHTC14-22874
Nanofluid-based Absorbers for High Temperature Direct
Solar Collectors
Ryosuke Matsumoto, Mamoru Ozawa, Kansai University,
Osaka, Japan
Board #89: Poster IHTC14-22208
Effects of Thermal Boundary Conditions on Entropy
Generation during Natural Convection in a Differentially
Heated Square Cavity
Andrej Lenert, Yoshio Perez, MIT, Cambridge, MA, USA,
Evelyn Wang, Massachusetts Institute of Technology,
Cambridge, MA, USA
Board #82: Poster IHTC14-23112
Arcot R. Balakrishnan, Indian Institute of Technology Madras,
Chennai, Tamilnadu, India, Tanmay Basak, Ram Satish
Kaluri, Indian Institute of Technology, Madras, Chennai,
Tamilnadu, India
41
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Study on Collector Efficiency of Flat-Plate-Type Evacuated
Solar Collector to Get Hot Water near 100°C
Analysis and Design of Dye Sensitized Solar Cells
Board #99: Poster IHTC14-23101
Board #90: Poster IHTC14-22242
Karthik Nithyanandam, Virginia Polytechnic Institute and
State University, Blacksburg, VA, USA, Ranga Pitchumani,
Virginia Tech, Blacksburg, VA, USA
Shigeki Hirasawa, Tsuyoshi Kawanami, Kobe University,
Kobe, Hyogo, Japan
Heat Transfer Modelling of a Novel Concentrating
Photovoltaic System
Air-heating Solar Collectors for HumidificationDehumidification Desalination Systems
Board #91: Poster IHTC14-22337
Board #100: Poster IHTC14-23214
Tapas Mallick, Heriot-Watt University, Edinburgh, United
Kingdom, Sendhil Natarajan, Heriot-Watt, Edinburgh, United
Kingdom
Edward K. Summers, John Lienhard, Massachusetts
Institute of Technology, Cambridge, MA, USA, Syed M. Zubair,
King Fahd University of Petroleum and Minerals, Dhahran,
Saudi Arabia
Study on a Cooling System for a Concentrating Photovoltaic
Module
Investigation of High Temperature Nanofluids for Solar
Thermal Power Conversion and Storage Applications
Board #92: Poster IHTC14-22412
Board #101: Poster IHTC14-23296
Kyu Hyung Do, Korea Institute of Machinery and Materials,
Daejeon, Korea (Republic), Tae Hoon Kim, Korea Advanced
Institute of Science and Technology, Daejeon, Korea
(Republic), Sung Kim, KAIST, Daejeon, Korea (Republic), Seok
Pil Jang, Korea Aerospace University, Goyang, Korea
(Republic)
Donghyun Shin, Byeongnam Jo, Hyun-eun Kwak, Debjyoti
Banerjee, Texas A&M University, College Station, TX, USA
Geometrical Optimization of Solar Concentrating Collectors
through Quasi-Monte Carlo
Board #102: Poster IHTC14-23389
Mathematical Modeling of a Radiative Heat Transfer Process
in the System of the Solar Energy Concentrator-receiver for
Space High-temperature Solar Power Plant
Andrew J. Marston, Kyle J. Daun, Michael R. Collins,
University of Waterloo, Waterloo, ON, Canada
POSTER SESSION 2: 4:00pm – 6:00pm
Board #93: Poster IHTC14-22678
Victor Leonov, Bauman Moscow State Technical University
(BMSTU), Moscow, Moscow, Russia
Combustion
Sub-micron Thermal Imaging of Thin-Film Solar Cells
through Glass Substrates
3-2 Combustion 2
Palladian
Board #94: Poster Presentation Only IHTC14-22755
4:00pm - 6:00pm
Session Chair: Chenn Q. Zhou, Purdue University Calumet,
Hammond, IN, USA
Session Co-Chair: Sergei Sazhin, University of Brighton, Brighton,
East Sussex, United Kingdom
Dustin Kendig, Glenn Alers, Ali Shakouri, University of
California Santa Cruz, Santa Cruz, CA, USA
Design and Performance Evaluation of a New Solar Plate-Fin
Desalination Process
Experimental and Numerical Investigation of Fuel Lean
Reburning for Nox Reduction
Board #95: Poster Presentation Only IHTC14-22766
Shu Xu, Hao Peng, Xiang Ling, Nanjing University of
Technology, Nanjing, Jiangsu, China
Board #1: Poster Presentation Only IHTC14-22092
Hakyoung Kim, KAIST, Korea, Korea (Republic)
Carbon Nanotube Interfaces for Magneto Thermoelectric
Actuation
Numerical and Experimental Study on Soot Accumulation on
the Wall of Falling Fuel Film Micro-combustor
Board #96: Poster IHTC14-22810
Board #2: Poster IHTC14-22093
Patrick McCarthy, Steve L. Hodson, Timothy D. Sands,
Timothy S. Fisher, Purdue University, West Lafayette, IN, USA
Ning Mei, Ocean University of China, Qingdao, China,
Xiaoyan Wang, Shandong Vocational College of Economics
and Business, Weifang, Shandong, China, Hongming Zhao,
Yan Li, Ocean University of China, Qingdao, China, Hongyu
Si, Engineering College, Ocean University of China, Qingdao,
Shandong Province, China
Performance of Glass Heat Pipes For Solar Thermoelectric
Energy Systems
Board #97: Poster IHTC14-22816
Nenad Miljkovic, Evelyn Wang, Massachusetts Institute of
Technology, Cambridge, MA, USA
Non-Homogeneous Radiation Characteristic in Carbon-Ash
Composite Particle Cloud of Coal Char
Optimal Heat Transfer During Charge and Discharge of a
Thermal Store
Board #3: Poster IHTC14-22138
Board #98: Poster IHTC14-22924
Yosinori Itaya, Fumiya Kosaka, Nobsuke Kobayashi,
Yasuhiro Tanabe, Dept. of Chemical Engineering, Nagoya
University, Nagoya, Japan
Sandra Boetcher, University of North Texas, Denton, TX, USA,
F.A. Kulacki, Jane H. Davidson, University of Minnesota,
Minneapolis, MN, USA
Numerical Study of Partial Oxidation of a Single Coal Particle
in a Stream of Air
Board #4: Poster IHTC14-22263
Matthias Kestel, Petr. A. Nikrityuk, Bernd Meyer, Freiberg
University of Mining and Technology, Freiberg, Saxony, Germany
42
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Fuel Droplet Heating and Evaporation: New Hydrodynamic
and Kinetic Models
Effect of Reactant Preheating on the Stability of Nonpremixed Methane/Air Flames
Board #5: Poster IHTC14-22320
Board #12: Poster IHTC14-22938
Sergei Sazhin, University of Brighton, Brighton, East Sussex,
United Kingdom, Irina Shishkova, Moscow Power
Engineering Institute, Moscow, Russia, Ivan Gusev, Ahmed
Elwardany, University of Brighton, Brighton, East Sussex,
United Kingdom, Pavel Krutitskii, Keldysh Institute for Applied
Mathematics, Moscow, Russia, Morgan Heikal, University of
Brighton, Brighton, East Sussex, United Kingdom
Sylvain Lamige, CETHIL - INSA de Lyon, Villeurbanne, France,
Cédric Galizzi, CNRS - INSA de Lyon, Villeurbanne, France,
Jiesheng Min, CORIA, Rouen, France, Julien Perles, Frederic
Andre, CETHIL - INSA de Lyon, Villeurbanne, France, Françoise
Baillot, CORIA - Université de Rouen, Rouen, France, Dany
Escudie, CNRS - INSA de Lyon, Villeurbanne, France
Analysis of Radiation Reabsorption Effects on Flame
Characteristics and NOx Emission in Laminar Flames
Development and Validation of a Coal Combustion Model for
Pulverized Coal Combustion
Board #13: Poster IHTC14-23061
Board #6: Poster Presentation Only IHTC14-22566
Wang Jingfu, Bejing University of Technology, Beijing City,
China, Li Guoqiang, Beijing University of Technology, Beijing
City, China
Michael Chernetskiy, Kutateladze Institute of Thermophysics,
Russian Academy of Sciences, Siberian Branch, Novosibirsk,
Russia, Alexandr Dekterev, Kutateladze Institute of
Thermophysics, Russian Academy of Siberian Branch,
Novosibirsk, Russia
A Skewed Two-Dimensional Probability Density Function for
Methane-Air Turbulent Diffusion Flames
Board #14: Poster IHTC14-23068
Heat Transfer within Interacting Combusting Droplets:
Influence of the Droplet Spacing
Mohsen M.M. Abou-Ellail, The University of WisconsinMilwaukee, Falls Church, VA, USA, Ryo Amano, University of
Wisconsin-Milwaukee, Milwaukee, WI, USA, Samer Elhaw,
Karam Beshay, Hatem Kayed, Cairo University, Cairo, Egypt
Board #7: Poster IHTC14-22668
Guillaume Castanet, Alexandre Labergue, LEMTA - CNRS,
Vandoeuvre-les-Nancy, France, Fabrice Lemoine, LEMTA
CNRS, Vandoeuvre-les-Nancy, France (Metro)
Prediction of the Interaction of Energetic Chemical
Reactions and Forced Convection
Experimental and Numerical Investigation of Biomass
Pyrolysis Process Focusing on Intra-particle Heat Transfer
Board #15: Poster Presentation Only IHTC14-23160
Stuart W. Churchill, University of Pennsylvania, Glen Mills, PA,
USA, Bo Yu, China University of Petroleum, Beijing, China
Board #8: Poster IHTC14-22777
Hirotatsu Watanabe, Yosuke Morinaga, Takuya Okada, Ken
Okazaki, Tokyo Institute of Technology, Tokyo, Japan
Understanding Thermal Consequences of Liquid Sodium
Fires
DNS of Flame-Wall Interaction and Heat Transfer in a
Constant Volume Vessel
Board #16: Poster Presentation Only IHTC14-23268
Tara Olivier, John Hewson, Thomas Blanchat, Steven
Nowlen, Sandia National Laboratories, Albuquerque, NM, USA
Board #9: Poster IHTC14-22800
Akihiko Tsunemi, Yoshihiro Horiko, Tokyo Institute of
Technology, Meguro-ku, Tokyo, Japan, Masayasu Shimura,
Naoya Fukushima, Tokyo Institute of Technology, Tokyo,
Japan, Seiji Yamamoto, Makoto Nagaoka, Toyota Central
R&D Labs., Aichi-gun, Aichi, Japan, Youngsam Shim,
Mamoru Tanahashi, Toshio Miyauchi, Tokyo Institute of
Technology, Meguro-ku, Tokyo, Japan
Computational Analysis of Solid Fuel Particle Size on
Burning Rate
Board #17: Poster Presentation Only IHTC14-23337
Thomas Marino, NSWC, West Bethesda, MD, USA, Vahid
Motevalli, Purdue University, West Lafayette, IN, USA
The Influence of Heat Transfer on Burning Process of
Jatropha Oil Droplet
A Strategy for Modeling Soot Formation and Radiative
Transfer in Turbulent Flames
Board #18: Poster Presentation Only IHTC14-22731
Board #10: Poster IHTC14-22819
I.N.G. Wardana, Brawijaya University, Malang, Jawa-Timur,
Indonesia
Luc-Henry Dorey, Lionel Tessé, Nicolas Bertier, Francis
Dupoirieux, Fundamental and Applied Energetics Department,
ONERA, Châtillon, France
Convection
Heat Transfer Characteristics of Fuel Based Emulsions with
Alcohol Additives
7-4 Single Phase Convection 2
Ambassador
Board #11: Poster IHTC14-22832
4:00pm - 6:00pm
Session Chair: John Abraham, University of St. Thomas, St. Paul,
MN, USA
Session Co-Chair: H. R. B. Orlande, Federal University of Rio de
Janeiro, Rio de Janeiro, Brazil
Hiroshi Yamasaki, Kei Suzuki, Shigeki Furukawa, Nihon
University, Narashino, Chiba, Japan, Ming-Chia Lai, Wayne
State University, Detroit, MI, USA
Improved Regimes in High Pressure Magnetic Discharges
Board #19: Poster IHTC14-22212
Sergei V. Ryzhkov, Bauman Moscow State Technical
University (BMSTU), Moscow, Russia, Andrey V. Anikeev,
Budker Institute of Nuclear Physics SB RAS (BINP),
Novosibirsk, Russia
43
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Experimental Investigation of Skin Friction Drag and Heat
Transfer on the Surfaces with Concavities in Compressible
Fluid Flow
Flow Structure and Heat Transfer in Stagnation Flow CVD
Reactor
Board #20: Poster IHTC14-22237
Board #29: Poster Presentation Only IHTC14-22585
Nasir Memon, Yogesh Jaluria, Rutgers University,
Piscataway, NJ, USA
Alexander A. Titov, Alexander I. Leontiev, Yurii A.
Vinogradov, Andrey G Zditovets, Mark M. Strongin, Institute
of Mechanics Lomonosov Moscow State University, Moscow,
Russia
Approximate Analytical Solutions for Marangoni Mixed
Convection Boundary Layer
Board #21: Poster Presentation Only IHTC14-22330
Paradoxes of Heat Transfer on a Permeable Wall
Yan Zhang, Beijing Institute of Civil Engineering and
Architecture, Beijing, China, Liancun Zheng, Jiemin Liu,
University of Science and Technology Beijing, Beijing, China
Board #30: Poster Presentation Only IHTC14-22592
Valeriy G. Lushchik, Alexander E. Yakubenko, Alexander I.
Leontiev, Institute of Mechanics Lomonosov Moscow State
University, Moscow, Russia
Influence on Convection Heat Transfer of Unsteady Flow in a
Tube
Experimental Investigation on an Unsteady Case of Forced
Convection over a Flat Plate
Board #22: Poster Presentation Only IHTC14-22430
Lei Chen, North China Electric Power University, Beijing, China
Board #31: Poster Presentation Only IHTC14-22622
Influence of Favourable Pressure Gradient on the Heat
Transfer in Boundary Layer
Vincent Galoul, Philippe Reulet, Pierre Millan, ONERA DMAE, Toulouse - Cedex 4 , France
Board #23: Poster IHTC14-22432
Intermittent Flow Modeling Part 2: Time-Varying Flows and
Flows in Variable Area Ducts
Alexey Yu. Sakhnov, S.S. Kutateladze Institute of
Thermophysics, Siberian Branch of Russian Academy of
Sciences, Novosibirsk, Novosibirsk Region, Russia, Eduard P.
Volchkov, Maxem S. Makarov, S.S. Kutateladze Institute of
Thermophysics, Novosibirsk, Novosibirsk Region, Russia
Board #32: Poster IHTC14-22696
John Abraham, University of St. Thomas, St. Paul, MN, USA,
Ephraim Sparrow, Jimmy Tong, University of Minnesota,
Minneapolis, MN, USA, W.J. Minkowycz, University of Illinois,
Chicago, Chicago, IL, USA
Temperature Field Prediction of a Multilayered Composite
Pipeline Based on the Particle Filter Method
Oscillatory Magnetothermal Convection of Non-ferrous Fluid
in a Vertical Cylindrical Enclosure with a Heated Rotating
Disk at Bottom Center
Board #24: Poster IHTC14-22462
F. L. V., Vianna, Petrobras Research and Development Center,
CENPES, Rio de Janeiro, Brazil, H. R. B. Orlande, Federal
University of Rio de Janeiro, Rio de Janeiro, Brazil, George
Dulikravich, Florida International University, Miami, FL, USA
Board #33: Poster IHTC14-22781
Masato Akamatsu, Yamagata University, Yamagata, Japan,
Mitsuo Higano, Akita Prefectural University, Akita, Japan
An Investigation of Concentration Dependency of Mass
Diffusion Coefficients in Multi-component Diffusion
Intermittent Flow Modeling Part I: Hydrodynamic and
Thermal Modeling of Intermittent Flow in Constant Area
Ducts
Board #25: Poster IHTC14-22501
Atsuki Komiya, Juan F. Torres, Junnosuke Okajima, Shuichi
Moriya, Shigenao Maruyama, Tohoku University, Sendai,
Miyagi, Japan, Masud Behnia
Board #34: Poster IHTC14-22858
John Abraham, University of St. Thomas, St. Paul, MN, USA,
Ephraim Sparrow, Jimmy Tong, University of Minnesota,
Minneapolis, MN, USA, W.J. Minkowycz, University of Illinois,
Chicago, Chicago, IL, USA
The Characteristics of Turbulent Heat Transfer in a Curved
Rectangular Duct with Various Aspect Ratios
Board #26: Poster IHTC14-22528
Effect of the Wall Heat Flux on Entropy Generation in
Turbulent Mixed Convection Flow of a Fluid with Highly
Variable Properties
Hang Seok Choi, Korea Institute of Machinery and Materials,
Daejeon, Korea (Republic), Tae Seon Park, Kyungpook
National University, Daegu, Korea (Republic)
Board #35: Poster IHTC14-22876
Kinetics of Fast Component and Energy Balance of the
Plasma in Gas Dynamic System with Solenoidal Magnetic
Field
Majid Bazargan, Mahdi Mohseni, K.N.Toosi University of
Technology, Tehran, Tehran, Iran
Heat Transfer in Liquid Nitrogen Flows inside Smooth Pipes
Board #27: Poster IHTC14-22539
Board #36: Poster IHTC14-22897
Alexei Chirkov, Sergey I. Kaskov, Bauman Moscow State
Technical University, Moscow, Russia
Luigi De Giorgi, Politecnico di Torino, Torino, Italy, Volfango
Bertola, University of Edinburgh, Edinburgh, United Kingdom,
Emilio Cafaro, Carlo Cima, Mario De Salve, Bruno Panella,
Politecnico di Torino, Torino, Italy
Heat Transfer from Rotating Discs with Finite Thickness
Subjected to Outer Air Streams
Board #28: Poster Presentation Only IHTC14-22558
Heat Transfer from a Wedge to Fluids at any Prandtl Number
using the Asymptotic Model
Stefan aus der Wiesche, University of Applied Sciences
Muenster, Steinfurt, Germany
Board #37: Poster IHTC14-22955
M. M. Awad, Mansoura University, Mansoura, Egypt
44
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Heat Transfer during Gas Hydrate Film Formation on GasLiquid Interface
Steady State Modeling of LHP and Analysis
Board #46: Poster IHTC14-22351
Board #38: Poster IHTC14-22990
Yan Chen, Lin Cheng, Shandong University, Jinan, Shandong,
China, Gongming Xin, Institute of Thermal Science and
Technology, Shandong University, Jinan, Shandong, China, T.
Luan, Shandong University, Jinan, China
Ni Liu, Xinping Ouyang, Ju Li, Daoping Liu, University of
Shanghai for Science and Technology, Shanghai, China
Effects of Schmidt Number on Turbulent Mass Transfer
around a Rotating Circular Cylinder
Experimental Study on a Flat Loop Heat Pipe Coupling the
Compensation Chamber and the Condenser
Board #39: Poster IHTC14-23090
Board #47: Poster IHTC14-22405
Dong-Hyeog Yoon, Kyung-Soo Yang, Kyongjun Lee, Inha
University, Incheon, Incheon, Korea (Republic), Klaus Bremhorst,
The University of Queensland, Brisbane, Queensland, Australia
Dong-Chuan Mo, Guan-sheng Zou, Shu-Shen Lu, Sun YatSen University, Guangzhou, China
Experimental Investigation on the Plate Heat Pipe Heat
Exchanger for Heat Recovery Characteristic in Room
Ventilation
Multi-factors Coupling Analysis of Altitude Performance of
Lubrication System in Helicopter
Board #40: Poster IHTC14-23113
Board #48: Poster IHTC14-22435
Li Ming, Yu Jianzu, Gao Hongxia, Beihang University, Peking,
China, Zhou Yi, Niu Xuemin, BUAA, Beijing, China
Wenjing Yu, Yanhua Diao, Yaohua Zhao, Beijing University of
Technology, Beijing, Beijing, China
Turbulent Thermal Diffusion over a Locally-Heated TwoDimensional Hill
Experimental Investigation of a New Flat Plate Solar Heat
Collector by Micro Heat Pipe Array
Board #41: Poster IHTC14-23117
Board #49: Poster IHTC14-22442
Tomoya Houra, Yasutaka Nagano, Masato Tagawa, Nagoya
Institute of Technology, Nagoya, Japan
Yaohua Zhao, Feilong Zou, Yanhua Diao, Zhenhua Quan,
Beijing University of Technology, Beijing, China
Interactions of Porosity, Magnetic Field and Viscous
Dissipation in an Inclined Channel Type Flow
Effect of Microstructure on Thermal Conductance of
Evaporator Wicks in Thin Film Evaporation and Boiling
Regimes
Board #42: Poster IHTC14-23323
Murat Havzali, Guven Komugoz, Aytac Arikoglu, H. Ibrahim
Keser, I.T.U Maslak, Istanbul, Turkey, Ibrahim Ozkol, Istanbul
Technical University, Istanbul, Turkey
Board #50: Poster IHTC14-22730
Vinod Srinivasan, University of California at Berkeley, Berkeley,
CA, USA, Ming-Chang Lu, University of California at Berkeley,
El Cerrito, CA, USA, Dusan Coso, University of CaliforniaBerkeley, Berkeley, CA, USA, Arun Majumdar, US Department
of Energy, Advanced Research Projects Agency for Energy
(ARPA-E), Washington DC, USA
Acoustic Streaming Induced Thermal Convection in an
Enclosure Subject to Uniform Heat Flux
Board #43: Poster IHTC14-23376
Murat K. Aktas, TOBB University of Economics and
Technology, Ankara, Turkey
Modeling a Loop Heat Pipe With a Capillary Wick in the
Condenser
Control of Heat Transfer in Separated Flows by Means of
Miniturbulizers
Board #51: Poster IHTC14-22854
Board #44: Poster IHTC14-22153
H. Arthur Kariya, Catherine Koveal, Matthew McCarthy,
John G. Brisson, Evelyn Wang, Massachusetts Institute of
Technology, Cambridge, MA, USA
Viktor I. Terekhov, Kutateladze Institute of Thermophysics SB
RAS, Novosibirsk, Russia, Tatyana Bogatko, Kutateladze
Institute of Thermophysics SB RAS, Novosibirsk, Russia, Alex
Yu D’yachenko, Kutateladze Institute of Thermophysics SB
RAS, Novosibirsk, Russia, Nadezhda I. Yarygina, Kutateladze
Institute of Thermophysics SB RAS, Novosibirsk, Russia
Thermal Performance of Carbon Nanotube Enhanced Vapor
Chamber Wicks
Board #52: Poster IHTC14-22929
Sungwon S. Kim, Justin Weibel, Timothy S. Fisher, Suresh
V. Garimella, Purdue University, West Lafayette, IN, USA
Heat Pipes
Comparison of Vacuum Chamber Tested Biporous Wicks
with Thermal Ground Plane Testing
12-1 Heat Pipe Configuration and Wicks
Palladian
4:00pm - 6:00pm
Board #53: Poster IHTC14-22947
Session Chair: Hongbin Ma, University of Missouri, Columbia, MO,
USA
Session Co-Chair: Timothy S. Fisher, Purdue University, West
Lafayette, IN, USA
Sean Reilly, UCLA, Westwood, CA, USA, Ivan Catton, Ladan
Amouzegar, UCLA, Los Angeles, CA, USA
Experimental Study of a Two-Phase Thermosyphon with
Porous Graphite Foam Insert
Experimental Investigation of Effective Thermal Conductivity
for LHP Wicks
Board #54: Poster IHTC14-23109
Kai Choong Leong, Liwen Jin, Indro Pranoto, Hongying Li,
Nanyang Technological University, Singapore, Singapore, John
C. Chai, The Petroleum Institute, Abu Dhabi, United Arab Emir.
Board #45: Poster IHTC14-22272
Gongming Xin, Institute of Thermal Science and Technology,
Shandong University, Jinan, Shandong, China, Kehang Cui,
Yan Chen, Wenjing Du, Yong Zou, Shandong University,
Jinan, China, Lin Cheng, Shandong University, Jian, Shandong
Province, China
45
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Development of High Performance Thin Heat Pipe for
Cooling Small Form Factor Devices
Analysis of Local Heat Transfer in Plate Heat Exchangers for
Flow Pattern Optimization
Board #55: Poster. IHTC14-23127
Board #62: Poster IHTC14-22387
Thang Nguyen, Fujikura Ltd, Tokyo, Japan, Masataka
Mochizuki, Fujikura, Kiba, Japan, Yuji Saito, Tien Nguyen,
Vijit Wuttijumnong, Ahamed Mohammad Shahed, Fujikura
Ltd, Tokyo, Japan
Stephan Kabelac, Helmut Schmidt University of the Federal
Armed Forces, Hamburg, Germany
The Ground Source Heat Pump: A System Analysis with a
Particular Focus on the U-pipe Borehole Heat Exchanger
Heat Transfer Equipment
Board #63: Poster IHTC14-22395
Hatef Madani, José Acuna, Björn Palm, Royal Institute of
Technology (KTH), Stockholm, Sweden, Joachim Claesson,
Royal Institute of Technology, Sweden (KTH), Stockholm,
Sweden, Per Lundqvist, Royal Institute of Technology (KTH),
Stockholm, Sweden
14 - 4 Single Phase Heat Exchangers
Ambassador
4:00pm - 6:00pm
Session Chair: Jader R. Barbosa Jr., Federal University of Santa
Catarina, Florianopolis, Brazil
Session Co-Chair: Stephan Kabelac, Helmut Schmidt University/
University of the Federal Armed Forces Hamburg, Hamburg,
Germany
Airside Performance of Wavy Fin-and-Tube Heat
Exchangers – Data With Larger Diameter Tube
Board #64: Poster IHTC14-22409
Huau Pao Lo, Chinghua Hung, Chi-Chuan Wang, National
Chiao Tung University, Hsinchu, Taiwan
An Efficient Approach for Performance Evaluation and
Parameter Design of Heat Transfer Enhancing Structure
Earth-Air and Earth-Water Heat Exchanger Design for
Ventilation Systems in Buildings
Board #56: Poster IHTC14-22100
Wen-Quan Tao, Wen-Jing Zhou, Ju-Fang Fan, Ya-Ling He,
Xi’an Jiaotong University, Xi’an, Shaanxi, China
Board #65: Poster IHTC14-22459
Michel De Paepe, Ghent University-UGent, Gent , Belgium,
Christophe T’Joen, Arnold Janssens, Marijke Steeman,
Ghent University - UGent, Gent , Belgium
Optimization and Development for Fin-and-Tube Heat
Exchangers with Vortex Generators
Board #57: Poster IHTC14-22101
Research and Development of Compact Heat Exchangers of
Gas Turbine Power Conversion Unit for Nuclear Power Plant
with High Temperature Gas-Cooled Reactor
Ya-Ling He, Pan Chu, Wen-Quan Tao, Xi’an Jiaotong
University, Xi’an, Shaanxi, China
A Numerical Study of the Plate Heat Exchanger with
Compound Corrugation in the Condition of Low Reynolds
Number and High Prandtl Number
Board #66: Poster IHTC14-22587
Vladislav Golovko, Irina Dmitrieva, Nikolay Kodochigov,
JSC “AFRICANTOV OKBM”, Nizhny Novgorod, Russia
Board #58: Poster IHTC14-22251
Numerical Modeling of Buoyancy-Induced Fluid Flow and
Heat Transfer in a Staggered Tube Bank
Xing Cao, Wenjing Du, Shandong University, Jinan,
Shandong, China, Guanmin Zhang, Shandong University,
Jinan, Shandong Province, Shandong Province, China, Lin
Cheng, Shandong University, Jian, Shandong Province, China
Board #67: Poster IHTC14-22640
Nikolay Ivanov, New Technologies and Services, St. Petersburg,
Russia, Aleksander Kirillov, Vladimir Ris, Evgueni Smirnov, St.
Petersburg State Polytechnic University, St. Petersburg, Russia
Experimental Study on Gas Cooler Heat Transfer
Characteristics Applied in CO2 Supercritical Cycle Heat
Pump Water Heater
3-D Numerical Study on Shell-Side Comprehensive Performance
of Shell-and-Tube Heat Exchanger with Combined Helical Baffles
Board #59: Poster IHTC14-22357
Yefeng Liu, Hua Zhang, University of Shanghai for Science
and Technology, Shanghai, Shanghai, China, Caicaoping Cai,
College of Energy and Power Engineering, University of
Shanghai for Science and Technology, Shanghai, Shanghai,
China, Weidong Wu, Ingxia Qi, University of Shanghai for
Science and Technology, Shanghai, China
Board #68: Poster IHTC14-22712
Guidong Chen, Xi’an Jiaotong University, Xi’an, China, Jing Xu,
Min Zeng, Xian Jiaotong University, Xian, Shaanxi, China,
Qiuwang Wang, Xi’an Jiaotong University, Xi’an, Shaanxi, China
Heat Transfer of Supercritical Carbon Dioxide in Printed
Circuit Heat Exchanger Geometries
Evaluation of a Coaxial Borehole Heat Exchanger Prototype
Board #69: Poster IHTC14-22880
Board #60: Poster IHTC14-22374
Alan Kruizenga, University of Wisconsin Madison, Madison,
WI, USA, Roma Fatima, Texas A&M, College Station, TX,
USA, Aaron Towne, Mark Anderson, Michael Corradini,
University of Wisconsin, Madison, Madison, WI, USA, Devesh
Ranjan, Texas A&M University, College Station, TX, USA
José Acuna, Royal Institute of Technology (KTH), Stockholm,
Sweden, Palne Mogensen, Palne Mogensen AB, Stockholm,
Sweden, Bjorn Palm, KTH Sweden, Stockholm, Sweden
Numerical Investigation of Heat Transfer for Laminar and
Turbulent Flow in a Plate Heat Exchanger
Air-Side Heat Transfer and Pressure Drop Characteristics of
Peripheral Fin Heat Exchangers
Board #61: Poster IHTC14-22378
Lulian Gherasim, Nicolas Galanis, Université de Sherbrooke,
Sherbrooke, QC, Canada, Cong Tam Nguyen, Dept
Mechanical Engineering, Moncton, NB, Canada
Board #70: Poster IHTC14-23037
Bruno F. Pussoli, Jader R. Barbosa Jr., Federal University of
Santa Catarina, Florianopolis, Brazil, Luciana W. da Silva,
Embraco, Joinville, Brazil, Massoud Kaviany, University of
Michigan, Ann Arbor, MI, USA
46
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Experimental Investigation on the Heat Transfer
Performance of a Scraped Surface Heat Exchanger for
Highly Viscous Foods
Interaction of Surface Radiation and Conduction with
Laminar Free Convection from a Vertical Flat Plate
Board #78: Poster IHTC14-22227
Board #71: Poster IHTC14-23052
Prasanna Swaminathan, S.P. Venkateshan, IIT Madras,
Chennai, Tamil Nadu, India
Fabio Bozzoli, Sara Rainieri, Marco Mordacci, Giorgio
Pagliarini, University of Parma, Parma, Italy
A Numerical Study of the Effect of a Horizontal Frame
Member on the Laminar and Turbulent Natural Convective
Heat Transfer from a Recessed Window to a Surrounding
Room
Heat Transfer Performance Of Finless Flat Tube Heat
Exchanger With Vortex Generator
Board #72: Poster IHTC14-23232
Board #79: Poster IHTC14-22447
Hajime Onishi, School of Mechanical Engineering, Kanazawa
University, Kanazawa, Japan, Haruka Yonekura, Kanazawa
University, Kanazawa, Japan, Yukio Tada, Akira Takimoto,
School of Mechanical Engineering, Kanazawa University,
Kanazawa, Ishikawa, Japan
Patrick H. Oosthuizen, Dept. of Mechanical and Materials
Engineering, Queen’s University, Kingston, ON, Canada, D.
Naylor, Dept. of Mech. & Ind. Eng., Ryerson University,
Toronto, ON, Canada
Wind Effects on Air-Cooled Condensers for Power Plant
Cooling
Preliminary Study of Natural Convection Due to a Small Heat
Source on an Isothermal Wall
Board #73: Poster IHTC14-23250
Board #80: Poster IHTC14-22508
John Maulbetsch, Maulbetsch Consulting, Menlo Park, CA,
USA, Michael N. DiFilippo, DiFilippo Consulting, Berkeley,
CA, USA, Michael Owen, University of Stellenbosch,
Stellenbosch, South Africa, Detlev Kroger, Stellenbosch
University, Matieland, Western Cape, South Africa
Tito Dias Jr., Department of Federal Police, Porto Velho,
Rondônia, Brazil, Luiz Fernando Milanez, University of
Campinas - UNICAMP, Campinas, Sao Paulo, Brazil
Combined Heat Transfer of Natural Convection-Conduction
and Surface Radiation in an Open Cavity Heated by Constant
Flux
Natural Convection
Board #81: Poster IHTC14-22812
20-2 Natural Convection 2
Diplomat
Wang Zhiyun, University of Shanghai for Science and
Technology, Shanghai, Shanghai, China
4:00pm - 6:00pm
Experimental Study of Natural Convective Heat Transfer
from an Inclined Isothermal Square Cylinder with an
Exposed Top Surface Mounted on a Flat Adiabatic Base
Session Chair: Luiz Fernando Milanez, University of Campinas UNICAMP, Campinas, Sao Paulo, Brazil
Session Co-Chair: D. Naylor, Dept. of Mech. & Ind. Eng., Ryerson
University, Toronto, ON, Canada
Board #82: Poster IHTC14-22846
Abdulrahim Kalendar, Queen’s University, Kingston, ON,
Canada, Patrick, H. Oosthuizen, Dept. of Mechanical and
Materials Engineering, Queen’s University, Kingston, ON,
Canada, Abdulrahman Alhadhrami, Queen’s University,
Kingston, ON, Canada
Measurement of Time-Averaged Turbulent Free Convection
using Interferometry
Board #74: Poster IHTC14-22036
D. Naylor, Dept. of Mech. & Ind. Eng., Ryerson University,
Toronto, ON, Canada, Mohammad, E. Poulad, Ryerson
University, Toronto, ON, Canada, Patrick, H. Oosthuizen,
Dept. of Mechanical and Materials Engineering, Queen’s
University, Kingston, ON, Canada
Time-resolved Heat Transfer and Fluid Dynamic Analysis of
Natural Convection from Isothermal Horizontal Cylinders
Board #83: Poster IHTC14-22896
Tim Persoons, Ian M. O Gorman, Gerry Byrne, Darina B.
Murray, Trinity College Dublin, Dublin, Ireland
The Effect of Natural Convection on the Air Gap Membrane
Distillation Process
Heating Elements Convective Thermal Flux Optimization:
Comparison Between Numerical Results and Experimental
Evidence
Board #75: Poster IHTC14-22083
Hong Gao, Inner Mongolia University of Technology, China,
Huhhot, Inner Mongolia, China, Rui Tian, Xiao Hong Yang,
Inner Mongolia University of Technology, Huhhot, Inner
Mongolia, China
Board #84: Poster Presentation Only IHTC14-22915
Giancarlo Chiesa, Politecnico di Milano, Milano, Italy,
Elisabetta Rotta, Politecnico di Milano, Pessano con
Bornago, Italy, Mario Maistrello, Milano, Italy
Numerical Analysis of Natural Convection of Suspension
with Particle Sedimentation
Turbulence Characteristics in a Natural Convection
Boundary Layer above a Heated Round Plate
Board #76: Poster IHTC14-22141
T. Asaoka, M. Okada, Aoyama Gakuin University, Kanagawa,
Japan, Y. Teraoka, Chuo University, Tokyo, Japan, A.
Tsumura, Aoyama Gakuin University, Kanagawa, Japan
Board #85: Poster IHTC14-23001
Yasuo Hattori, Central Research Institute of Electric Power
Industry, Abiko, Chiba, Japan, Hitoshi Suto, Central Research
Institute of Electric Power Industry, Chiba, Japan
Effects of Freestream on Thermally-Driven Boundary Layers
along a Heated Vertical Flat Plate
Board #77: Poster IHTC14-22167
Mohammad Z. Abedin, Toshihiro Tsuji, Nagoya Institute of
Technology, Nagoya, Japan
47
MONDAY, AUGUST 9
TECHNICAL
SESSIONS
Experimental Characterization and Numerical Simulation of
Plumes above Thermal Sources. Transport of a Passive
Contaminant
Analysis of Influences of Soil Characteristics on the
Underground Heat Exchange with a Novel Heat and Mass
Transfer Model
Board #86: Poster IHTC14-23151
Board #93: Poster IHTC14-22415
René Devienne, LEMTA, CNRS UMR 7563, Nancy, France,
Jean-Raymond Fontaine, INRS, Nancy, France, Talel Maalej,
INRS, Vandoeuvre-lès-Nancy, France
Sufen Li, Dalian University of Technology, Dalian, Liaoning
Province, China, Haijun Li, Dalian Maritime University, Dalian,
Liaoning Province, China, Jinxiang Wang, Dalian University of
Technology, Dalian, Liaoning Province, China, Lanhua Dai, Da
Lian University of Technology, Da Lian, China, Ming Dong,
Dalian University of Technology, Dalian, Liaoning Province,
China, Yan Shang, Da Lian University of Technology, Dalian,
China
Parallelization of Combined Convection-Radiation Numerical
Simulations
Board #87: Poster Presentation Only IHTC14-23211
Guillem Colomer, Termo Fluids S.L., Sabadell, Spain, Ricard
Borrell, Technical University of Catalonia, Terrassa (Barcelona),
Spain, Oriol Lehmkuhl, Termo Fluids, S.L., Sabadell, Spain,
Assensi Oliva, Centre Tecnològic de Transferència de Calor Universitat Politècnica de Catalunya, Terrassa, Spain
Effect of Rain on Evolution of Distribution of Soluble
Gaseous Pollutants in the Atmosphere
Board #94: Poster IHTC14-22470
Boris Krasovitov, Tov Elperin, Andrew Fominykh, BenGurion University of the Negev, Beer-Sheva, Israel, Alexander
Vikhansky, Queen Mary University of London, London, United
Kingdom
Some Experimental Results of Free Convection from
Horizontal Heated Wires below Atmospheric Pressure
Board #88: Poster IHTC14-23338
Guido Milano, University of Genova, Genova, Italy
Scavenging of Soluble Gaseous Pollutants by Rain Droplets
in the Atmosphere with Nocturnal Temperature Profile
Sustainable Environment
Board #95: Poster IHTC14-22472
28-1 Sustainable Environment
Diplomat
Andrew Fominykh, Tov Elperin, Boris Krasovitov, BenGurion University of the Negev, Beer-Sheva, Israel
4:00pm - 6:00pm
Particles and Droplets Coagulation and Clusters Formation
in the Earth’s Atmosphere and in Technical Applications
Session Chair: Yong-Xin Tao, Florida Intl Univ, Miami, FL, USA
Session Co-Chair: Sufen Li, Dalian University of Technology,
Dalian, Liaoning Province, China
Board #96: Poster IHTC14-22669
Igor Derevich, Faculty of Fundamental Sciences, Department
of Applied Mathematics, Moscow, Moscow, Russia
Numerical Simulation for Outdoor Thermal Environment of
High-Rise Building with Air-Conditioner
Integrated Steam/Organic Rankine Cycle (ISORC) for Waste
Heat Utilization in Distributed Generation and Combined
Heat and Power Production
Board #89: Poster IHTC14-22096
Zhen Zhang, Lige Tong, University of Science and Technology
Beijing, Beijing, China, Li Wang, School of Mechanical
Engineering, University of Science and Technology Beijing,
Beijing, China
Board #97: Poster IHTC14-22704
Yaroslav Chudnovsky, Gas Technology Institute, Des Plaines,
IL, USA, Mikhail A. Gotovsky, Polzunov Institute, State
University of Plant Polymers Technology, St. Petersburg,
Russia, Valentin Arefiev, JSC NPO CKTI, St. Petersburg,
Russia, Mark Greenman, JSC Comtek-Energoservice Ltd, St.
Petersburg, Russia, Victor Fomin, JSC Comtek-Energoservice
Ltd, St. Petersburg, Russia, Mark Khinkis, Gas Technology
Institute, Des Plaines, IL, USA
A Case Study of Energy Saving by Cogeneration System in
Hospital
Board #90: Poster IHTC14-22107
Sa Okamoto, Shimane University, Matsue, Shimane, Japan
Exegetic Modeling and Second Law based Optimization of
Cogeneration Heat and Power System Using Evolutionary
Algorithm (Genetic Algorithm)
Exergoeconomics Optimization of Methanol Low Scale
Production from Waste Biomass Palm Oil Extraction Process
Board #91: Poster IHTC14-22113
Dr. Shahram Khalilarya, Dr. Samad Jafarmadar, Arzhang
Abadi, Engineering Faculty, Urmia University, Urmia, Iran
Board #98: Poster Presentation Only IHTC14-22767
Rafael D. Gómez V., Universidad Pontificia Bolivariana
(seccional Monteria), Monteria, Cordoba, Colombia, Lesme
Corredor, Fundacion Universidad del Norte, Barranquilla,
Atlantico, Colombia, Ivan D. Romero Yepes, Universidad del
Norte, Barranquilla, Colombia
Application of Water-Cooled Air-conditioning for High-rise
Residential Buildings
Board #92: Poster IHTC14-22127
Hua Chen, Qianqian Di, Tianjin Key Laboratory of
Refrigeration Technology, Tianjin, China
An Assessment of Different Boundary Conditions in a
Naturally Ventilated Venlo-Type Greenhouse
Board #99: Poster IHTC14-22849
Sunita Kruger, University of Johannesburg, Johannesburg,
Gauteng, South Africa, Leon Pretorius, University of Pretoria,
Pretoria, South Africa
48
MONDAY, AUGUST 9 / TUESDAY, AUGUST 10
TECHNICAL
SESSIONS
Airflow and Heat Transfer in Sustainable Building
Components - Ventilated Double Skin Facades
Numerical Modeling of Thermal and Hydrodynamic
Processes during the Bubble Compression due to the
Pressure Rise in a Liquid
Board #100: Poster IHTC14-23017
Board #6: Poster IHTC14-22343
Teshome Jiru, Yong Tao, Florida International University,
Miami, FL, USA, Fariborz Haghighat, Concordia University,
Montreal, QC, Canada
Sergey G. Cherkasov, Andrey V. Desyatov, Dmitry N. Ilmov,
Keldysh Research Center, Moscow, Russia
Transport Processes Study in Sodium Alanate Hydrogen
Storage System During Desorption
Numerical Simulation of Heterogeneous Flows and HeatMass Transfer in Complex Domains on Rectangular Grids
Board #101: Poster IHTC14-23079
Board #7: Poster IHTC14-22380
Maha Bhouri, Jacques Goyette, Université du Québec à
Trois-Rivières, Trois-Rivières, QC, Canada, Bruce J. Hardy,
HSECoE Transport Phenomena Technology Area Lead, Aiken,
SC, USA, Donald L. Anton, Savannah River National
Laboratory (SRNL), Aiken, SC, USA
D.S. Mikhatulin, T.V. Ershova, Joint Institute for High
Temperatures of the Russian Academy of Sciences, Moscow,
Russia, Dmitry L. Reviznikov, A.V. Sposobin, Moscow
Aviation Institute (State Technical University), Moscow, Russia,
V.V. Vinnikov, Moscow Aviation Institute, Moscow, Russia
TUESDAY, AUGUST 10
Mass Nature of Heat and Its Applications V: Entransy,
Entransy Dissipation and Heat Transfer Irreversibility
POSTER SESSION 3: 8:30am – 10:30am
Board #8: Poster IHTC14-22422
Xingang Liang, Qun Chen, Tsinghua University, Beijing, China
Computational Heat Transfer
Non-orthogonal Transformation of Irregular Geometry for
Particle based Simulation
4-1 Computation Fundamentals and Applications
Palladian
Board #9: Poster IHTC14-22476
8:30am - 10:30am
Anurag Kumar, Eiyad Abu-Nada, Toru Yamada, University of
Rhode Island, Kingston, RI, USA, Yutaka Asako, Tokyo
Metropolitan University, Hachioji, Tokyo, Japan, Mohammad
Faghri, University of Rhode Island, Kingston, RI, USA
Session Chair: Darrell Pepper, University of Nevada Las Vegas,
Las Vegas, NV, USA
Session Co-Chair: Alexander Brown, Sandia National Labs,
Albuquerque, NM, USA
A Meshless Method for Modeling Convective Heat Transfer
Board #10: Poster IHTC14-22729
An Advanced Implicit Method for Two-Phase Flow
Calculation
Darrell Pepper, University of Nevada Las Vegas, Las Vegas,
NV, USA, Xiuling Wang, Purdue University Calumet,
Hammond, IN, USA, David Carrington, Los Alamos National
Laboratory, Los Alamos, NM, USA
Board #1: Poster IHTC14-22009
Sung-Jae Yi, Korea Atomic Energy Research Institute,
Daejeon, Korea (Republic), Moon-Sun Chung, Hydrogen
Energy R&D Center, Korea Institute of Energy Research,
Daejeon, Korea (Republic)
Dynamic Characteristic Study of Temperature Signal Using
Fourier Transform Method
An Overview: Analysis of Heat and Mass Transfer by Fractal
Geometry and Technique
Board #11: Poster Presentation Only IHTC14-22732
Board #2: Poster IHTC14-22071
Large-eddy Simulation of a Buoyant Plume Past a Bluff Body
Zhefu Wang, Applied Materials, Sunnyvale, CA, USA
Boming Yu, Huazhong University of Sci. & Tech., Wuhan,
Hubei, China
Board #12: Poster IHTC14-22761
Hitoshi Suto, Central Research Institute of Electric Power
Industry, Chiba, Japan, Yasuo Hattori, Central Research
Institute of Electric Power Industry, Abiko, Chiba, Japan
Large Eddy Simulation of Turbulent Flow and Heat Transfer
Characteristics in Rectangle Channel with Vortex Generators
Board #3: Poster IHTC14-22072
Large-eddy Simulation for Temperature Fluctuation of Mixing
Hot and Cold Fluids in a Tee Junction
Juan Wen, Li Yang, Cheng Ying Qi, Hebei University of
Technology, Tianjin, China
Board #13: Poster IHTC14-22798
T. Lu, K. S. Wang, W.Y. Zhu, Beijing University of Chemical
Technology, Beijing, China
On a Numerical Model of Laser Cladding Process
Board #4: Poster IHTC14-22178
Javad Esmaeelpanah, Mohammad Passandideh-Fard,
Ferdowsi University of Mashhad, Mashhad, Iran
A Study on Inverted Temperature Profile Based on Nonequilibrium Molecular Dynamics Simulation
Generation and Propagation of Thermally Induced Acoustic
Waves in Supercritical Fluids: Numerical and Experimental
Results
Board #14: Poster IHTC14-22801
Board #5: Poster IHTC14-22240
Controlling Numerical Solutions by Entropy Analysis
Atsushi Tokunaga, Gyoko Nagayama, Takaharu Tsuruta,
Kyushu Institute of Technology, Kitakyushu, Fukuoka, Japan
Bakhtier Farouk, Zhiheng Lei, Drexel University, Philadelphia,
PA, USA
Board #15: Poster IHTC14-22903
Luigi De Giorgi, Politecnico di Torino, Torino, Italy, Volfango
Bertola, University of Edinburgh, Edinburgh, United Kingdom,
Emilio Cafaro, Carlo Cima, Politecnico di Torino, Torino, Italy
49
TUESDAY, AUGUST 10
TECHNICAL
SESSIONS
Numerical Simulation of Flow and Heat Transfer in the Base
Region of Martian Descent Vehicle
A Study on the Heat Transfer of Non-Newtonian Fluid in a
Rotating Inner Cylinder
Board #16: Poster IHTC14-23000
Board #24: Poster Presentation Only IHTC14-22491
Ivan Egorov, Central Aerohydrodynamic Institute (TsAGI),
Zhukovsky, Moscow Region, Russia
Y.J. Kim, Korea Institute of Geoscience and Mineral
Resources, Daejeon, Korea (Republic), S.M. Han, Young-Kyu
Hwang, Sungkyunkwan University, Suwon, Korea (Republic),
Dongkil Lee, Korea Institute of Geoscience and Mineral
Resources, Daejeon, Korea (Republic)
Fluid Spread Model Validation for Emerging Liquid Tank
Impact Predictive Methods
Board #17: Poster IHTC14-23067
Numerical Study on Heat Transfer Characteristics from
Parallel Plates with Cavities Swept by a Visco-Elastic Fluid
Alexander Brown, Sandia National Labs, Albuquerque, NM,
USA, Gregory J. Wagner, Sandia National Labs, Livermore,
CA, USA
Board #25: Poster IHTC14-22736
Hiroshi Suzuki, Shinpei Maeda, Yoshiyuki Komoda, Kobe
University, Kobe, Hyogo, Japan
General Solution of Drop Evaporation Modelling in Nonviscous Steady-state Gaseous Environment
Flow Visualization of Airflow through a Rectangular Duct
with Combined Heat and Mass Transfer
Board #18: Poster IHTC14-22637
Simona Tonini, Gianpietro Elvio Cossali, University of
Bergamo, Dalmine, Italy
Board #26: Poster IHTC14-22881
M.T. Fauchoux, C.J. Simonson, D.A. Torvi, University of
Saskatchewan, Saskatoon, SK, Canada
Convection
Development of a Heat-Transfer Correlation for Supercritical
Water Flowing in a Vertical Bare Tube
7-2 Non-Newtonian Convection
Ambassador
8:30am - 10:30am
Board #27: Poster IHTC14-22908
Session Chair: Masaaki Motozawa, Tokyo University of Science,
Noda, Chiba, Japan
Session Co-Chair: Igor Pioro, University of Ontario Institute of
Technology, Oshawa, ON, Canada
Sarah Mokry, Amjad Farah, Krysten King, University of
Ontario Institute of Technology, Oshawa, ON, Canada, Sahil
Gupta, University of Ontario Institute of Technology, Oshawa,
ON, Canada, Igor Pioro, University of Ontario Institute of
Technology, Oshawa, ON, Canada, Pavel L Kirillov, Institute
for Physics and Power Engineering, Obninsk, Russia
Experimental Study for Forced Convective Heat Transfer
with Molten Salts in a Circular Tube
Influence of Rheological Parameters on Turbulent Heat
Transfer in Drag-Reducing Viscoelastic Channel Flow
Board #19: Poster Presentation Only IHTC14-22105
Liu Bin, Wu Yu ting, Chongfang Ma, Beijing University of
Technology, Beijing, China
Board #28: Poster IHTC14-23138
Takahiro Tsukahara, Takahiro Ishigami, Yasuo Kawaguchi,
Junya Kurano, Tokyo University of Science, Noda-shi, Chiba,
Japan
Unsteady Forced Convection Heat Transfer for Power Law
Fluids in a Pipe
Board #20: Poster IHTC14-22150
Turbulent Drag Reduction by Polymer Containing Paint Simultaneous Measurement of Skin Friction and Release Rate
Botong Li, University of Science and Technology Beijing,
Beijing, China, Liancun Zheng, University of Science and
Technology Beijing, Bejing, China, Xinxin Zhang, University of
Science and Technology Beijing, Beijing, China
Board #29: Poster IHTC14-23197
Masaaki Motozawa, Toshihisa Ito, Ayumu Matsumoto,
Tokyo University of Science, Noda, Chiba, Japan, Hirotomo
Ando, National Maritime Research Institute, Mitaka, Tokyo,
Japan, Toshihiko Ashida, Chugoku Marine Paints, Ltd., Otake,
Hiroshima, Japan, Tetsuya Senda, National Maritime Research
Institute, Mitaka, Tokyo, Japan, Yasuo Kawaguchi, Tokyo
University of Science, Noda-shi, Chiba, Japan
Critical Flow of Water under Supercritical Pressures
Board #21: Poster Presentation Only IHTC14-22156
Y. Chen, Minfu Zhao, Chunsheng Yang, Keming Bi, Kaiwen
Du, Shuming Zhang, China Institute of Atomic Energy, Beijing,
China
The MHD Flows for a Heated Generalized Oldroyd-B Fluid
with Fractional Derivative
Experimental Study on Turbulent Drag Reduction and
Polymer Concentration Distribution with Blowing Polymer
Solution from the Channel Wall
Board #22: Poster IHTC14-22278
Yaqing Liu, University of Science and Technology Beijing,
Beijing, China, Liancun Zheng, University of Science and
Technology Beijing, Bejing, China, Xinxin Zhang, University of
Science and Technology Beijing, Beijing, China, Fenglei Zong,
Fengtai No. 2 Middle School Beijing, Beijing, China
Board #30: Poster IHTC14-23199
Masaaki Motozawa, Taiki Kurosawa, Hening Xu, Tokyo
University of Science, Noda, Chiba, Japan, Kaoru Iwamoto,
Tokyo University of Agriculture and Technology, Tokyo, Japan,
Hirotomo Ando, Tetsuya Senda, National Maritime Research
Institute, Mitaka, Tokyo, Japan, Yasuo Kawaguchi, Tokyo
University of Science, Noda-shi, Chiba, Japan
Flow Stability of Laminar Supercritical CO2 Sudden
Expansion Flow with Field Synergy Principle
Heat Transfer Asymptote in Laminar Tube Flows of NonLinear Viscoelastic Fluids
Board #23: Poster IHTC14-22464
Bi-Li Deng, Xin-Rong Zhang, Peking University, Beijing,
China
Board #31: Poster IHTC14-23224
Dennis A. Siginer, Petroleum Institute, Abu Dhabi, United
Arab Emir.
50
TUESDAY, AUGUST 10
TECHNICAL
SESSIONS
Heat Transfer Measurement Technology
Development of Combined Particle Image Velocimetry and
Particle Thermography for Air Flows
13-1 Measurement Techniques
Board #39: Poster IHTC14-22774
Palladian
Daniel Schmeling, German Aerospace Center (DLR), Institute of
Aerodynamics and Flow Technology, Göttingen, Germany, Marek
Czapp, TU München, Garching, Germany, Johannes Bosbach,
Claus Wagner, German Aerospace Center (DLR), Institute of
Aerodynamics and Flow Technology, Göttingen, Germany
8:30am - 10:30am
Session Chair: Minami Yoda, Georgia Institute of Technology,
Atlanta, GA, USA
Session Co-Chair: Srinath Ekkad, Virginia Tech, Blacksburg, VA,
USA
Infrared Based Wall Shear Stress Measurement Techniques
Fluorescence Thermometry for Measuring Wall Surface and
Bulk Fluid Temperatures
Board #32: Poster IHTC14-22449
Board #40: Poster IHTC14-22884
Ilka Rudolph, Matthias Reyer, Wolfgang Nitsche, Technical
University Berlin, Berlin, Germany
Myeongsub Kim, Minami Yoda, Georgia Institute of
Technology, Atlanta, GA, USA
Combined Measurement of Temperature and Velocity
Distribution of Fluid Flow
Using Quantum Dots for Liquid-Phase Thermometry at NearInfrared Wavelengths in Silicon Devices
Board #33: Poster IHTC14-22504
Board #41: Poster IHTC14-22885
Satoshi Someya, The University of Tokyo, Kashiwa, Japan,
Yanrong Li, The University of Tokyo, Chiba, Japan, Kaoru
Tominaga, The University of Tokyo, Kashiwa, Japan, Manabu
Tange, Shibaura Institute of Technology, Koto, Tokyo, Japan,
Koji Okamoto, The University of Tokyo, Kashiwa, Japan
Myeongsub Kim, Minami Yoda, Georgia Institute of
Technology, Atlanta, GA, USA
Evaluation of Directional Flame Thermometer for Real-time
Inversion of Heat Flux
Board #42: Poster IHTC14-22917
High-Temperature Heat Transfer Investigations Using
Heterogeneous Gradient Sensors
Craig Weinschenk, Philip Kokel, The University of Texas at
Austin, Austin, TX, USA, Ofodike A. Ezekoye, The University
of Texas at Austin, Austin, TX, USA
Board #34: Poster IHTC14-22527
Sergey Z. Sapozhnikov, Vladimir Yu. Mityakov, St.Petersburg State Polytechnical University, Saint-Petersburg,
Russia, Andrey V. Mityakov, St.-Petersburg State Politechnical
University, Saint-Petersburg, Russia, Andrey A. Snarskii,
National Technical University of Ukraine (KPI), Kiev, Ukraine,
Maxim I. Zhenirovskyy, N.N. Bogolyubov Institute for
Theoretical Physics, Kiev, Ukraine
Picosecond Transient Thermal Imaging Using a CCD Based
Thermoreflectance System
Board #43: Poster IHTC14-22969
James Christofferson, UC Santa Cruz, Santa Cruz, CA, USA,
Kazuaki Yazawa, University of California, Santa Cruz, Santa
Cruz, CA, USA, Ali Shakouri, University of California, Santa
Cruz, Santa Cruz, CA, USA
A Functional Approach of the Experimental Device Transfer
Function for Temperature Measurements in the UV-visible
Wavelengths with Multi-spectral Method
Temperature Measurement with Radiation Correction for
Very High Temperature Gas
Board #35: Poster IHTC14-22672
Board #44: Poster IHTC14-23074
Thomas Pierre, Université de Bretagne-Sud, Lorient, France,
Benjamin Remy, Alain Degiovanni, LEMTA, NancyUniversité, CNRS, Vandoeuvre-lès-Nancy, France (Metro)
Chan Soo Kim, Sung-Deok Hong, Korea Atomic Energy
Research Institute, Daejeon, Korea (Republic), Dong-Un Seo,
Seoul National University, Seoul, Korea (Republic), YongWan Kim,
Korea Atomic Energy Research Institute, Daejeon, Korea (Republic)
Use of Hot-film Anemometry for Wall Shear Stress
Measurements in Unsteady Flows
New Implementations of Surface Tension Forces for PLICVOF Methods
Board #36: Poster IHTC14-22674
Chanchala Ariyaratne, University of Sussex, Brighton, United
Kingdom, Feng Wang, Shuisheng He, University of Aberdeen,
Aberdeen, Scotland, Alan E Vardy, University of Dundee,
Dundee, Scotland
Board #45: Poster IHTC14-23220
Jesus Castro, Assensi Oliva, Eduardo García, Centre
Tecnològic de Transferència de Calor - Universitat Politècnica
de Catalunya, Terrassa, Barcelona, Spain
Simplified Method for Prediction of Cooling Load
Optical Fiber Ring Sensor for Measuring Temperature
Board #37: Poster IHTC14-22726
Board #46: Poster IHTC14-23271
Han Kyu Hyun, Seong-Yeon. Yoo, Chungnam National
University, Daejeon, Korea (Republic), Jin-Hyuck Kim, Korea
Advanced Institute of Science and Technology, Daejoen, Korea
(Republic)
Anisur Rahman, Polytechnic Institute of NYU, Brooklyn, NY, USA
Quantitative Visualization of the Thermoacoustic Effect
Board #47: Poster IHTC14-23286
Cila Herman, Johns Hopkins University, Baltimore, MD, USA
Spatio-Temporal Measurement of Convective Heat Transfer
for the Separated and Reattaching Flow
Influence of Thermal Properies Accuracy on Transient
Conduction Models
Board #38: Poster IHTC14-22753
Hajime Nakamura, National Defense Academy, Yokosuka,
Kanagawa, Japan
Board #48: Poster IHTC14-23129
Aura López de Ramos, Universidad Simón Bolívar, Caracas,
Estado Miranda, Venezuela, Pedro Vargas, Universidad Nacional
Experimental Francisco de Miranda, Punto Fijo, Falcon, Venezuela
51
TUESDAY, AUGUST 10
TECHNICAL
SESSIONS
Heat Transfer Equipment
Simulating the Heating Cycle of a Thin Film Photovoltaic Cell
during Rapid Thermal Processing
14-1 Heat Transfer Equipment 1
Board #58: Poster IHTC14-22927
Ambassador
Georges El Hitti, Grace Mouawad, Khalil El Khoury,
Maroun Nemer, Mines Paris Tech, Paris, Ile de France, France
8:30am - 10:30am
Session Chair: John Lienhard, Massachusetts Institute of
Technology, Cambridge, MA, USA
Session Co-Chair: Kyoungwoo Park, Dept. of Mechanical
Engineering, Hoseo Univ., Asan, Korea (Republic)
A Planar Labyrinth Micromixer
Board #59: Poster IHTC14-22957
Jeremy Cogswell, Peng Li, Mohammad Faghri, University of
Rhode Island, Kingston, RI, USA
Experimental Study on Cooling-air Grinding for 40Cr
Numerical Modeling of Munitions Liquid Agent with Solid
Heel in the Metal Parts Furnace
Board #49: Poster IHTC14-22084
Hua Zhang, Yefeng Liu, University of Shanghai for Science
and Technology, Shanghai, China, Xi Chen, College of Energy
and Power Engineering, University of Shanghai for Science and
Technology, Shanghai, China, Huanhuan Zhao, Yulin Cai,
College of Energy and Power Engineering, University of
Shanghai for Science and Technology, Shanghai, Shanghai,
Shanghai City, China, Jun Yao, Haitao Huang, Dairu Zhu,
Shanghai Machine Tool Works Ltd, Shanghai, China
Board #60: Poster IHTC14-22964
Yunhan Zheng, Alfred Webster, Mike Vanoni, Continental
Research and Engineering, LLC, Centennial, CO, USA
Shape Optimization of Cyclone Separator for Improvement
of Performance
Board #61: Poster Presentation Only IHTC14-22998
Kyoungwoo Park, Dept. of Mechanical Engineering, Hoseo
Univ., Asan, Korea (Republic), Chol-Ho Hong, Byeong-Sam
Kim, Juhee Lee, Sang-Rin Park, Hoseo University, Asan,
Korea (Republic)
Experimental and Theoretical Study on Mixing Performance
in Gas-Stirred Ladles with Throughflow Having Tap-Stream
Addition of Particulates
Board #50: Poster IHTC14-22115
Viability Study of Retrieving the Evaporated Water in a
Mechanical Draft Cross Flow Cooling Tower
Wen-Jei Yang, University of Michigan, Ann Arbor, MI, USA,
Shuichi Torii, Kumamoto-u.ac.jp, Kumamoto, Japan
Board #62: Poster IHTC14-23162
The Application of Entransy Dissipation Theory in
Optimization Design of Heat Exchanger
Rafael Zimmermann, Marcia B.H. Mantelli, Thomaz P.F.
Borges, Camilo A. S. Costa, Federal University of Santa
Catarina, Florianopolis, Santa Catarina, Brazil
Board #52: Poster IHTC14-22314
Mingtian Xu, Mengxun Li, Lin Cheng, Shandong University,
Jian, Shandong Province, China
Virtual Reality Visualization of CFD Simulation for
Iron/Steelmaking Processes
Dimensionless Groups and Simulations for Heat and Mass
Transfer in Adsorbed Natural Gas Storage
Board #63: Poster IHTC14-23180
Dong Fu, Purdue University, Hammond, IN, USA, Bin Wu,
Guoheng Chen, John Moreland, Fengguo Tian, Yuzhu Hu,
Chenn Q. Zhou, Purdue University Calumet, Hammond, IN,
USA
Board #53: Poster IHTC14-22400
Leandro Sphaier, Universidade Federal Fluminense, Niterói,
RJ, Brazil
Hygrothermal Absorption and Desorption of Deep
Underground Hydropower Station Envelopes
Heat Transfer and Dehydrogenation of Cyclohexane in Pool
Boiling Type Thermo Chemical Reactor
Board #54: Poster Presentation Only IHTC14-22444
Board #64: Poster Presentation Only IHTC14-23198
Hualing Zhang, Liu Chao, Xiangzhao Fu, Chongqing
University, Chongqing, China
Hikaru Yamashiro, Osamu Makishi, Yoshitaka Miyafuji,
Okinawa National College of Technology, Nago, Okinawa,
Japan
Infrared Electric Emitters for Drying Paper
On Thermal Performance of Seawater Cooling Towers
Board #55: Poster IHTC14-22727
Amanie Abdelmessih, Eric McKnight, Steven Campbell,
Erin Woodward, Michael Roberts, Michael Beakley, Saint
Martin’s University, Lacey, WA, USA
Board #65: Poster IHTC14-23200
Mostafa H. Sharqawy, MIT, Cambridge, MA, USA, John
Lienhard, Massachusetts Institute of Technology, Cambridge,
MA, USA, Syed M. Zubair, King Fahd University of Petroleum
and Minerals, Dhahran, Saudi Arabia
Simulation of Heat Transfer in the Multi-layer Door of the
Furnace
Numercial Simulation of Sinter Cooling Process
Board #56: Poster IHTC14-22760
Uthai Prasopchingchana, Burapha University, Chonburi,
Thailand
Board #66: Poster IHTC14-23278
Fengguo Tian, Purdue University Calumet, Hammond, IN,
USA, D. (Frank) Huang, ArcelorMittal, Global R&D-East
Chicago, East Chicago, IN, USA, Chenn Q. Zhou, Purdue
University Calumet, Hammond, IN, USA
Phase Transition of Partially Miscible Solvents Induced by
Heating Cycles: Application for the Remediation of
Contaminated Sediments and Sludge
Numerical Simulation of a Direct Fired Preheating Furnace
Board #57: Poster IHTC14-22856
Amos Ullmann, Tel Aviv University, Tel-Aviv, Israel, Guy Dahan,
Neima Brauner, Tel-Aviv University, Tel-Aviv, Israel, Tal Golan, Zvi
Ludmer, The Hebrew University of Jerusalem, Rehovot, Israel
Board #67: Poster Presentation Only IHTC14-23288
Bin Wu, Chenn Q. Zhou, Purdue University Calumet,
Hammond, IN, USA
52
TUESDAY, AUGUST 10
TECHNICAL
SESSIONS
Numerical Simulation of Impinging Jet Cooling
Prediction of Temperature Distribution in a Food SelfHeating System
Board #76: Poster IHTC14-22654
Board #68: Poster IHTC14-23394
Yury V. Mikhaylov, Leonid L. Myagkov, Nikolay S.
Malastowski, Bauman Moscow State Technical University,
Moscow, Russia
Son H. Ho, University of Central Florida, Orlando, FL, USA,
Muhammad Rahman, Aydin Sunol, University of South
Florida, Tampa, FL, USA
Pressure-Based Prediction of Single Phase Spray Cooling
Heat Transfer Coefficient for Low Prandtl Number Liquids
Jet Impingement
Board #77: Poster IHTC14-22684
15-1 Single-Phase Jets
Diplomat
Jungho Kim, University of Maryland, College Park, MD, USA,
Bahman Abbasi, Mechanical Engineering Department,
College Park, MD, USA
8:30am - 10:30am
Session Chair: Ilai Sher, Cranfield University, Cranfield, United
Kingdom
Session Co-Chair: Chanwoo Park, University of Nevada, Reno,
Reno Nevada, NV, USA
Heat and Mass Transfer in a Permeable Fabric System under
Hot Air Jet Impingement
Board #78: Poster IHTC14-22695
Sangsoo Lee, University of Nevada, Reno, Reno, NV, USA,
Chanwoo Park, University of Nevada, Reno, Reno Nevada,
NV, USA, Devdatta Kulkarni, Sanjida Tamanna, Advanced
Cooling Technologies, Inc., Lancaster, PA, USA, Ted Knox, Air
Force Research Laboratory, Wright-Patterson, OH, USA
Experimental Investigation of Submerged Impinging Jet
Using Cu-Water Nanofluid
Board #69: Poster IHTC14-22040
Qiang Li, Nanjing University of Science & Technology, Nanjing,
China, Y.M. Xuan, Nanjing University of Science & Technology,
Nanjing, China, Feng Yu, Junjie Tan, Nanjing University of
Science & Technology, Nanjing, China
Impinging Oil Jet Behavior for Planar Wall Heat Transfer
Board #79: Poster IHTC14-22805
Sarah El-Khawankey, Institut of Heat an Mass Transfer,
RWTH Aachen University, Aachen, Germany, Faruk Al-Sibai,
Reinhold Kneer, Institute of Heat and Mass Transfer, Aachen,
Germany
Cooling of an Isothermal Plate Using a Triangular Array of
Swirling Air Jets Impinging on an Adiabatic Plate
Board #70: Poster IHTC14-22170
Sal B. Rodriguez, Sandia National Laboratories, Albuquerque,
NM, USA, Mohamed El-genk, Chemical and Nuclear
Engineering Dept., Albuquerque, NM, USA
Heat Transfer Characteristics of Swirling Impinging Jets
Board #80: Poster Presentation Only IHTC14-22860
Karl J. Brown, Tim Persoons, Darina B. Murray, Trinity
College Dublin, Dublin, Ireland
Heat Transfer Experiments in a Confined Jet Impingement
Configuration using Transient Techniques
Effect of Density Variation on the Dynamic Characteristic of
Coaxial Swirling Jet Flows
Board #71: Poster IHTC14-22305
Florian Hoefler, Nils Dietrich, Jens von Wolfersdorf, ITLR
Universität Stuttgart, Stuttgart, Germany
Board #81: Poster IHTC14-22997
Ahmad Adzlan, Suguru Matsubara, Hiroshi Gotoda,
Ritsumeikan University, Kusatsu-shi, Shiga-ken, Japan,
Toshihisa Ueda, Keio University, Yokohama, Kanagawa-ken,
Japan
Compact Modelling of Forced Convection in Pin/Plate-Fin
Heat Sinks Subjected to Impinging Jet Heating
Board #72: Poster IHTC14-22353
Shangsheng Feng, Tongbeum Kim, Tianjian Lu, Xi’an
Jiaotong University, Xi’an, Shaanxi, China
Thermo-Fluid Dynamics of an Array of Impinging Ionic Jets
in a Crossflow
Series Solutions of the Stagnation-Point Flow and Heat
Transfer Due to a Stretching Sheet with Velocity Slip and
Temperature Jump
Board #82: Poster IHTC14-23149
Walter Grassi, Daniele Testi, Department of Energetics University of Pisa, Pisa, Italy
Board #73: Poster Presentation Only IHTC14-22417
Two Dimensional Simulation of Flow and Heat Transfer
Characteristics of Turbulent Jets
Jing Zhu, Liancun Zheng, Xinxin Zhang, University of
Science and Technology Beijing, Beijing, China
Board #83: Poster IHTC14-23150
Experimental Study on the Jet Flow Issued from an
Asymmetrical 2D Nozzle
Tarek Abdel-Salam, East Carolina University, Greenville, NC,
USA
Board #74: Poster IHTC14-22581
Flow Fields Investigation and Temperature Distribution on a
Rotating Disk Imposed by a Turbulent Impinging Jet
Taisuke Murayama, Doshisha University, Kyotanabe-shi,
Kyoto-fu, Japan, Katsuya Hirata, Doshisha University,
Kyotanabe, Kyoto, Japan, Jiro Funaki, Doshisha University,
Kyotanabe-shi, Kyoto, Japan
Board #84: Poster Presentation Only IHTC14-23236
Hadi Karabi, Sahand Rasoulipour, Sharif University of Tech,
Tehran, Iran
Numerical Study of Flow and Cooling Characteristics of
Impinging Liquid Jets on a Moving Plate
Analysis of Transient Conjugate Heat Transfer from a
Hemispherical Plate During Liquid Jet Impingement
Board #75: Poster IHTC14-22584
Sangil Son, Gihun Son, Sogang University, Seoul, Korea
(Republic), Ilseouk Park, Piljong Lee, Posco, Pohang, Korea
(Republic)
Board #85: Poster IHTC14-23318
Muhammad Rahman, Cesar F. Hernandez, University of
South Florida, Tampa, FL, USA
53
TUESDAY, AUGUST 10
TECHNICAL
SESSIONS
Heat Transfer Generated by the Interaction of Single and
Multiple Tandem Jets in Crossflow
Comparison of Single and Two-phase Models for the Study
of Mixed Convection Flows with Nanofluids
Board #86: Poster IHTC14-23355
Board #95: Poster IHTC14-22455
Amina Radhouane, Nejla Mahjoub, Hatem Mhiri, National
Engineering School of Monastir, Monastir, Tunisia, George Le
Palac, Philippe Bournot, Lusti, Marseille, France
Mahmood Akbari, Sherbrooke University, Sherbrooke, QC,
Canada, Amin Behzadmehr, University of Sistan and
Baluchestan, Zahedan, Iran, Nicolas Galanis, Université de
Sherbrooke, Sherbrooke, QC, Canada
Effect of Non-Isothermal Conditions on Liquid Breakup
Mechanisms
Experimental Investigation on Heat Transfer and Pressure
Drop of Nanodiamond-Engine Oil Nanofluid Flow in a
Microfin Tube
Board #87: Poster IHTC14-23372
Ilai Sher, Cranfield University, Cranfield, United Kingdom
Board #96: Poster IHTC14-22483
Mass Transfer During Confined Liquid Jet Impingement on a
Rotating Disk
M.A. Akhavan-Behabadi, Mohammad Ghazvini, Erfan
Rasuli, University of Tehran, Tehran, Iran
Board #88: Poster Presentation Only IHTC14-23395
Thermal Conductivity Enhancement of Binary
Nanoemulsions (O/S)
Ejiro Ojada, Jorge Lallave, Muhammad Rahman, University
of South Florida, Tampa, FL, USA
Board #97: Poster Presentation Only IHTC14-22556
Nanofluids
Hea Youn Sul, Kyung Hee University, Yongin-si, Korea
(Republic), Jung-Yeul Jung, Yong Tae Kang, Kyung Hee
University, Yong-In, Korea (Republic)
19-1 Nanofluids
Diplomat
8:30am - 10:30am
A Study of the Thermal-Hydraulic Performance and SystemLevel Effects of Aluminum Oxide-Propanol Nanofluid
Session Chair: Andrew Sommers, Miami University, Oxford, OH, USA
Session Co-Chair: Yong Tae Kang, Kyung Hee University, YongIn, Korea (Republic)
Board #98: Poster IHTC14-22931
Andrew Sommers, Miami University, Oxford, OH, USA, Kirk
Yerkes, Augusta Runyon, Air Force Research Laboratory,
Wright-Patterson AFB, OH, USA
The Preparation and Thermal Conductivities Enhancement
of Nanofluids Containing Graphene Oxide Nanosheets
Experimental Investigation of Single-Phase Convective Heat
Transfer of Nanofluids in a Minichannel
Board #89: Poster IHTC14-22055
Wei Yu, Huaqing Xie, Lifei Chen, Yang Li, Shanghai Second
Polytechnic University, Shanghai, China, Dehui Li, Shanghai
Institute of Measurement and Testing Technology, Shanghai,
China
Board #99: Poster IHTC14-23018
Dong Liu, Leyuan Yu, University of Houston, Houston, TX,
USA
A Numerical Investigation of Nanofluids Forced Convection
Flow in a Horizontal Smooth Tube
Entropy Generation Minimization of Confined Nanofluids
Flow around a Block
Board #90: Poster IHTC14-22183
Board #100: Poster Presentation Only IHTC14-23116
Dr. Hakan Demir, Ahmet Selim Dalkilic, Dr. Nuri Alpay
Kurekci, Bulent Kelesoglu, Yildiz Technical University, Istanbul,
Turkey, Prof. Dr. Somchai Wongwises, King Mongkuts
University of Technology Thonburi, Bangkok, Thailand
Mehdi Boghrati, Qaen College of Engineering, Mashad, Iran,
Ehsan Ebrahimnia Bajestan, Ferdowsi University of
Mashhad, Mashhad, Khorasan, Iran, Vahid Etminan Farooji,
Shiraz University, Mashad, Khorasan, Iran, Aida Javadian
Saraf, Ferdowsi University, Mashhad, Iran
Convective Heat Transfer of Alumina Nanofluids in a
Microchannel
Research and Engineering Practice in Nanofluids: Key
Issues
Board #91: Poster IHTC14-22206
Saeid Vafaei, Dongsheng Wen, Queen Mary University of
London, London, United Kingdom
Board #101: Poster IHTC14-23184
Liqiu Wang, The University of Hong Kong, Hong Kong, China
Experimental Study on Impact of Nano-Particles on Heat
Transfer of Lithium Bromide Aqueous Solution
Pool Boiling Critical Heat Flux Characteristics of Fullerene
(C60) Nanofluids on Horizontal Surface
Board #92: Poster Presentation Only IHTC14-22224
Board #102: Poster Presentation Only IHTC14-23392
Wei Wu, Guozhen Xie, Guodong Li, Beijing University of Civil
Engineering and Architecture, Beijing, China
Ai Melani, Korea Advanced Institute of Science (KAIST),
Daejeon, Daejeon, Korea (Republic), Soon Heung Chang,
Korea Advanced Institute of Science and Technology, Daejeon,
Daejeon, Korea (Republic), Byoongsu Shin, Korea Advanced
Institute of Science and Technology (KAIST), Daejeon, Korea
(Republic)
Heat Transfer Characteristics of CuO-Base Oil Nanofluid
Laminar Flow inside Flattened Tubes under Constant Heat Flux
Board #93: Poster IHTC14-22304
Pooyan Razi, M.A. Akhavan-Behabadi, University of Tehran,
Tehran, Iran
Surface Charge, Nanoparticle Shape, and Electric Field
Effects on Thermal Conductivity and Simulation of Nanofluids
Numerical Simulation of Thermal Conductivity of Nanofluids
Board #103: Poster Presentation Only IHTC14-23399
Board #94: Poster IHTC14-22453
Hongwei Sun, Raghu Gowda, Pengtao Wang, Sai Liu,
Zhiyong Gu, University of Massachusetts, Lowell, Lowell, MA,
USA
Jing Fan, Liqiu Wang, The University of Hong Kong, Hong
Kong, China
54
TUESDAY, AUGUST 10 / WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
32-9 Keynote
The Role of Liquid Layering on the Enhancement of Thermal
Conductivity in Nanofluids
Regency
Board #104: Poster IHTC14-23418
Session Chair: André Charette, Centre Universitaire de Recherche
sur l’Aluminium, Chicoutimi, QC, Canada
M. Reza Azizian, Priority Research Centre for Energy,
University of Newcastle in Australia, Newcastle, NSW,
Australia, Elham Doroodchi, University of Newcastle,
Newcastle, NSW, Australia, Behdad Moghtaderi, Priority
Research Centre for Energy, University of Newcastle in
Australia, Newcastle, NSW, Australia
Turbulence-radiation Interaction: From Theory to Application
in Numerical Simulations
Keynote (Invited Only) IHTC14-23339
Pedro Coelho, Instituto Superior Tecnico, Technical University
of Lisbon, Lisboa, Portugal
Keynotes
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
32-10 Keynote
Blue
10:30am - 11:30am
The Flow and Heat Transfer in a Packed Bed High
Temperature Gas-cooled Reactor: A Systems CFD Approach
Session Chair: Theo van der Meer, Twente University, Enschede,
Netherlands
Keynote (Invited Only) IHTC14-22384
C. G. (Jat) du Toit, Pieter G Rousseau, North-West University,
Potchefstroom, North-West Province, South Africa
Challenging Problems of Non-Equilibrium
Aerothermodynamics of Entry Probes
WEDNESDAY, AUGUST 11
Keynote (Invited Only) IHTC14-22835
Sergey Surzhikov, A.Yu, Ishlinskii Institute for Problems in
Mechanics, Russian Academy of Sciences, Moscow, Russia
POSTER SESSION 4: 8:30am – 10:30am
32-6 Keynote
Regency
Bio Heat Transfer
10:30am - 11:30am
1-1 Bio Heat Transfer
Session Chair: Leonid Dombrovsky, Joint Institute for High
Temperatures, Moscow, Russia
Diplomat
Keynote (Invited Only) IHTC14-23345
S. Srinivasa Murthy, Indian Institute of Technology Madras,
Chennai, Tamil Nadu, India
The Relationship of the De-naturation Temperature and
Results of PCR
32-7 Keynote
Board #1: Poster Presentation Only IHTC14-22020
10:30am - 11:30am
Ran Shu, The University of Shanghai for Science and
Technology, Shanghai, China
Session Chair: Joon Sik Lee
A Human Energy Balance Model with Clothing Effects for
Estimating Human Thermal Comfort
Computational Heat Transfer in Complex Systems: A Review
of Needs and Opportunities
Board #2: Poster IHTC14-22070
Keynote (Invited Only) IHTC14-23367
Atsumasa Yoshida, Yasuhiro Shimazaki, Shinichi Kinoshita,
Ryota Suzuki, Osaka Prefecture University, Sakai, Japan
Jayathi Y. Murthy, Purdue University, West Lafayette, IN, USA
Keynotes
Numerical Simulation of Cryosurgery as an Alternative
Treatment for Uterine Fibroids
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
Board #3: Poster IHTC14-22106
Katherine McCaffrey, Karen Rose, University of Saint
Thomas, Saint Paul, MN, USA, John Abraham, University of
St. Thomas, St. Paul, MN, USA
32-8 Keynote
Empire
8:30am - 10:30am
Session Chair: Keunhan (Kay) Park, University of Rhode Island,
Kingston, RI, USA
Session Co-Chair: Liang Zhu, University of Maryland Baltimore
County, Baltimore, MD, USA
Heat and Mass Transfer Issues in the Design of Solid State
Hydrogen Storage Devices
Blue
11:35am - 12:35am
Session Chair: Chang Oh, Idaho National Laboratory, Idaho Falls,
ID, USA
32-5 Keynote
Empire
11:35am - 12:35am
11:35am - 12:35am
Quantification of Nanoparticle Distribution in Tissue after
Direct Injection using MicroCT Imaging
Session Chair: Stephan Kabelac, Helmut Schmidt University/
University of the Federal Armed Forces Hamburg, Hamburg,
Hamburg, Germany
Board #4: Poster IHTC14-22139
Anilchandra Attaluri, Ronghui Ma, Liang Zhu, University of
Maryland Baltimore County, Baltimore, MA, USA
CVD Growth and Heat Transfer of Carbon Nanotubes
Keynote (Invited Only) IHTC14-23350
Shigeo Maruyama, The University of Tokyo, Tokyo, Japan
55
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Modeling the Effect of Vesicle Traps on Mass Transfer and
Traffic Jam Formation in Fast Axonal Transport
Fractal Dimension of Pore Size Distribution Inside Matrix of
Plant Material and Drying Behavior
Board #5: Poster IHTC14-22169
Board #14: Poster IHTC14-22999
Andrey Kuznetsov, North Carolina State University, Raleigh,
NC, USA
Junhong Yang, Tianjin University, Tianjin, China, Qianqian Di,
Tianjin Key Laboratory of Refrigeration Technology, Tianjin,
China, Ju. Zhao, Tianjin University, Tianjin, China, L.Q. Wang
Quantitative Evaluation of Skin Lesions Using Transient
Thermal Imaging
Correlation between Fracoal Dimension of Matrix and
Extraction Behavior of Plant Materials
Board #6: Poster IHTC14-22465
Board #15: Poster IHTC14-23009
Muge Pirtini Cetingul, Johns Hopkins University, Baltimore,
MD, USA, Rhoda M. Alani, Boston University School of
Medicine, Boston, MA, USA, Cila Herman, Johns Hopkins
University, Baltimore, MD, USA
Julhong Yang, Tianjin University, Tianjin, China, Qianqian Di,
Tianjin Key Laboratory of Refrigeration Technology, Tianjin,
China, Jun Zhao, Tianjin University, Tianjin, China, L.Q. Wang
Three-Dimensional Numerical Simulation of Non-Newtonian
Blood in Two Coronary Stents
Numerical Analysis of Temperature Distribution in a Threedimensional Image-based Hand Model using Finite Element
Method
Board #16: Poster IHTC14-23087
Board #7: Poster IHTC14-22559
Fabio Gori, Andrea Boghi, University of Rome “Tor Vergata”,
Rome, Italy
Hongwei Shao, Ying He, Lizhong Mu, University of Science
and Technology of China, Hefei, China
Tumor Growth Model Incorporating Warburg Effect
Temperature Distribution in an in Vitro Tissue Model with U
Tube
Board #17: Poster Presentation Only IHTC14-23186
Qing Zhu, Aili Zhang, Shanghai Jiao Tong University,
Shanghai, China, Lisa Xu, Shanghai Jiao Tong University,
Shanghai, P. R. China, Shanghai, China
Board #8: Poster Presentation Only IHTC14-22575
Lizhong Mu, Ying He, Yun Pejg, University of Science and
Technology of China, Hefei, China
Study of Interaction Energy between Nanoparticles and Cell
Membrane
Local Temperature and Heat Flux in the Aqueous Solution of
Antifreeze Protein Near Ice Surfaces in a Narrow Space
Board #18: Poster IHTC14-23187
Board #9: Poster IHTC14-22578
Aili Zhang, Yingxue Guan, Shanghai Jiao Tong University,
Shanghai, China, Lisa Xu, Shanghai Jiao Tong University,
Shanghai, P. R. China, Shanghai, China
Yoshimichi Hagiwara, Daichi Yamamoto, Yosuje Ohniqhi,
Kyoto Institute of Technology, Kyoto, Japan
Inhibition of Blockage by Ice Crystal in Water Flow in a
Micro-channel by using Antifreeze Protein
Molecular Dynamics Analysis on the Interaction among
Water, Cations, Anions and Antifreeze Protein
Board #10: Poster IHTC14-22788
Board #19: Poster IHTC14-23196
Yoshimichi Hagiwara, Yosuke Ohnishi, Daichi Yamamoto,
Kyoto Institute of Technology, Kyoto, Japan
Kohei Hayakari, Yuki Kanamori, Yoshimichi Hagiwara,
Kyoto Institute of Technology, Kyoto, Japan
Bio-Heat Transfer Model of Human Eye Subjected to Retinal
Laser Irradiation
Thermal Effect on Heart Rate and Hemodynamics in Vitelline
Arteries of Stage 18 Chicken Embryos
Board #11: Poster IHTC14-22799
Board #20: Poster Presentation Only IHTC14-23393
Arunn Narasimhan, Kaushal Jha, Kumar, Indian Institute of
Technology Madras, Chennai, Tamil Nadu, India
Sang-Joon Lee, Jung-Yeop Lee, Pohang University of
Science and Technology (POSTECH), Pohang, Korea
(Republic)
Effects of Ultrasonic Irradiation on Ice Formation in
Biological Tissue
Convection
Board #12: Poster IHTC14-22803
7-1 Enhanced Convection
Yukio Tada, School of Mechanical Engineering, Kanazawa
University, Kanazawa, Ishikawa, Japan, Yoshiaki Satou,
Graduate School of Natural Science and Technology,
Kanazawa University, Kanazawa, Ishikawa, Japan, Makoto
Kurokawa, Asahi Glass Co. Ltd., Ichilara, Chiba, Japan, Akira
Takimoto, Hajime Onishi, School of Mechanical Engineering,
Janazawa University, Kanazawa, Japan
Ambassador
8:30am - 10:30am
Session Chair: Scott Ormiston, University of Manitoba, Winnipeg,
MB, Canada
Session Co-Chair: Alfonso Niro, Politecnico di Milano, Milano,
Italy
Development of Surface Plasmon Resonance ImmunoSensors at Mid-Infrared Range
Turbulent Flow and Heat Transfer in Initial Stage of Ribbed
Channel
Board #13: Poster IHTC14-22914
Board #21: Poster IHTC14-22048
Takahiro Miura, Koji Matsubara, Yoshiyuki Nagai, Atsushi
Sakurai, Niigata University, Niigata-shi, Niigata, Japan
William R. DiPippo, University of Rhode Island, Kingston, RI,
USA, Bong Jae Lee, University of Pittsburgh, Pittsburgh, PA,
USA, Keunhan (Kay) Park, University of Rhode Island,
Kingston, RI, USA
56
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Numerical Analysis of Laminar Forced Convection in
Sinusoidal-Wavy, Rounded-Ellipse, and Rounded-VeeShaped Corrugated Plate Channels
Thermal Performance Assessment of Turbulent Flow
through Dimpled Tubes
Board #31: Poster IHTC14-22503
Board #22: Poster IHTC14-22082
Pornchai Nivesrangsa, Somsak Pethkool, Kwanchai
Nanan, Mahanakorn University of Technology, Bangkok,
Thailand, Monsak Pimsarn, King Mongkuts Institute of
Technology Ladkrabang, Bangkok, Thailand, Smith Eiamsaard, Mahanakorn University of Technology, Bangkok, Thailand
Dean Ferley, Scott J. Ormiston, University of Manitoba,
Winnipeg, MB, Canada
Experimental Studies of Turbulent Flow through Rectangular
and Square Ducts with Axial Corrugation Roughness and
Twisted Tapes with and without Oblique Teeth
Effect of Periodic Pulsations on Heat Transfer in
Simultaneously Developing Laminar Flows
Board #23: Poster IHTC14-22151
Board #32: Poster IHTC14-22519
Sujoy Kumar Saha, Bengal Engineering and Science
University Shibpur, Howr`h, West Bengal, India
Balkrishna Mehta, Sameer Khandekar, Indian Institute of
Technology Kanpur, Kanpur, Uttar Pradesh, India
Numerical Simulation of Turbulent Flow in a Rectangular
Channel with Periodically Mounted Longitudinal Vortex
Generators
Heat Transfer in Annular Channel with Continuous Flow
Twisting
Board #25: Poster IHTC14-22216
Board #33: Poster IHTC14-22617
Pankaj Saha, Iit Kanpur, Kanpur, India, Gautam Biswas,
Cmeri Durgapur, Durgapur, India
Stanislav Tarasevich, Anatoly Yakovlev, Kazan State
Technical University, Kazan, Russia
Heat Transfer Enhancement by Artificial Roughness at
Reynolds Numbers Related with Laminar and Transitional
Regimes for High-Viscous Liquids
Universal Curves for Rectangular Fins Optimization under
Asymmetrical Boundary Condition
Board #34: Poster IHTC14-22670
Board #26: Poster IHTC14-22303
Juan P. Luna-Abad, Francisco Alhama, Politechnical
University of Cartagena, Cartagena, Spain
Mikhail A. Gotovsky, Polzunov Institute, State University of
Plant Polymers Technology, Saint Petersburg, Russia, Sergey
A. Isaev, Civil Aviation University, Saint Petersburg, Russia
Thermal Design of a Protruding Heater in Laminar Channel
Flow
Vortex Heat Transfer Enhancement on Dimpled Reliefs
(Numerical and Physical Simulation)
Board #35: Poster IHTC14-22906
Thiago Antonini Alves, Carlos Alberto Carrasco Altemani,
Universidade Estadual de Campinas, Campinas, São Paulo,
Brazil
Board #27: Poster IHTA14-22334
Sergey A. Isaev, Civil Aviation University, Saint Petersburg,
Russia, Alexander I. Leontiev, Institute of Mechanics,
Lomonosov, Moscow State University, Moscow, Russia,
Nikolai Kornev, Egon Hassel, University of Rostock, Rostock,
Germany, Yaroslav Chudnovsky, Gas Technology Institute,
Des Plaines, IL, USA
Enhanced Heat Transfer for Various Gases Flowing over a
Twisted Heater due to Exponentially Increasing Heat Input
Board #36: Poster IHTC14-22978
Makoto Shibahara, Graduate School of Maritime Sciences,
Kobe University, Kobe, Hyogo, Japan, Qiusheng Liu, Katsuya
Fukuda, Kobe University - Graduate School of Maritime
Sciences, Kobe, Hyogo, Japan
Experimental Investigation by IR-Thermography of Heat
Transfer over Rib-Roughened Surfaces
Board #28: Poster IHTC14-22367
Numerical Simulation of Non-Newtonian Flow and Heat
Transfer in Tubes of Heat Exchangers with Reciprocating
Insert Devices
Ahfonso Niro, Damiano Fustinoni, Politecnico di Milano,
Milano, Italy
Analysis of Heat Transfer Enhancement in a Tube Inserted
with Helical Twisted-tape based on Principle of Physical
Quantity Synergy
Board #37: Poster IHTC14-23028
David S. Martinez, Juan P. Solano, José Pérez, Antonio
Viedma, Universidad Politécnica de Cartagena, Cartagena,
Spain
Board #29: Poster IHTC14-22494
Zhichun Liu, Xiaoyu Zhang, Wei Liu, Huazhong University of
Science and Technology, Wuhan, Htbei, China
Heat Transfer Augmentation of High-Pr Number Fluid Flow
using Nano-particle Layers on a Heating Surface
Heat Transfer Enhancement in a Tube Fitted with Twisted
Tape Swirl Generator
Board #38: Poster Presentation Only IHTC14-23041
Kazuhisa Yuki, Tokyo University of Science, Yamaguchi,
Sanyo-Onoda, Yamaguchi, Japan
Board #30: Poster IHTC14-22500
Smith Eiamsa-ard, Panida Seemawut, Khwanchit
Wongcharee, Mahanakorn University of Technology, Bangkok,
Thailand
Heat Transfer and Friction Augmentation in High Aspect
Ratio, Ribbed Channels with Dissimilar Inlet Conditions
Board #39: Poster IHTC14-23219
Carson Slabaugh, UCF Center for Advanced Turbines and
Energy Research (CATER), Orlando, FL, USA, Lucky V. Tran,
Jayanta S. Kapat, University of Central Florida, Orlando, FL,
USA, Bobby A. Warren, Siemens Energy, Inc. - Quad I,
Orlando, FL, USA
57
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Heat Transfer Enhancement in Corrugated Pipes
Modeling Size Effects of a Portable Two-Phase Electronics
Cooling Loop with Different Refrigerants
Board #40: Poster IHTC14-23225
Board #48: Poster IHTC14-22770
Dennis A. Siginer, Fahir T. Akyildiz, Petroleum Institute, Abu
Dhabi, United Arab Emirates
Tom Saenen, Katholieke Universiteit Leuven Mechanical
Engineering, Heverlee, Belgium, Martine Baelmans,
Katholieke Universiteit Leuven, Heverlee, Belgium
Numerical Study of Air Forced Convection in a Rectangular
Channel Provided with Ribs
3D Integrated Water Cooling of a Composite Multilayer
Stack of Chips
Board #41: Poster IHTC14-23244
Oronzio Manca, Seconda Universita’ degli Studi di Napoli,
Aversa, CE, Italy, Sergio Nardini, Daim Seconda Universita’
degli Studi di Napoli, Aversa, Caserta, Italy, Daniele Ricci,
Seconda Università degli Studi di Napoli, Aversa, Italy
Board #49: Poster IHTC14-22813
Fabio Alfieri, ETH Zurich - Laboratory of Thermodynamics in
Emerging Technologies, Zurich, Switzerland, Thomas
Brunschwiler, IBM Research GmbH, Zurich Research
Laboratory, Rüschlikon, Zürich, Switzerland, Manish K. Tiwari,
Igor Zinovik, ETH Zurich - Laboratory of Thermodynamics in
Emerging Technologies, Zürich, Switzerland, Bruno Michel,
IBM Zurich Research Laboratory - Advanced Thermal
Packaging, Rüschlikon, Switzerland, Dimos Poulikakos, ETH
Zurich - Laboratory of Thermodynamics in Emerging
Technologies, Zürich, Switzerland
Electronic Cooling
8-1 Electronic Cooling 1
Ambassador
8:30am - 10:30am
Session Chair: Martin Cerza, US Naval Academy, Annapolis, MD,
USA
Session Co-Chair: Dimos Poulikakos, ETH Zurich - Laboratory of
Thermodynamics in Emerging Technologies, Zürich, Switzerland
Start up and Transient Response to Power Input of a
Capillary Assisted Thermosyphon for ShipBoard
#Electronics Cooling
Investigation on Multi-Pump Liquid-Cooling Loop based on
Thermomagnetic Effect
Board #50: Poster IHTC14-22843
Board #42: Poster IHTC14-22038
Valentin Tudor, CPA Global, Alexandria, VA, USA, Martin
Cerza, US Naval Academy, Annapolis, MD, USA
Wenlei Lian, Y.M. Xuan, Nanjing University of Science &
Technology, Nanjing, China, Qiang Li, Nanjing University of
Science & Technology, Nanjing, China
Theoretical Investigation on Effective Thermal Conductivity
of a Disk-shaped Composite System
Analysis of Liquid-Cooled Heat Sink used for Power
Electronics Cooling
Board #51: Poster IHTC14-22870
Yasushi Koito, Toshio Tomimura, Kumamoto University,
Kumamoto, Kumamoto, Japan, Shuichi Torii, Kumamotou.ac.jp, Kumamoto, Japan
Board #43: Poster IHTC14-22181
Hemin Hu, North China Electric Power University, Beijing,
China, Jiahui Zhang, Siemens Industry Inc., Large Drives - A,
Pittsburgh, PA, USA, X.Z. Du, Lijun Yang, North China Electric
Power University, Beijing, China
Effective Thermal Conductivity of Six Sigmas Copper
Reinforced Column Grid Array Interconnect for Ceramic
Microelectronic Packages
Active Upstream Components for Enhanced Heat Transfer of
Longitudinally Finned Heat Sinks
Board #52: Poster IHTC14-22891
Mark Eblen, Kyocera America, Inc., San Diego, CA, USA
Board #44: Poster IHTC14-22203
An Integrated Nano-Structured Heat Spreader for High Heat
Flux Electronic Systems
John Daly, Alcatel-Lucent, Bell Labs, Dublin, Dublin, Ireland
Transient Characteristics of a Two-Phase Thermosyphon
Loop for Cooling Telecommunication Outdoor Cabinets
Board #53: Poster IHTC14-22918
Siddharth Bhopte, Seshu Desu, Bahgat Sammakia, State
University of New York at Binghamton, Binghamton, NY, USA
Board #45: Poster IHTC14-22218
Hasna Gualous, FEMTO-St, Utbm, Belfort, France,
Boubakeur Mecheri, FEMTO, Belfort, France, David
Nortershauser, Stephane Le Masson, France Telecom,
Lannion, France
Active Flow Instability Control for Transient Two-Phase
Electronics Cooling
Board #54: Poster IHTC14-22919
TieJun Zhang, Yoav Peles, John T. Wen, Michael Jensen,
Rensselaer Polytechnic Institute, Troy, NY, USA
An Experimental Study on the Effect of Configuration of
Multiple Microchannels on Heat Removal for Electronic
Cooling
Self Heating Distribution in Arrayed Power Devices as a
Function of External Package Temperature
Board #46: Poster IHTC14-22234
Jingru Zhang, Shaurya Prakash, Yogesh Jaluria, Lei Lin,
Rutgers University, Piscataway, NJ, USA
Board #55: Poster IHTC14-23010
Kerry Maize, University of California, Santa Cruz, Santa Cruz,
CA, USA
Optimization of 3D Branching Networks of Micro-channels
for Microelectronic Device Cooling
Gas Assisted Thin Film Evaporation for Hotspot Thermal
Management
Board #47: Poster IHTC14-22719
George Dulikravich, Florida International University, Miami,
FL, USA, Thomas Martin, Pratt & Whitney Aircraft, East
Hartford, CT, USA
Board #56: Poster IHTC14-23015
Shankar Narayanan, Andrei G. Fedorov, Yogendra Joshi,
Georgia Institute of Technology, Atlanta, GA, USA
58
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Physics-of-Failure Design-for-Reliability of a Bidirectional
Multi-Output DC-DC Power Converter
First and Second Law Analysis Fluid Flow in the Regenerator
of Pulse Tube Refrigerators
Board #57: Poster IHTC14-23040
Board #65: Poster IHTC14-22229
Vibhash Jha, University of Maryland College Park, College
Park, MD, USA, F. Patrick McCluskey, University of Maryland,
College Park, MD, USA
Farid Roshanghalb, Mohammad Hassan Saidi, Ali Jafarian,
Sharif University of Technology, Tehran, Iran, Fatemeh
Imanimehr, Payam-e-Nour, Tehran, Iran, Mohammad Asadi,
Sharif University of Technology, Tehran, Iran
Hybrid Superlattice Coolers for Dynamic Thermal
Management of Microprocessor Hotspots
Vacuum Operation of a Thermosyphon Reboiler
Board #58: Poster IHTC14-23054
Board #66: Poster IHTC14-22373
Vivek Sahu, Yogendra Joshi, Andrei G. Fedorov, Georgia
Institute of Technology, Atlanta, GA, USA
Peter Heggs, Leeds University, Leeds, West Yorks, United
Kingdom, Abdelmadjid Alane, University of Manchester,
Manchester, Lancashire, United Kingdom
Simulation of Sub-Micron Thermal Transport in a MOSFET
using a Hybrid Fourier-BTE Model
Heat Transfer and Pressure Drop during Hydrocarbon
Refrigerant Vaporisation inside a Brazed Plate Heat
Exchanger
Board #59: Poster IHTC14-23100
James M. Loy, Dhruv Singh, Jayathi Y. Murthy, Purdue
University, West Lafayette, IN, USA
Board #67: Poster IHTC14-22426
Giovanni A. Longo, University of Padova - DTG, Vicenza, Italy
A CMOS Compatible Metal-Polymer Microchannel Heat Sink
for Monolithic Chip Cooling Applications
Falling Film Evaporation of Water on Horizontal Configured
Tube Bundles
Board #60: Poster IHTC14-23212
Board #68: Poster IHTC14-22536
Aziz Koyuncuoglu, Tuba Okutucu, Haluk Külah, Middle East
Technical University, Ankara, Turkey
Wei Li, Xiaoyu wu, Zhejiang University, Hangzhou, China,
Zhong Luo, Wolverine Tube (Shanghai) Co. Ltd., Shanghai,
China
Steady State and Transient Thermal Simulation of Gateless
AlGaN/GaN Heterostructures
Experimental Investigation on Natural Circulation in a
Thermosiphon Reboiler
Board #61: Poster IHTC14-23277
Anusha Venkatachalam, William James, Samuel Graham,
Georgia Tech, Atlanta, GA, USA
Board #69: Poster IHTC14-22618
Xing Luo, Helmut Schmidt University, Hamburg, Hamburg,
Germany, Yanming Gao, University of Shanghai for Science
and Technology, Shanghai, Shanghai, China, Stephan
Kabelac, Helmut Schmidt University/University of the Federal
Armed Forces Hamburg, Hamburg, Germany
Heat Transfer Equipment
14-5 Two Phase Heat Exchangers
Ambassador
8:30am - 10:30am
Parametric Analysis of an Aluminum Plate-Fin Heat
Exchanger (ALPHE) for LNG-FPSO
Session Chair: Xing Luo, Helmut Schmidt University, Hamburg,
Hamburg, Germany
Session Co-Chair: Giovanni A. Longo, University of Padova DTG, Vicenza, Italy
Board #70: Poster IHTC14-22783
Eungchan Lee, Yongchan Kim, Hoon Kang, Korea
University, Seoul, Korea (Republic), Hyug Lim, Jaehong Park,
Sungyoul Cho, LHE Co., Ltd., Gimhae, Korea (Republic)
Optimized Utilization of Liquefied Natural Gas (LNG) Cold
Energy
A New Two-dimensional CFD Model to Predict the
Performance of Natural Draught Wet-cooling Towers Packed
with Trickle or Splash Fills
Board #62: Poster IHTC14-22075
Hongyu Si, Engineering College, Ocean University of China,
Qingdao, Shandong Province, China, Ning Mei, Ocean
University of China, Qingdao, China, Xiaoyan Wang,
Shandong Vocational College of Economics and Business,
Weifang, Shandong, China
Board #71: Poster IHTC14-22789
Hanno C.R. Reuter, Detlev Kroger, Stellenbosch University,
Matieland, Western Cape, South Africa
Performance of Plate Heat Exchangers used as Refrigerant
Liquid-Overfeed Evaporators
Two-Phase Flow on the Shell Side of a Shell and Tube Heat
Exchanger
Board #63: Poster IHTC14-22095
Board #72: Poster IHTC14-22790
Jianchang Huang, Thomas J. Sheer, Michael BaileyMcEwan, University of the Witwatersrand, Johannesburg,
South Africa
Azmahani Sadikin, David A McNeil, Khalid H Bamardouf,
Heriot-Watt University, Edinburgh, United Kingdom
Computational Models for Predicting Cooling Tower Fill
Performance in Cross-counterflow Configuration
A Distributed Model for Air-to-Refrigerant Fin-and-Tube
Evaporators with Special Emphasis on Two-Phase Zone
Board #73: Poster IHTC14-22791
Board #64: Poster IHTC14-22097
Hanno C.R. Reuter, Detlev Kroger, Stellenbosch University,
Matieland, Western Cape, South Africa
Haiyan LI, Lige Tong, Xinxing Sun, University of Science and
Technology Beijing, Beijing, China, Li Wang, School of
Mechanical Engineering, University of Science and Technology
Beijing, Beijing, China, Shaowu Yin, University of Science and
Technology Beijing, Beijing, China
59
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Evaluation and Performance Prediction of Cooling Tower
Spray Zones
Fluid Motion and Heat Transfer of Boiling with Impinging
Flow in a Mini-tube with Nonlinear Thermocapillary Solutions
Board #74: Poster IHTC14-22793
Board #82: Poster IHTC14-22498
Hanno C.R. Reuter, Stellenbosch University, Matieland,
Western Cape, South Africa, Dawie J. Viljoen, Stellenbosch
University, Stellenbosch, Western Cape, South Africa, Detlev
Kroger, Stellenbosch University, Matieland, Western Cape,
South Africa
Naoki Ono, Atsushi Hamaoka, Yuta Otsubo, Shibaura
Institute of Technology, Tokyo, Japan
Experimental and Numerical Study on Flow Field and Heat
Transfer Characteristics for a Periodically Unsteady
Impinging Jet
Non-condensable Gases Effect on Heat Transfer Processes
between Condensing Steam and Boiling Water in Heat
Exchanger with Multirow Horizontal Tube Bundle
Board #83: Poster IHTC14-22591
Jing-Wei Zhou, Li-Ping Geng, China Jiliang University,
Hangzhou, Zhejiang, China, Yu-Gang Wang, Chian Jiliang
University, Hangzhou, Zhejiang, China, Fei-Fei Hong, China
Jiliang University, Hangzhou, Zhejiang, China
Board #75: Poster IHTC14-22826
Andrey V. Morozov, Oleg V. Remizov, Aleksander A.
Tsyganok, Institute for Physics and Power Engineering,
Obninsk, Kaluga region, Russia
Fire Suppression by Water-Mist Sprays: Experimental and
Numerical Analysis
Evaporation of Pure Liquids at High Prandtl - Numbers in a
Scale-Up Capable Falling Film Evaporator
Board #84: Poster IHTC14-22634
Paolo E. Santangelo, DIMeC, Università degli Studi di
Modena e Reggio Emilia, Modena, Italy, Paolo Tartarini,
Dipartimento di Ingegneria Meccanica e Civile, Università degli
Studi di Modena e Reggio Emilia, Modena, Italy, Beatrice
Pulvirenti, Paolo Valdiserri, Dienca, Alma Mater Studiorum Università di Bologna, Bologna, Italy, André W. Marshall,
Dept. of Fire Protection Engineering, University of Maryland,
College Park, MD, USA
Board #76: Poster IHTC14-22845
Stefanie Arndt, Stephan Scholl, Technische Universität
Braunschweig Institute for Chemical and Thermal Process
Engineering, Braunschweig, Germany
Investigation of the Frost Growth on a Paraller Flow Evaporator
Board #77: Poster IHTC14-23193
Jianghong Wu, Guang OuYang, South China University of
Technology, Guangzhou, Guangdong, China
Convective Thermal Transfer from a Heated Surface to an
Impinging Multiphase Incompressible Turbulent Liquid Jet
Jet Impingement
Board #85: Poster IHTC14-22646
Ludovic Osmar, Stéphane Vincent, Jean-Paul Caltagirone,
Laboratoire Trefle (CNRS UMR 8508), Université Bordeaux 1,
Pessac, France, Gabriel Cavallaro, PSA Peugeot Citroen, La
Garenne-Colombes, France (Metro)
15-2 Two-Phase and Synthetic Jets
Diplomat
8:30am - 10:30am
Session Chair: Sung Jin Kim, KAIST, Daejeon, Korea (Republic)
Session Co-Chair: James Klausner, University of Florida,
Gainesville, FL, USA
Heat and Mass Transfer Caused by a Laminar Channel Flow
Equipped with a Synthetic Jet Array
Board #86: Poster IHTC14-22686
Wetting Front Tracking during Metal Quenching using Array
of Jets
Zdenek Travnicek, Institute of Thermomechanics, Prague,
Czech Republic, Petra Dancova, Technical University of
Liberec, Liberec, Czech Republic, Jozef Kordik, Institute of
Thermomechanics, Prague, Czech Republic, Tomas Vit,
Technical University of Liberec, Liberec, Czech Republic,
Miroslav Pavelka, Institute of Thermomechanics, Prague,
Czech Republic
Board #78: Poster IHTC14-22080
Khalid Abdalrahman, Otto-von Guericke University,
Magdeburg, Germany, Eckehard Specht, Otto von Guericke
University, Magdeburg, Germany, Umair Alam, Otto von
Guericke University, Magdeburg, Magdeburg, Germany
Heat Transfer Augmentation by Two-phase Impinging Jet
An Experimental Study of Two Phase Multiple Jet Cooling on
Straight-Finned Surfaces Using a Dielectric Fluid
Board #79: Poster IHTC14-22085
Kyo Sung Choo, Korea Advanced Institute of Science and
Technology, Daejeon, Daejeon, Korea (Republic), Sung Jin
Kim, KAIST, Daejeon, Korea (Republic)
Board #87: Poster IHTC14-22720
Liang-Han Chien, National Taipei University of Technology,
Taipei, Taiwan, Chin-Yao Chang, Han-Yang Liu, National
Taipei U. of Technology, Taipei, Taiwan
Numerical Study of Flow and Turbulent Heat Transfer in
Confined and Unconfined Mist Impinging Jet
Supersonic Two Phase Impinging Jet Heat Transfer
Board #80: Poster IHTC14-22162
Board #88: Poster IHTC14-22836
Viktor I. Terekhov, Kutateladze Institute of Thermophysics SB
RAS, Novosibirsk, Russia, Maksim A. Pakhomov, Kutateladze
Institute Thermophysics SB RAS, Novosibirsk, Russia
Richard Parker, James Klausner, Renwei Mei, University of
Florida, Gainesville, FL, USA
Heat Transfer Behavior and Flow Field Characterization of
Impinging Synthetic Jets for a Wide Range of Parameters
Heat Transfer to a Ducted, Semi Confined Impinging
Synthetic Air Jet
Board #89: Poster IHTC14-22864
Board #81: Poster IHTC14-22258
Rayhaan Farrelly, University of Dublin, Trinity College, Dublin,
Ireland, Alan McGuinn, Parsons Building, Dublin, Ireland, Tim
Persoons, Darina B. Murray, Trinity College Dublin, Dublin,
Ireland
Daniel Rylatt, Heriot Watt University, Edinburgh, United
Kingdom, T.S. O’Donovan, Heriot-Watt University, Edinburgh,
United Kingdom
60
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Experimental Heat Transfer Enhancement in Single-phase
Liquid Microchannel Cooling with Cross-flow Synthetic Jet
SLW-1 Modelling of Radiative Heat Transfer in NonIsothermal Non-homogeneous Gas Mixtures with Soot
Board #90: Poster IHTC14-23020
Board #98: Poster IHTC14-22299
Ruixian Fang, Wei Jaing, Jamil Khan, Roger Dougal,
University of South Carolina, Columbia, SC, USA
Vladimir Solovjov, Brigham Young University, Provo, UT, USA,
Denis Lemonnier, CNRS Institut Prime, Futuroscope Cedex,
France, Brent W. Webb, Brigham Young University, Provo, UT,
USA
A Computational and Experimental Investigation of Synthetic
Jets Vortex Dynamics and Heat Transfer
Band Models for Radiative Transfer in Non-LTE Diatomic
Molecules of CO2-N2 Plasmas
Board #91: Poster IHTC14-23099
Mehmet Arik, GE GRC, Niskayuna, NY, USA, Yogen Utturkar,
GE GRC, Niskayuna, NY, USA
Board #99: Poster IHTC14-22301
Anouar Soufiani, CNRS, Ecole Centrale Paris, ChatenayMalabry, France, Sébastien Depraz, ONERA/EM2C
Laboratory, Chatenay-Malabry, France, Philippe Riviere,
Marie-Yvonne Perrin, CNRS - Ecole Centrale Paris,
Chatenay-Malabry, France
Radiation
25-1 Radiation 1
Palladian
8:30am - 10:30am
A General Closure Model for the Time-Averaged Radiative
Transfer Equation in Turbulent Flows
Session Chair: Leonid Dombrovsky, Joint Institute for High
Temperatures, Moscow, Russia
Session Co-Chair: Pedro Coelho, Instituto Superior Tecnico,
Technical University of Lisbon, Lisboa, Portugal
Board #100: Poster IHTC14-22461
Pedro Coelho, Instituto Superior Tecnico, Technical University
of Lisbon, Lisboa, Portugal
Numerical Modeling of Radiative and Reactive Flow Field
around a Blunt Body at Hypersonic Regimes
Theoretical Investigation of Radiative Transport and Heat
Transfer of Nanofluids in a Direct Solar Absorption Collector
Board #92: Poster IHTC14-22028
Morteza Rahmanpour, Department of Mechanical
Engineering, Islamic Azad University, Khamene Branch,
Khameneh, Iran, Reza Ebrahimi, Mehrzad Shams, K.N. Toosi
University of Technology, Tehran, Iran
Board #101: Poster IHTC14-22554
Qunzhi Zhu, Yongguang Li, Lijuan Mu, Yun Cui, Shanghai
University of Electric Power, Shanghai, China
Thermoelectrics
Thermal Radiation from the Zone of Melt-Water Interaction:
Computational Model and Some Numerical Results
30-1 Thermoelectrics
Board #93: Poster IHTC14-22157
Palladian
Leonid Dombrovsky, Joint Institute for High Temperatures,
Moscow, Russia, Mikhail V. Davydov, Electrogorsk Research &
Engineering Center on Nuclear Power Plant Safety, Moscow
Region, Russia
8:30am - 10:30am
Session
Chair:
Kyoung
Blanchardstown, Ireland
Joon
Kim,
Alcatel-Lucent,
Thermoelectricity of Doubly Doped Strontium Titanate
Enhancement of Gas Enthalpy-radiation Conversion by
Utilizing Multilayer Porous Materials
Board #102: Poster IHTC14-22352
Jayakanth Ravichandran, Wolter Siemons, Justin Kardel,
University of California, Berkeley, Berkeley, CA, USA, Herman
Heijmerikx, University of Twente, Enschede, Netherlands,
Arvind Chari, University of California, Berkeley, Berkeley, CA,
USA, Dongwook Oh, David Cahill, University of Illinos,
Urbana-Champaign, Urbana, IL, USA, R Ramesh, University of
California, Berkeley, Berkeley, CA, USA, Arun Majumdar, US
Department of Energy, Advanced Research Projects Agency
for Energy (ARPA-E), Washington DC, USA
Board #94: Poster IHTC14-22179
Preecha Khantikomol, Shinichi Saito, Oita University, Oita,
Japan, Takehiko Yokomine, Kyushu University, Fukuoka, Japan
A Combined P1 and Monte Carlo Model for Radiative Transfer
in Multi-Dimensional Anisotropically Scattering Media
Board #95: Poster IHTC14-22194
Leonid Dombrovsky, Joint Institute for High Temperatures,
Moscow, Russia, Wojciech Lipinski, Department of Mechanical
Engineering, University of Minnesota, Minneapolis, MN, USA
Thermoelectricity at the Organic-Inorganic Interface
Board #103: Poster IHTC14-22690
The Effect of Directional Radiative Surface Properties on
Heat Transfer from Mutually Irradiating Conducting Fins
Shannon Yee, University of California, Berkeley, Berkeley, CA,
USA, Jonathan Malen, Carnegie Mellon University, Pittsburgh,
PA, USA, Pramod Reddy, University of Michigan, Ann Arbor,
MI, USA, Rachel Segalman, University of California Berkeley,
Berkeley, CA, USA, Arun Majumdar, US Department of
Energy, Advanced Research Projects Agency for Energy
(ARPA-E), Washington DC, USA
Board #96: Poster IHTC14-22226
Amrit Ambirajan, ISRO, Bangalore, Karnataka, India,
Prasanna Swaminathan, S.P. Venkateshan, IIT Madras,
Chennai, Tamil Nadu, India
A Fast Polarized Microwave Radiative Transfer Model for a
Raining Atmosphere
Thermoelectric Energy Recovery from Power Amplifier
Transistors
Board #97: Poster IHTC14-22228
Board #104: Poster IHTC14-22892
Srinivasa Ramanujam K, Chakravarthi Balaji, Indian Institute
of Technology Madras, Chennai, Tamil Nadu, India
Kyoung Joon Kim, Alcatel-Lucent, Blanchardstown, Ireland
61
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Keynotes
Simulation Research on the Application of Thermoelectric in
Waste Heat Recovery of Internal Combustion Engine
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
Board #105: Poster IHTC14-23110
Maohai Wang, Tsinghua University, Beijing, China, Thomas J.
Daun, RWTH Aachen University, Aachen, Germany, Y.J.
Zhang, Weilin Zhuge, Tsinghua University, Beijing, China
32-14 Keynote
Thermal Conductivity of Nano-porous Bismuth Antimony
Telluride
Regency
11:35am - 12:35pm
Session Chair: Dimos Poulikakos, ETH Zurich - Laboratory of
Thermodynamics in Emerging Technologies, Zürich, Switzerland
Board #106: Poster IHTC14-23270
Saburo Tanaka, Kyushu Institute of Technology, Kitakyushu,
Fukuoka, Japan, Masayuki Takashiri, Komatsu Ltd.,
Hiratsuka, Kanagawa, Japan, Koji Miyazaki, Kyushu Institute
of Technology, Kitakyushu, Japan
Manipulation of a Thermal Emission by use of Micro - and
Nanoscale Structures
Keynote (Invited Only) IHTC14-23379
Properties and Performance of Quantum Well
Thermoelectric Materials
Erez Hasman, Technion-Israel Inst. of Technology, Haifa,
Israel, Vladimir Kleiner, Nir Dahan, Igal Balin, Technion,
Haifa, Israel
Board #107: Poster IHTC14-23301
Velimir Jovanovic, Saeid Ghamaty, Norbert Elsner, Daniel
Krommenhoek, Hi-Z Technology, Inc., San Diego, CA, USA
32-15 Keynote
Empire
Modeling and Analysis of Thermoelectric Self-Cooling on
Germanium Chip
11:35am - 12:35pm
Session Chair: Pedro Coelho, Instituto Superior Tecnico,
Technical University of Lisbon, Lisboa, Portugal
Board #108: Poster IHTC14-23312
Peng Wang, University of Maryland at College Park, College
Park, MD, USA, Avram Bar-Cohen
Research Challenges in Heat Transfer to Foods
Keynote (Invited Only) IHTC14-23420
Peter J. Fryer, S. Bakalis, University of Birmingham,
Birmingham, United Kingdom
Keynotes
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
32-16 Keynote
32-11 Keynote
Session Chair: Avram Bar-Cohen
Regency
Blue
10:30am - 11:30am
Towards Zero-Emission Datacenters through Direct Re-use
of Waste Heat
Session Chair: Neima Brauner, Tel-Aviv University, Tel-Aviv, Israel
Keynote (Invited Only) IHTC14-23352
Thomas Brunschwiler, IBM Research GmbH, Zurich Reseach
Laboratory, Rüschlikon, Zürich, Switzerland, Gerhard Ingmar
Meijer, IBM Zurich Research Laboratory - Advanced Thermal
Packaging, Rüschlikon, Switzerland, Stephan Paredes, IBM
Reseach GmbH, Zurich Research Laboratory, Rueschlikon,
Zurich, Switzerland, Werner Escher, IBM Research GmbH,
Zurich Reseach Laboratory, Rueschlikon, Zurich, Switzerland,
Bruno Michel, IBM Zurich Research Laboratory - Advanced
Thermal Packaging, Rüschlikon, Switzerland
Whole-Body Human Thermal Modeling, an Alternative to
Immersion in Cold Water and Other Unpleasant Endeavors
Keynote (Invited Only) IHTC14-23340
Eugene H. Wissler, University of Texas at Austin, Austin, TX,
USA
32-41 Keynote
Empire
11:35am - 12:35pm
10:30am - 11:30am
Session Chair: S. Srinivasa Murthy, Indian Institute of Technology
Madras, Chennai, Tamil Nadu, India
Keynotes
Current and Future Needs in Electric Drive Vehicle Batteries
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ, USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
Keynote (Invited Only) IHTC14-23378
Ahmad Pesaran, National Renewable Energy Laboratory,
Golden, CO, USA
32-17 Keynote
Regency
32-13 Keynote
Blue
2:00pm - 3:00pm
Session Chair: Mashiro Kawaji, University of Toronto, Toronto,
Ontario, Canada
10:30am - 11:30am
Session Chair: Mohamed El-Genk, Chemical and Nuclear
Engineering Dept., Albuquerque, NM, USA
Heat Transfer in Advanced Nuclear Power Systems: Issues
and Challenges
Keynote (Invited Only) IHTC14-23410
Large-Scale Hydrogen Production from Nuclear Energy
using High Temperature Electrolysis
Michael Corradini, University of Wisconsin Madison, Madison,
WI, USA
Keynote (Invited Only) IHTC14-23341
Jim O’Brien, Idaho National Laboratory, Idaho Falls, ID, USA
62
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
32-18 Keynote
Empire
Non-equilibrium Boundary Effects Influence on the Interface
Surface Formation
2:00pm - 3:00pm
Board #6: Poster IHTC14-22290
Session Chair: Josua Meyer, University of Pretoria, Pretoria, South Africa
Alexei Kryukov, Yulia Puzina, Moscow Power Engineering
Institute, Moscow, Russia
Reduced Order Thermal Models of Multi-Scale Microsystems
Keynote (Invited Only) IHTC14-23373
The Surface Tension of Nanobubbles and the Effect of the
Potential Cutoff Radius
Yogendra Joshi, Georgia Institute of Technology, Atlanta, GA, USA
Board #7: Poster IHTC14-22300
32-19 Keynote
Blue
Ian A. Cosden, Jennifer R. Lukes, University of Pennsylvania,
Philadelphia, PA, USA
2:00pm - 3:00pm
Session Chair: Graham de Vahl Davis, University of New South
Wales, Sydney, NSW, Australia
Boiling Heat Transfer Surface Capable of Transient Heating
and Nucleation Control
Eddie Leonardi Memorial Lecture
Board #8: Poster IHTC14-22406
Manabu Tange, Shibaura Institute of Technology, Koto, Tokyo,
Japan, Shu Takagi, The University of Tokyo, Bunkyo, Tokyo,
Japan, Fumio Takemura, National Institute of Advanced
Industrial Science and Technology, Tsukuba, Ibaraki, Japan,
Masahiro Shoji, Kanagawa University, Yokohama, Kanagawa,
Japan
Keynote (Invited Only) IHTC14-23354
Victoria Timchenko, The University of New South Wales,
Sydney, Australia
POSTER SESSION 5: 4:00pm – 6:00pm
Boiling Heat Transfer
Visual Observation of Fine-scale Mixing Morphology during
Vapor Explosion and Droplet Entrapping Processes
2-1 Bubbles and Nucleation
Ambassador
Board #9: Poster IHTC14-22458
4:00pm - 6:00pm
Masahiro Furuya, Takahiro Arai, Central Research Institute of
Electric Power Industry (CRIEPI), Komae, Tokyo, Japan
Session Chair: Gennady Ziskind, Ben-Gurion University, BeerSheva, Israel
Session Co-Chair: David Christopher, Tsinghua University,
Beijing, China
Homogeneous Nucleation Boiling During Jet Impingement
Quench of Hot Surfaces
Board #10: Poster IHTC14-22567
Mohammad Nasim Hasan, Masanori Monde, Yuichi
Mitsutake, Saga University, Saga, Japan
Measurement of Concentration and Temperature Gradients
at Binary Mixture Boiling Bubbles
Board #1: Poster IHTC14-22054
The Onset of Nucleate Boiling of a Subcooled Liquid Flowing
in a Narrow Channel
Oliver S. Knauer, Andreas Braeuer, Matthias C. Lang,
Alfred Leipertz, Lehrstuhl für Technische Thermodynamik,
Universität Erlangen-Nürnberg, Erlangen, Germany
Board #11: Poster Presentation Only IHTC14-22689
Arif Ozer, Ahmet Oncel, D. Keith Hollingsworth, University
of Houston, Houston, TX, USA, Larry Witte, Univ. of Houston,
Houston, TX, USA
Experimental Estimation and Theoretical Calculation of
Electric Field Forces on Single Bubble
Board #2: Poster IHTC14-22062
Controlling the Nucleation of Water using Hybrid
Hydrophobic-Hydrophilic Surfaces
Y.Z. Song, Chen Feng, Tsinghua University, Beijing, China,
Peng Yao, The University of Texas at Austin, Austin, TX, USA
Board #12: Poster IHTC14-22723
Kripa Varanasi, MIT, Cambridge, MA, USA, Tao Deng, GE
Global Research Center, Niskayuna, NY, USA
Molecular Dynamics Simulation of Bubble Nucleation in
Superheated Liquid
Board #3: Poster IHTC14-22129
Bubble Growth during Nucleate Boiling in Microchannels
Liu Chao, Wu Xiao Bo, Hualing Zhang, Chongqing University,
Chongqing, China
Board #13: Poster IHTC14-22725
David Christopher, Xipeng Lin, Tsinghua University, Beijing,
China
Second Activated Boiling on Micro-Configurated GraphiteMetal Composite Surfaces
Incipient Flow Boiling in a Vertical Channel with a Wavy Wall
Board #4: Poster Presentation Only IHTC14-22137
Board #14: Poster IHTC14-22809
Wen-Jei Yang, University of Michigan, Ann Arbor, MI, USA,
Chyi-Yeou Soong, Feng Chia University, Taichung, Taiwan,
Taiwan, Tsung-Sheng Sheu, ROC Military Academy,
Fengshan, Kaohsiung, Taiwan, Taiwan
Tzvika Netz, Rotem Shalem, Josef Aharon, Gennady
Ziskind, Ruth Letan, Ben-Gurion University, Beer-Sheva, Israel
Bubble Lift-off Diameter in Forced Convective Boiling Flow
Board #15: Poster IHTC14-23024
Vapor Embryo Nucleation in Near-Wall Region under Pool
Boiling Condition
In-Cheol Chu, Korea Atomic Eneregy Research Institute,
Daejeon, Korea (Republic), Chul-Hwa Song, Korea Atomic
Energy Research Institute, Daejeon, Korea (Republic)
Board #5: Poster IHTC14-22142
Bo-Feng BAI, Sijie Li, Xi’an Jiaotong University, Xi’an, China
63
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Bubble Growth in Surfactant Solutions
Thermal Performance Improvement of a Heat Sink with
Piezoelectric Vibrating Fins
Board #16: Poster Presentation Only IHTC14-23091
Board #23: Poster IHTC14-22552
Gad Hetsroni, Israel Institute of Techology, Haifa, Israel, Albert
Mosyak, Israel Institute of Technology, Haifa, Israel
Heeseung Park, Korea Advanced Institute of Science and
Technology, Daejeon, Korea (Republic), Sung Kim, KAIST,
Daejeon, Korea (Republic)
Wall Thermal Conductivity Effects on Nucleation Site
Interaction during boiling - An Experimental Study
Thermal Optimization of Plate-fin Heat Sinks with Variable
Fin Thickness
Board #17: Poster IHTC14-23140
Yuyan Jiang, Toyota Central R&D Labs. Inc., Aichi-ken, Japan,
Hiroshi Osada, Masahide Inagaki, Nariaki Horinouchi,
Toyota Central R&D Labs Inc., Aichi-ken, Japan
Board #24: Poster IHTC14-22728
Dong-Kwon Kim, Ajou university, Suwon, Korea (Republic),
Jaehoon Jung, Korea Advanced Institute of Science and
Technology, Daejeon, Korea (Republic), Sung Kim, KAIST,
Daejeon, Korea (Republic)
Evaporation Induced Cavitations in Nanochannels
Board #18: Poster IHTC14-23272
Chuanhua Duan, University of California, Berkeley, Berkeley,
CA, USA, Rohit Karnik, Massachusetts Institute of
Technology, Cambridge, MA, USA, Ming-Chang Lu, University
of California at Berkeley, El Cerrito, CA, USA, Arun Majumdar,
US Department of Energy, Advanced Research Projects
Agency for Energy (ARPA-E), Washington DC, USA
Optimization of Natural Air Cooling in a Vertical Channel of
Electronic Equipment
Board #25: Poster IHTC14-22786
Yasushi Nishino, Masaru Ishizuka, Tomoyuki Hatakeyama,
Shinji Nakagawa, Toyama Prefectural University, Imizu,
Toyama, Japan
Electronic Cooling
8-2 Electronic Cooling 2
Maximum Heat Transfer from Multi-Scale Fins arranged in a
Row with Non-Uniform Geometry
Ambassador 4:00pm - 6:00pm
Board #26: Poster IHTC14-22808
Tunde Bello-Ochende, Josua Meyer, University of Pretoria,
Pretoria, Gauteng, South Africa, Adrian Bejan, Duke
University, Durham, NC, USA
Session Chair: Yoshiyuki Abe, AIST (National Research Institute of
Advanced Industrial Science & Technology), Tsukuba, Japan
Development of Advanced Cooling Network Systems for
Data Centers
Performance of a Heat Sink with Interrupted and Staggered
Elliptic Fins
Board #19: Poster IHTC14-22045
Board #27: Poster IHTC14-22890
Yoshiyuki Abe, Mayumi Ouchi, AIST (National Research
Institute of Advanced Industrial Science & Technology),
Tsukuba, Japan, Masato Fukagaya, Sohki Co., Ltd., Nagoya,
Japan, Takashi Kitagawa, Kawamura Electric Inc., Seto,
Japan, Haruhiko Ohta, Yasuhisa Shinmoto, Kyushu
University, Fukuoka, Fukuoka-ken, Japan, Masahide Sato,
Ken-ichi Iimura, Utsunomiya University, Utsunomiya, Japan
Suabsakul Gururatana, Xianchang Li, Lamar University,
Beaumont, TX, USA
Simulation of Fluid Flow and Heat transfer of Flat Plate Heat
Sinks with Spiral Inserts
Board #28: Poster Presentation Only IHTC14-22898
Ganesh Subbuswamy, Xianchang Li, Lamar University,
Beaumont, TX, USA
Experimental Performance of Novel Foam and Schwarz
Surface Heat Sinks
Thermal Management Considerations for Geographically
distributed Computing Infrastructures
Board #20: Poster IHTC14-22136
Domhnaill Hernon, Bell Laboratories Alcatel-Lucent, Dublin,
Ireland
Board #29: Poster IHTC14-22912
Amip J. Shah, Cullen E. Bash, Hewlett Packard Laboratories,
Palo Alto, CA, USA, Martin Arlitt, Hewlett Packard, Calgary,
AB, Canada, Yuan Chen, Daniel Gmach, Hewlett Packard,
Palo Alto, CA, USA, Ratnesh K. Sharma, Chandrakant D.
Patel, Hewlett Packard Laboratories, Palo Alto, CA, USA
Analysis and Optimum for Air Cooling Thermal Module Using
Dimple Vortex Generators
Board #21: Poster IHTC14-22146
Kai-Shing Yang, Mingdao university, Changhua, Taiwan, Ing
Youn Chen, National Yunlin University of Science and
Technology, Yunlin, Taiwan, Chi-Chuan Wang, National Chiao
Tung University, Hsinchu, Taiwan, Shu-Lin Li, National Yunlin
University of Science and Technology, Yunlin, Taiwan
Heat Sink Optimization: A Multi-Parameter Optimization Problem
Board #30: Poster IHTC14-22968
Nicholas Hansen, UCLA, Los Angeles, CA, USA, Feng Zhou,
Southeast University, Nanjing, China, Ivan Catton, UCLA, Los
Angeles, CA, USA
Compact Heat Sink with Combined Structures of DimplesProtrusions with Pin-Fins or Micro-Channels: Review,
Simulation and Experimental Data
Resistance Network Analysis of Airflow and Heat Transfer in
a Thin Electronic Equipment Enclosure with a Localized
Finned Heat Sink
Board #22: Poster IHTC14-22347
Mikhail Spokoyny, Drexel University, Department MEM,
Plasma Institute, EEPTL, Philadelphia, PA, USA, Vladimir
Trofimov, National Polytechnic University, Odessa, Ukraine,
Xinliang Qiu, James M. Kerner, Drexel University, Department
MEM, Plasma Institute, EEPTL, Philadelphia, PA, USA
Board #31: Poster IHTC14-22979
Takashi Fukue, Masaru Ishizuka, Shinji Nakagawa, Tomoyuki
Hatakeyama, Toyama Prefectural University, Imizu, Japan,
Wataru Nakayama, ThermTech International, Oiso, Japan
64
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Data Center Energy Conservation by Heat Pipe Cold Storage
System
Microporous Layer Consisting of Alternating Porous Material
with Different Wettability for Controlling Moisture in Gas
Diffusion Layer of PEFC
Board #32: Poster IHTC14-23128
Board #39: Poster IHTC14-22197
Xiao Ping Wu, Fujikura America Inc., Raleigh, NC, USA,
Masataka Mochizuki, Fujikura, Kiba, Japan, Koichi Mashiko,
Fujikura Ltd., Tokyo, Koto-Ku, Japan, Thang Nguyen, Tien
Nguyen, Vijit Wuttijumnong, Fujikura Ltd, Tokyo, Japan, Gerald
Cabusao, Fujikura Ltd., Tokyo, Koto-Ku, Japan, Randeep Singh,
Aliakbar Akbarzadeh, RMIT University, Melbourne, Australia
Yoshio Utaka, Yokohama National University, Yokohama,
Kanagawa, Japan, Ikunori Hirose, Olympus Co., Hachioji,
Tokyo, Japan
Thermodynamic Optimization of PEM Fuel Cell Stack Gas
Channel for Optimal Thermal Performance
Experimental Study and Numerical Analysis of Single-Phase
Pressure Drop across a Micro-Pin-Fin Array
Board #40: Poster IHTC14-22233
Tunde Bello-Ochende, Josua Meyer, Surajudeen O.
Obayopo, University of Pretoria, Pretoria, Gauteng, South Africa
Board #33: Poster IHTC14-23171
Christopher A. Konishi, Ruey Hwu, Weilin Qu, University of
Hawaii at Manoa, Honolulu, HI, USA, Frank E. Pfefferkorn,
University of Wisconsin-Madison, Wisconsin, WI, USA
Development of Optical Thermal Sensor for PEM Fuel Cell
Temperature Measurement Using Phospher Thermometry
Board #41: Poster Presentation Only IHTC14-22478
CFD Modeling of Environmental System Options used for
Cooling of Telecommunication Shelters
Kristopher Inman, Xia Wang, Brian Sangeorzan, Oakland
University, Rochester, MI, USA
Board #34: Poster IHTC14-23280
Quantitative Evaluation of Transport Properties of SOFC
Porous Anode and their effect on the Power Generation
Performance
Bharathkrishnan Muralidharan, Feroz Ahamed Iqbal
mariam, Abhilash R Menon, Venkatanagapoornima
Mynampati, Dereje Agonafer, University of Texas at Arlington,
Arlington, TX, USA, Mark Hendrix, CommScope Solutions
Inc., Richardson, TX, USA
Board #42: Poster IHTC14-22495
Masashi Kishimoto, Hiroshi Iwai, Motohiro Saito, Hideo
Yoshida, Kyoto University, Kyoto, Kyoto, Japan
Thermal Performance of an Air-Cooled Micro-Grooved Heat Sink
Potential Distribution Measurement in PEFC Electrolyte
Membrane for Membrane Degradation Analysis
Board #35: Poster IHTC14-23326
Paul Kalinowski, ATEC, Inc., College Park, MD, USA, Edvin
Cetegen, Serguei Dessiatoun, University of Maryland,
College Park, MD, USA, John Lawler, ATEC, Inc., College
Park, MD, USA
Board #43: Poster IHTC14-22510
Yuuki Okano, Masato Ooishi, Tokyo Institute of Technology,
Meguro-ku, Tokyo, Japan, Atsushi Ohma, Nissan Motors /
Tokyo Institute of Technology, Meguro-ku, Japan, Kazuyoshi
Fushinobu, Ken Okazaki, Tokyo Institute of Technology,
Meguro-ku, Tokyo, Japan
Nano-structured Two-Phase Heat Spreader for Cooling Ultra
High Heat Flux Sources
Board #36: Poster IHTC14-22765
Heat and Water Transport in a Polymer Electrolyte Fuel Cell
Electrode
Mitsuo Hashimoto, Hiroto Kasai, Kazuma Usami, Hiroyuki
Ryoson, Sony corporation, Shinagawa-ku, Tokyo, Japan,
Kazuaki Yazawa, University of Californina, Santa Cruz, Santa
Cruz, CA, USA, Suresh V. Garimella, Justin Weibel, Purdue
University, West Lafayette, IN, USA
Board #44: Poster IHTC14-22703
Partha Mukherjee, Oak Ridge National Laboratory, Oak Ridge,
TN, USA, Devesh Ranjan, Texas A&M University, College
Station, TX, USA, Rangachary Mukundan, Rod Borup, Los
Alamos National Laboratory, Los Alamos, NM, USA
Fuel Cells
Performance and Liquid Water Distribution in PEFCs with
different Anisotropic Fiber Directions of the GDL
10-1 Fuel Cells
Palladian
4:00pm - 6:00pm
Board #45: Poster IHTC14-22757
Kyaw Swar Soe Naing, Yutaka Tabe, Takemi Chikahisa,
Hokkaido University, Sapporo, Hokkaido, Japan
Session Chair: Ranga Pitchumani, Virginia Tech, Blacksburg, VA,
USA
Session Co-Chair: Shawn Litster, Carnegie Mellon University,
Pittsburgh, PA, USA
An Analysis of Heat Transfer Processes in an Internal
Indirect Reforming Type SOFC
Board #46: Poster IHTC14-22785
Modeling of Heat Transport in a Direct Methanol Fuel Cell
with Anisotropic Gas Diffusion Layers
Grzegorz Brus, Zygmunt Kolenda, AGH-University of
Science and Technology, Krakow, Poland, Shinji Kimijima,
Shibaura Institute of Technology, Saitama, Japan, Janusz
Szmyd, AGH-University of Science and Technology, Krakow,
Poland
Board #37: Poster IHTC14-22102
Ya-Ling He, Zheng Miao, Wen-Quan Tao, Xi’an Jiaotong
University, Xi’an, Shaanxi, China
Modeling on Transport Performance of Integrated-planar
Solid Oxide Fuel Cell
Computational Study of Flow Reversal for Improved Thermal
Management in a PEMFC Stack with Forced Air Convection
Cooling
Board #38: Poster IHTC14-22180
Chao Zhang, X.Z. Du, Lijun Yang, Yongping Yang, Yazhen
Hao, North China Electric Power University, Beijing, China
Board #47: Poster IHTC14-22787
Agus Pulung Sasmito, Erik Birgersson, A.S. Mujumdar,
National University of Singapore, Singapore, Singapore
65
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Micron-scale Diagnostics for through-plane Phenomena in
Porous Electrodes
Heat Transfer Equipment
Board #48: Poster IHTC14-22928
14-2 Heat Transfer Equipment 2
Katherine C. Hess, William K. Epting, Shawn Litster,
Carnegie Mellon University, Pittsburgh, PA, USA
Ambassador
4:00pm - 6:00pm
Session Chair: Masahiro Kawaji, University of Toronto, Toronto,
ON, Canada
Session Co-Chair: Angela Nieckele, PUC-Rio, Rio de Janeiro, RJ, Brazil
Cold Start Characteristics of Polymer Electrolyte Fuel Cells
Board #49: Poster IHTC14-23004
Yun Wang, USA, Irvine, CA, USA, Partha Mukherjee, Oak
Ridge National Laboratory, Oak Ridge, TN, USA, Jeff Mishler,
UCI, Irvine, CA, USA, Rangachary Mukundan, Rod Borup,
Los Alamos National Laboratory, Los Alamos, NM, USA
The Study of Calcium Carbonate Scaling on Low Energy
Surfaces
Board #57: Poster IHTC14-22058
Xiuhua Si, Calvin College, Grand Rapids, MI, USA, Xihai Tao,
Laiwu Technical College, Laiwu, Shandong, China
Transient Characteristics of Polymer Electrolyte Fuel Cell
and Hydrogen Storage Tank
Analysis of Local Heat Transfer in Direct Fired Rotary Kilns
Board #50: Poster Presentation Only IHTC14-23005
Board #58: Poster IHTC14-22086
Yun Wang, USA, Irvine, CA, USA
Fabian Herz, Otto-von-Guericke-University Magdeburg,
Magdeburg, Germany, Eckehard Specht, Otto von Guericke
University, Magdeburg, Germany, Yogesh Sonavane, Otto von
Guericke University Magdeburg, Magdeburg, Germany
Through-Plane Water Distribution in a Polymer Electrolyte
Fuel Cell at Various Operating Temperatures
Board #51: Poster Presentation Only IHTC14-23006
Yun Wang, USA, Irvine, CA, USA, Ken Chen, Sandia National
Labs, Albuquerque, NM, USA
CFD Modelling of the Gasification of Coal Particles in
Fluidised Beds
Methanol and Water Transfer Characteristics in a Passive
DMFC Using Concentrated Methanol Solution
Board #59: Poster IHTC14-22123
Board #52: Poster Presentation Only IHTC14-23078
Lindsay-Marie Armstrong, Sai Gu, Kai H. Luo, University of
Southampton, Southampton, United Kingdom
Hafez Bahrami, Amir Faghri, University of Connecticut,
Storrs, CT, USA
Discrete Investigation of Thermal Relaxation in Packed Beds
Board #60: Poster IHTC14-22200
Experimental Study of the Impact of Water on Performance
of Proton Exchange Membrane Fuel Cells (PEMFCs) with
Serpentine Gas Channels
Fabian Weigler, Mirko Peglow, Evangelos Tsotsas, Ottovon-Guericke University of Magdeburg, Magdeburg, Germany
Heat and Mass Transfer of Drying Particles in a Fluidized Bed
Board #53: Poster Presentation Only IHTC14-23104
Board #61: Poster IHTC14-22292
Calvin Li, The University of Toledo, Toledo, OH, USA,
Karthikeyan Palaniswamy, University of Toledo, Toledo, OH,
USA
Jorn Bruchmuller, Sai Gu, University of Southampton,
Southampton, Hamshire, United Kingdom
Two-phase Flow in Anode Serpentine Flow Field of a Direct
Methanol Fuel Cell
Effect of Metallic Ion on the Formation of Calcium Carbonate
Fouling
Board #54: Poster IHTC14-23130
Board #62: Poster IHTC14-22312
Yong Zou, Liang Zhao, Shandong University, Jinan, China,
Gongming Xin, Institute of Thermal Science and Technology,
Shandong University, Jinan, Shandong, China, Lin Cheng,
Shandong University, Jian, Shandong Province, China
Fang Ye, Hang Guo, Chongfang Ma, Beijing University of
Technology, Beijing, China
Thermal and Electrochemical Cell Design and its
Experimental Assessment for Micro SOFC System
Effect of Surface Conditions on the Adhesion of
Crystallization Fouling
Board #55: Poster IHTC14-23182
Satoshi Usui, Mina Nishi, Nobuhide Kasagi, Naoki
Shikazono, The University of Tokyo, Tokyo, Japan
Board #63: Poster IHTC14-22313
Yong Zou, Yida Liu, Shandong University, Jinan, China,
Gongming Xin, Institute of Thermal Science and Technology,
Shandong University, Jinan, Shandong, China, Wen Liu,
Shandong University, Jinan, China, Lin Cheng, Shandong
University, Jian, Shandong Province, China
Design of a Climate Chamber to Study Transient
Performance of a Proton Exchange Membrane Fuel Cell at
Near Freezing Temperatures
Board #56: Poster IHTC14-23291
Daniel Cassar, Xia Wang, Oakland University, Rochester, MI,
USA
Applications of Pulsed Spark Discharge for Mitigation of
Mineral Fouling in a Heat Exchanger
Board #64: Poster IHTC14-22392
Yong Yang, Hyoungsup Kim, Jin M. Jung, Alex Fridman,
Young I. Cho, Drexel University, Philadelphia, PA, USA
An Improved Generalized Model for Predicting Frost Growth
on a Cold Flat Plate
Board #65: Poster IHTC14-22492
Wei Wang, Beijing University of Technology, Beijing, China
66
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Analysis of Fouling Characteristic in Enhanced Tubes Using
Multiple Analogies
Melting and Solidification
Board #66: Poster IHTC14-22529
16-1 Melting/Solidification
Wei Li, Guanqiu Li, Zhengjiang Zhang, Zhejiang University,
Hangzhou, China, Yang Shan-rang, Northeast Dianli
University, China, Jilin, Jilin City, Jilin Province, China, Zhiming
Xu, Northeast China Dianli University, Jilin City, Jilin Province,
China
Diplomat
4:00pm - 6:00pm
Session Chair: Vincent Sobotka, Polytech’Nantes - Laboratoire
de Thermocinétique de Nantes, Nantes, France (Metro)
Session Co-Chair: Youhei Takagi, Shizuoka University,
Hamamatsu, Shizuoka, Japan
Heat Transfer Enhancement in the Chain Section of a Rotary
Lime Kiln
Research on Heat Transfer of Phase Change Consider
Natural Convection Influence
Board #67: Poster IHTC14-22531
Board #75: Poster Presentation Only IHTC14-22043
Michael Massad, Samer Hassan, Masahiro Kawaji, Honghi
Tran, University of Toronto, Toronto, ON, Canada
Lin Qiu, Beijing University of Civil Engineering and
Architecture, Beijing, China
An Experimental Investigation of the Effect of Solid Particles
Ingestion in a Fluidized Bed Heat Exchanger
Numerical Model of Heat Transfer and Mass Transfer during
the Solidification of a Concasting Steel
Board #68: Poster Presentation Only IHTC14-22627
Board #76: Poster Presentation Only IHTC14-22372
Sheikh Islam, Robert Gordon University, Aberdeen, United
Kingdom, Ebenezer Adom, The Robert Gordon University,
Aberdeen, United Kingdom, Y.D. Jun, Kum Bae Lee, Kongju
National University, Chungnam, Korea (Republic)
Josef Stetina, Frantisek Kavicka, Tomas Mauder, Brno
University of Technology, Brno, Czech Republic
Numerical Simulation of Temperature Field in Multi-pass
Compound Groove Weld for High Strength Pipeline Steel X80
Study on Biocorrosion Induced by Sulfate-Reducing Bacteria
on Heat Exchanger Material in Cooling Water
Board #77: Poster IHTC14-22516
Lige Tong, Qilan Kang, University of Science and Technology
Beijing, Beijing, China, Li Wang, School of Mechanical
Engineering, University of Science and Technology Beijing,
Beijing, China, Yongli Sui, Shiwu Bai, Pipeline Research
Institute of China National Petroleum Corporation, Langfang,
China
Board #69: Poster IHTC14-22747
Hong Men, Yan Peng, Jing Zhang, Northeast Dianli
University, Jilin, China, Zhiming Xu, Northeast China Dianli
University, Jilin City, Jilin Province, China, Yang Shan-rang,
Northeast Dianli University, China, Jilin, Jilin City, Jilin Province,
China
A Precise Prediction Method of Cooling Water Fouling
Characteristic Parameters and Experimentation
Simulation of Forced Convection Ice Slurry Flow in a Heated
Tube
Board #70: Poster Presentation Only IHTC14-22780
Board #78: Poster IHTC14-22633
Hamed Trabelsi, Ecole Nationale D’Ingénieur de Monastir,
Monastir, Tunisia, Nicolas Galanis, Université de Sherbrooke,
Sherbrooke, QC, Canada, Jamel Orfi, King Saud University,
Riyadh, Saudi Arabia
Yang Shan-rang, Northeast Dianli University, China, Jilin, Jilin
City, Jilin Province, China
The Influence of Rheological Parameters in Wax Deposition
in Channel Flow
Parametric Model for the Analyical Determination of the
Solidification and Cooling Times of Semi-Crystalline Polymers
Board #71: Poster IHTC14-22952
Luis Renato Minchola, PUC-Rio, Rio de Janeiro, RJ, Brazil,
Luis Fernando Azevedo, PUC/Rio, Rio de Janeiro, RJ, Brazil,
Angela Nieckele, PUC-Rio, Rio de Janeiro, RJ, Brazil
Board #79: Poster IHTC14-22663
Vincent Sobotka, Nicolas Boyard, Polytech’Nantes Laboratoire de Thermocinétique de Nantes, Nantes, France
(Metro), Didier Delaunay, University of Nantes, Nantes, France
Simulation of Char Dust Combustion inside a Pyroscrubber
Downstream of a Petroleum Coke Calcining Kiln
Cluster Mechanism of New Phase Formation on a Surface of
Solid-state Body
Board #72: Poster IHTC14-23053
Lei Zhao, Ting Wang, University of New Orleans, New
Orleans, LA, USA
Board #80: Poster IHTC14-22852
Boris Egorov, Moscow Institute of Physics and Technology
(State University), Zhukovskiy, Moscow Region, Russia,
Alexander Geliev, TSAGI - Central Aerohydrodynamics
Institute, Zhukovskiy, Moscow Region, Russia, Xuan Doanh
Do, Moscow Institute of Physics and Technology (State
University), Zhukovskiy, Moscow Region, Russia, Yuri
Markachev, TSAGI - Central Aerohydrodynamics Institute,
Zhukovskiy, Moscow Region, Russia, Dmitriy Shogin, Moscow
Institute of Physics and Technology (State University),
Zhukovskiy, Moscow Region, Russia
Validation of a Novel Model for Shell and Tube Heat
Exchangers Undergoing Crude Oil Fouling
Board #73: Poster IHTC14-23158
Francesco Coletti, Sandro Macchietto, Imperial College
London, London, United Kingdom
Computer Simulation of Drying of Food Products with
Superheated Steam in a Rotary Kiln
Board #74: Poster IHTC14-23201
Koustubh Sinhal, Partha Ghoshdastidar, Bhaskar
Dasgupta, Indian Institute of Technology Kanpur, Kanpur, Uttar
Pradesh, India
Stability of Solutal Convection during the Solidification of
Binary Alloys in Cylindrical Crucibles
Board #81: Poster Presentation Only IHTC14-23007
Saneshan Govender, Isaac Blou, Eskom Pty Ltd,
Johannesburg, South Africa
67
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
A Numerical Simulation Study on the Effects of Crucible
Rotation and Magnetic Fields in Growth of SiGe by the
Travelling Heater Method
A Correlation for Nusselt Number under Turbulent Mixed
Convection using Transient Heat Transfer Experiments
Board #89: Poster IHTC14-22428
Board #82: Poster IHTC14-23025
Chakravarthi Balaji, Gnanasekaran N, Indian Institute of
Technology Madras, Chennai, Tamil Nadu, India
Youhei Takagi, Atsuko Ishida, Shizuoka University,
Hamamatsu, Shizuoka, Japan, Yasunori Okano, Osaka
University, Toyonaka, Osaka, Japan, Sadik Dost, University of
Victoria, Victoria, BC, Canada
A Numerical Study of Laminar and Turbulent Mixed
Convective Flow over a Vertical Isothermal Plate
Board #90: Poster IHTC14-22448
Columnar Equiaxed Structure Transition in Solidifying Rolls
Patrick H. Oosthuizen, Dept. of Mechanical and Materials
Engineering, Queen’s University, Kingston, ON, Canada
Board #83: Poster IHTC14-23048
Waldemar Wolczynski, Institute of Metallurgy and Materials
Science, Krakow, Poland, Edward Guzik, AGH University of
Science and Technology, Krakow, Poland, Wojciech Wajda,
Institute of Metallurgy and Materials Science, Krakow, Poland,
Bogusz Kania, AGH University of Science and Technology,
Krakow, Poland
Application of a Similarity Theory Including Variable Property
Effects to a Complex Benchmark Problem
Board #91: Poster IHTC14-22457
Yan Jin, Heinz Herwig, Technical University HamburgHarburg, Hamburg, Germany
Experimental Study on Thermal Performance of Mixed
Nitrate and Carbonate Salts
A Second Law Analysis of Mixed Convection in a Plane
Channel Based on DNS Results
Board #84: Poster IHTC14-23081
Board #92: Poster Presentation Only IHTC14-22619
Petar Kis, Hamburg University of Technology, TUHH,
Hamburg, Germany, Heinz Herwig, TU Hamburg-Harburg,
Hamburg, Germany
Wu Yu-Ting, Ren Nan, Chongfang Ma, Wang Tao, Beijing
University of Technology, Beijing, China
Natural/Mixed Convection
21-1 Mixed Convection
Opposing Mixed Convection Heat Transfer in the Inclined
Flat Channel in a Laminar-Turbulent Transition Region
Diplomat
Board #93: Poster IHTC14-22871
4:00pm - 6:00pm
Povilas Poskas, Robertas Poskas, Giedrius Drumstas,
Lithuanian Energy Institute, Kaunas, Lithuania
Session Chair: Patrick, H. Oosthuizen, Dept. of Mechanical and
Materials Engineering, Queen’s University, Kingston, ON, Canada
Session Co-Chair: Kevin Farrell, Heat Transfer Research, Inc.,
College Station, TX, USA
Laminar Mixed Convection Pressure Drop in Vertical Ducts
Board #94: Poster IHTC14-22923
Carl-Olof Olsson, ABB AB, Västerås, Sweden
Network Numerical Simulation of Marangoni Mixed
Convection in Presence of a Magnetic Field
Mixed Convection in Vertical Tubes: High Reynolds Number
Board #85: Poster Presentation Only IHTC14-22211
Board #95: Poster IHTC14-23266
Joaquin Zueco, Universidad Politécnica de Cartagena,
Cartagena, Murcia, Spain, O. Anwar Bég, Sheffield Hallam
University, Sheffield, United Kingdom
LiDong Huang, Kevin Farrell, Heat Transfer Research, Inc.,
College Station, TX, USA
Formation of a Counter-rotating Vortex Pair in a Plume in a
Cross-flow
Characterization of a Wavy Convective Instability in PoiseuilleRayleigh-Bénard Flows: Linear Stability Analysis and Non
Linear Numerical Simulations under Random Excitations
Board #96: Poster IHTC14-23283
Masahiko Shinohara, National Research Institute of Fire and
Disaster, Chofu, Tokyo, Japan
Board #86: Poster IHTC14-22256
Xavier Nicolas, Université Paris Est Marne la Vallée, Marne la
Vallée Cedex, France, Shihe Xin, Cethil, UMR 5008 / Insa-Lyon,
Dépt. GEN, Villeurbanne Cedex, France, Noussaiba Zoueidi,
Université Paris Est Marne la Vallée, Marne La Vallée Cedex, France
Spray Cooling
27-1 Spray Cooling
Palladian
Experimental and 3D Numerical Investigation of BuoyancyDriven Instabilities around a Heated Horizontal Square
Cylinder within an Enclosure
4:00pm - 6:00pm
Session Chair: Jorge E. Gonzalez, City College of New York, New
York, NY, USA
Session Co-Chair: Denis Maillet, CNRS & Nancy-Université,
Vandoeuvre, France
Board #87: Poster IHTC14-22259
Gillian Leplat, Onera / DMAE, Toulouse - Cedex 4, France, Yann
Fraigneau, LIMSI - CNRS UPR 3251, Orsay Cedex, France,
Patrick Le Quéré, LIMSI-CNRS, ORSAY, France (Metro), Philippe
Reulet, Pierre Millan, ONERA - DMAE, Toulouse - Cedex 4, France
Atomization of Superheated Water
Board #97: Poster IHTC14-22201
Zeigarnik Yury, Vladimir L. Nizovskii, Valery I. Zalkind, Lev
V. Nizovskii, Joint Institute of High Temperatures RAS,
Moscow, Moscow, Russia, Dmitrii V. Marinichev, Joint
Institute of High Temperatures, Moscow, Russia
Effect of Moisture Transport on Mixed Convection in Vertical
Annulus of a Heated Clothed Vertical Wet Cylinder in
Uniform Cross Wind
Board #88: Poster IHTC14-22342
Nesreen Ghaddar, Kamel Ghali, American University of
Beirut, Beirut, Lebanon
68
WEDNESDAY, AUGUST 11
TECHNICAL
SESSIONS
Experimental and Numerical Analysis of Droplet Cooling
Numerical Simulation of Heat Transfer Mechanisms in Spray
Cooling
Board #98: Poster IHTC14-22217
Board #107: Poster IHTC14-22709
Paolo Tartarini, Mauro A. Corticelli, Dipartimento di Ingegneria
Meccanica e Civile, Università degli Studi di Modena e Reggio
Emilia, Modena, Italy, Paolo E. Santangelo, DIMeC, Università
degli Studi di Modena e Reggio Emilia, Modena, Italy
Eelco Gehring, University Avenue, Madison, WI, USA, Mario
F. Trujillo, University of Wisconsin-Madison, Madison, WI, USA
Heat Transfer during Drop Impact onto Wetted Heated
Smooth and Structured Substrates: Experimental and
Theoretical Study
Inverse Conduction Technique in Hankel Domain using
Infrared Thermography: Application to Droplet Stream
Quenching a Metal Disk
Board #108: Poster IHTC14-22769
Board #99: Poster IHTC14-22275
Tatiana Gambaryan-Roisman, Mete Budakli, Ilia V.
Roisman, Peter Stephan, Technische Universität Darmstadt,
Darmstadt, Germany
Franck Lelong, LEMTA, Nancy-Université & CNRS and IRSN,
Vandoeuvre-lès-Nancy, France (Metro), Michel Gradeck,
LEMTA, Nancy-Université & CNRS, 54504 Vandoeuvre-lèsNancy, France, Benjamin Remy, LEMTA, Nancy-Université,
CNRS, Vandoeuvre-lès-Nancy, France (Metro), Aboubacar
Ouattara, LEMTA, Nancy-Université & CNRS, Vandoeuvre-lèsNancy, France (Metro), Denis Maillet, CNRS & NancyUniversité, Vandoeuvre, France
Characteristics of Wetting Temperature and Maximum Heat
Flux during Spray Cooling of Hot Surface
Board #109: Poster IHTC14-22795
Yuichi Mitsutake, Masanori Monde, Saga University, Saga,
Japan
Numerical Simulation of Droplet Impact on an Isothermal
Micro-grooved Solid Surface
Time Averaged and Fluctuating Heat Transfer Measurements
in an Atomising Mist Impinging Jet Nozzle
Board #100: Poster IHTC14-22421
Board #110: Poster IHTC14-22829
Oisín Fergal Lyons, Dept. of Mechanical Engineering, Trinity
College, Dublin, Ireland, Tim Persoons, Darina B. Murray,
Trinity College Dublin, Dublin, Ireland
Yujia Tao, Xiulan Huai, Zhigang Li, Institute of Engineering
Thermophysics, Chinese Academy of Sciences, Beijing, China
Atomization and Droplet Dispersion of Low-momentum
Water Jet by High-Speed Crossflow Air Stream
Experimental Investigation of Influence of Dissolved Salts
and Surfactant on Heat Transfer in Atomized Spray
Quenching of Metal
Board #101: Poster IHTC14-22506
Cuicui Liu, Zeyi Jiang, University of Science & Technology
Beijing, Beijing, China, Huafei Liu, Baoshan Iron & Steel Co.,
Ltd, Shanghai, China, Xinxin Zhang, University of Science and
Technology Beijing, Beijing, China, Shunhua Xiang, Baoshan
Iron & Steel Co., Ltd, Shanghai, China
Board #111: Poster IHTC14-22873
Umair Alam, Otto-von-Guericke University of Magdeburg,
Magdeburg, Sachsen Anhalt, Germany, Khalid Abdalrahman,
Otto-von Guericke University, Magdeburg, Germany, Eckehard
Specht, Otto von Guericke University, Magdeburg, Germany
Experimental Characterization of Single and Multiple Droplet
Impingement on Surfaces Subject to Constant Heat Flux
Conditions
Study of Thermal Construction Phenomena for Drops
Spreading Encountered during Plasma Spraying Processes
Board #102: Poster IHTC14-22515
Board #112: Poster IHTC14-23141
Najib Laraqi, Université Paris 10, Ville dAvray, France,
Mohammed El Ganaoui, Université de Limoges, Limoges,
France, Victoria Timchenko, The University of New South
Wales, Sydney, Australia
Guillermo Soriano, J.L. Alvarado, Yen Po Lin, Texas A&M
University, College Station, TX, USA
Numerical Simulation of the Injection of Solution Sprays into
a Plasma Jet
Heat Transfer during Drop Impact onto a Heated Solid
Substrate
Board #103: Poster IHTC14-22542
Yanguang Shan, Y Hu, X Qi, University of Shanghai for
Science and Technology, Shanghai, China
Board #113: Poster IHTC14-23202
Ana Moita, António Luis Moreira, Instituto Superior Técnico
Centre for Innovation, Technology and Policy Research, IN,
Lisboa, Portugal, Ilia V. Roisman, Technische Universität
Darmstadt, Darmstadt, Germany
Effect of Water Temperature on Spray Cooling Heat Transfer
on Hot Steel Plate
Board #104: Poster IHTC14-22544
Jungho Lee, Cheong-Hwan Yu, Sang-Jin Park, Korea
Institute of Machinery and Materials, Daejeon, Korea (Republic)
Experimental Investigation of Low Weber Number PostImpact Drop Spreading on Solid Substrates
Numerical Simulation of Droplet Impact and Solidification
Including Thermal Shrinkage in a Thermal Spray Process
Board #114: Poster IHTC14-23251
Milind Jog, Raj M. Manglik, University of Cincinnati,
Cincinnati, OH, USA
Board #105: Poster IHTC14-22583
Sina Alavi, Mohammad Passandideh-Fard, Ferdowsi
University of Mashhad, Mashhad, Razavi Khorasan, Iran
Heat Flux Relation to Film Volume in Mono Dispersed Sprays
Board #115: Poster Presentation Only IHTC14-23261
Effect of Superhydrophobicity on Impinging Droplet Heat
Transfer
Sergio Escobar, Santa Clara University, Santa Clara, CA, USA,
Jorge E. Gonzalez, City College of New York, New York, NY,
USA, Drazen Fabris, Santa Clara University, Santa Clara, CA,
USA, Ratnesh K. Sharma, Cullen E. Bash, Hewlett Packard
Laboratories, Palo Alto, CA, USA
Board #106: Poster IHTC14-22708
Gary Rosengarten, Rita Tschaut, University of NSW, Sydney,
NSW, Australia
69
WEDNESDAY, AUGUST 11 / THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Enhancement of Heat Transfer with Pool and Spray Impingement
Boiling on Microporous and Nanowire Surface Coatings
Heater Size and Orientation Effect on Pool Boiling of FC-72
Board #7: Poster IHTC14-22682
Board #116: Poster IHTC14-23284
Rishi Raj, Jungho Kim, University of Maryland, College Park,
MD, USA, John McQuillen, William Sheredy, NASA Glenn
Research Center, Cleveland, OH, USA, Wendell Booth,
James Charpie, Jeffrey Eggers, Gregory Funk, Justin Funk,
Russell Valentine, Zin Technologies, Cleveland, OH, USA
Sreekant Narumanchi, National Renewable Energy Laboratory,
Golden, CO, USA, Suraj Thiagarajan, University of Colorado
Boulder, Boulder, CO, USA, Charles King, National Renewable
Energy Laboratory, Golden, CO, USA, Ronggui Yang, University
of Colorado at Boulder, Boulder, CO, USA, Wei Wang, University
of Colorado Boulder, Boulder, CO, USA
Enhanced Heat Transfer for Boiling of a Refrigerant on a
Micro-Structured Cylindrical Surface and Effect of
Saturation Temperature
Modeling of Liquid Sprays and Thermal Mixing in
Desuperheating Applications
Board #8: Poster IHTC14-22735
Board #117: Poster IHTC14-22877
Tailian Chen, Gonzaga University, Spokane, WA, USA
Jian Gao, University Avenue, Madison, WI, USA, Mario F.
Trujillo, University of Wisconsin-Madison, Madison, WI, USA
Heat Transfer Enhancement Observed in Nucleate Boiling of
Alcohol Aqueous Solutions at Very Low Concentration
Board #9: Poster IHTC14-22737
THURSDAY, AUGUST 12
Takashi Sakai, Shinsaku Yoshii, Kazutohsi Kajimoto,
Hiroyuki Kobayashi, Yasuhisa Shinmoto, Haruhiko Ohta,
Kyushu University, Fukuoka, Fukuoka-ken, Japan
POSTER SESSION 6: 8:00am – 10:00am
Boiling Heat Transfer
Effect of Coating Layer Thickness for Pool Boiling Heat
Transfer on Vertical Micro Porous Coated Surface in
Confined Space
2-2 Pool Boiling
Ambassador
8:00am - 10:00am
Board #10: Poster IHTC14-22768
Chien-Yuh Yang, National Central University, Chung-Li,
Taiwan, Taiwan
Session Chair: Yogendra Joshi, Georgia Institute of Technology,
Atlanta, GA, USA
Session Co-Chair: Mohamed El-Genk, Chemical and Nuclear
Engineering Dept., Albuquerque, NM, USA
Heat Transfer Enhancement from a Circular Cylinder to
Distilled Water by Ultrasonic Waves at Different Subcooling
Degrees
Pool Boiling Characteristics of Heat Transfer Surface with
Micro Structures Created by using MEMS Technology
Board #11: Poster IHTC14-22773
Carlo Bartoli, Federica Baffigi, University of Pisa, Pisa, Italy
Board #1: Poster IHTC14-22087
Yasuo Koizumi, Shinshu University, Ueda-shi, Japan, Hiroyasu
Ohtake, Takato Sato, Kogakuin University, Hachioji-shi, Japan
Study on Heat Transfer Mechanism of Isolated Bubble
Nucleate Boiling with MEMS Sensors
Board #12: Poster IHTC14-22794
Saturation and Subcooled Boiling on Copper NanoDendrites Surfaces
Tomohide Yabuki, Osamu Nakabeppu, Meiji University,
Kawasaki, Japan
Board #2: Poster IHTC14-22108
Mohamed El-Genk, Chemical and Nuclear Engineering Dept.,
Albuquerque, NM, USA
Pool Nucleate Boiling of Acetone and Acetone/Ethanol
Mixtures on Magnesium Alloy Surface
Board #13: Poster IHTC14-22840
Effect of Cell Size of a Honeycomb Porous Plate Attached to
a Heated Surface on CHF in Saturated Pool Boiling
Xiao Yang, Yuying Yan, University of Nottingham, Nottingham,
United Kingdom
Board #3: Poster IHTC14-22349
Shoji Mori, Lujie Shen, Kunito Okuyama, Yokohama National
University, Yokohama, Japan
Heat Transfer Mechanisms of R134a and Propane Boiling on
Horizontal Steel Tubes with Enhanced Surface Structures
Study of Flow Instabilities in a Natural Circulation Boiling System
Board #14: Poster IHTC14-22887
Andrea Luke, Björn C.F. Müller, Institute of Thermodynamics,
Hannover, Germany
Board #4: Poster IHTC14-22603
Kazem Arrdaneh, Researcher Assistant, Tehran, Iran, Salman
Zaferanlouei, Mohsen Farahi, Amirkabir University of
Technology, Tehran, Iran, Asadallah Ahmadi, Payam Noor
University of Abdanan, Abdanan, Iran
Non-Linear Dynamical Analyses of Surface Temperature
Data using Temperature Nano-Sensor during Pool Boiling
Experiments
Microscale Heat Transfer Measurements during Subcooled
Pool Boiling of Pentane: Effect of Bubble Dynamics
Board #15: Poster IHTC14-22921
Vijay Sathyamurthi, Debjyoti Banerjee, Texas A&M
University, College Station, TX, USA
Board #5: Poster IHTC14-22657
Payam Delgoshaei, Jungho Kim, University of Maryland,
College Park, MD, USA
Pool Boiling of Mixtures for Electronics Thermal
Management
The Influence of External Electric Field on Heat Transfer at
Boiling on Non-uniform Surfaces
Board #16: Poster IHTC14-22950
Aravind Sathyanarayana, Yogendra Joshi, Yunhyeok Im,
Georgia Institute of Technology, Atlanta, GA, USA
Board #6: Poster IHTC14-22664
Alexey Eronin, Stanislav Malyshenko, Anton Zhuravlev,
Joint Institute for High Temperatures RAS, Moscow, Russia
70
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Condensate Drop Movement on Heat Transfer Surface with
Bulk Temperature Gradient in Marangoni Dropwise
Condensation
Pool Boiling Heat Transfer Coefficients of the Dowtherm A and
Dowtherm J on Smooth and Roughened Vertical Heater Surfaces
Board #17: Poster IHTC14-23072
Board #26: Poster IHTC14-22196
Ziad Nahra, Erling Næss, Norwegian University of Science
and Technology, Trondheim, Norway, Martin Løvland, Parat
Halvorsen AS, Flekkefjord, Norway
Yoshio Utaka, Chen Zhihao, Yokohama National University,
Yokohama, Kanagawa, Japan
Enhanced Pool Boiling Heat Transfer on Particle Sintered
Porous Medium
Dropwise Condensation Heat Transfer on Superhydrophobic
Surfaces in the Presence of Non-condensable Gas
Board #18: Poster Presentation Only IHTC14-23108
Board #27: Poster IHTC14-22248
Calvin Li, The University of Toledo, Toledo, OH, USA
Xuehu Ma, Sifang Wang, Zhong Lan, Aili Wang, Benli Peng,
Institute of Chemical Engineering, Dalian University of
Technology, Dalian, Liaoning Province, China
Nucleate Boiling Performance of Azeotropic Binary Mixtures
in a Saturate Pool Boiling System
A Droplet Model in Dropwise Condensation with the
Presence of Non-condensable Gases
Board #19: Poster IHTC14-23145
Kunihito Matsumura, Ibaraki University, Hitachi, Ibaraki, Japan,
Fumito Kaminaga, Japan/Ibaraki University, Hitachi, Japan
Board #28: Poster IHTC14-22249
Zhong Lan, Aili Wang, Benli Peng, Sifang Wang, Xuehu Ma,
Institute of Chemical Engineering, Dalian University of
Technology, Dalian, China
Investigation of Duration-Dependent Multifactoring during
Boiling on Down-Facing Heating Surface
Board #20: Poster IHTC14-23386
Effect of Vapour Velocity on Film Condensation Heat
Transfer: Vapour Downflow on a Horizontal Tube
Irakli G. Shekriladze, Giorgi I. Gigineishvili, Jondo G. Rusishvili,
David I. Shekriladze, Georgian Technical University, Tbilisi, Georgia
Board #29: Poster IHTC14-22254
Condensation
Claire L. Fitzgerald, Queen Mary, University of London,
London, United Kingdom, Adrian Briggs, London University,
London, United Kingdom, Huasheng Wang, John W. Rose,
Queen Mary, University of London, London, United Kingdom
5-1 Condensation 1
Palladian
8:00am - 10:00am
The New Method for Simulation of Bulk Condensation of
Supersaturated Vapor
Session Chair: Srinivas Garimella
Session Co-Chair: Alfred Leipertz, Lehrstuhl für Technische
Thermodynamik, Universität Erlangen-Nürnberg, Erlangen, Germany
Board #30: Poster IHTC14-22255
Naum Kortsenshteyn, Krzhizhanovsky Power Engineering
Institute, Moscow, Russia, Arseniy Yastrebov, Moscow Power
Engineering Institute, Moscow, Russia
New Experimental Data for Condensation Of Ethylene Glycol
On Enhanced Pin-Fin Tubes
Board #21: Poster IHTC14-22110
Influence of NI-P Coating Microstructure on Condensation
Heat Transfer
Adrian Briggs, London University, London, United Kingdom,
Hafiz M Ali, Hassan Ali, Queen Mary, University of London,
London, United Kingdom
Board #31: Poster IHTC14-22316
Lin Cheng, Shandong University, Jian, Shandong Province,
China, Yanhai Cheng, China University of Mining and
Technology, Xuzhou, China, Gongming Xin, Institute of
Thermal Science and Technology, Shandong University, Jinan,
Shandong, China, Yong Zou, Shandong University, Jinan,
China
Experimental Study on the Origin of Dropwise Condensation
of Steam on Ion Implanted Metallic Surfaces
Board #22: Poster IHTC14-22147
Michael H. Rausch, Alfred Leipertz, Andreas Paul Fröba,
Institute of Engineering Thermodynamics (LTT), University of
Erlangen-Nuremberg, Erlangen, Germany
Experimental Investigation on Condensation Heat Transfer
of R417A Outside Horizontal Enhanced Tubes
Mechanism of Dropwise Condensation on Ion Implanted
Metallic Surfaces
Board #32: Poster Presentation Only IHTC14-22344
Board #23: Poster IHTC14-22149
Xinping Ouyang, University of Shanghai for Science and
Technology, Shanghai, China, Guomei Wu, Shanghai Institute
of Industrial Boiler, Shanghai, China, Jie Sun, Shanghai Yu Na
Mechanical Sci-Tech Co., Ltd., Shanghai, China, Chuanlin Jia,
University of Shanghai for Science and Technology, Shanghai,
China
Michael H. Rausch, Alfred Leipertz, Andreas Paul Fröba,
Institute of Engineering Thermodynamics (LTT), University of
Erlangen-Nuremberg, Erlangen, Germany
Horizontal Tube Side Convective Condensation under an
Applied DC Voltage
Vapor Condensation at Sudden Contact with Cold Liquid in
Strong Non-equilibrium Conditions
Board #24: Poster Presentation Only IHTC14-22158
Hossam Sadek, James Cotton, Chan Ching, McMaster
University, Hamilton, ON, Canada
Board #33: Poster IHTC14-22625
Alexei Kryukov, Arseniy Yastrebov, Moscow Power
Engineering Institute, Moscow, Russia
The Importance of Drainage in Dropwise Condensation from
Flowing Air-Steam Mixtures
Board #25: Poster IHTC14-22189
Mart Grooten, Cees van der Geld, Eindhoven University of
Technology, Eindhoven, Netherlands
71
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Droplets on Micro Structured or Patterned Surfaces with
Different Roughness Parameters
The Application of Entransy Dissipation Theory in the
Volume-to-point Heat Conduction Problem
Board #34: Poster IHTC14-22850
Board #42: Poster IHTC14-22271
Yuying Yan, Yingqing Zu, University of Nottingham,
Nottingham, United Kingdom, Changqing Tian, Technical
Institute of Physics and Chemistry, Chinese Academy of
Sciences (CAS), Beijing, China, Nan Gao, University of
Nottingham, Nottingham, United Kingdom
Liang Ge, Shandong University, Jinan, Shandong, China,
Mingtian Xu, Lin Cheng, Shandong University, Jian,
Shandong Province, China
Influence of Surface Roughness on Contact Heat Transfer
Board #43: Poster IHTC14-22288
Dropwise Condensation Life Testing of Self Assembled
Monolayers
Victor Ustinov, Institute of Heat and Mass Transfer/RWTH
Aachen University, Aachen, Germany, Faruk Al-Sibai,
Reinhold Kneer, Institute of Heat and Mass Transfer, Aachen,
Germany, Sebastian Schulz, Essam El-Magd, Institute for
Materials Applications in Mechanical Engineering/RWTH
Aachen University, Aachen, Germany
Board #35: Poster IHTC14-22936
Richard Bonner, Advanced Cooling Technologies, Inc.,
Lancaster, PA, USA
Numerical Analysis of Unteady Refrigerant Fluid Flow in
Wire-and-tube Condensers
Thermal Conductivity of Biomorphic Porous SiC Based
Ceramics
Board #36: Poster Presentation Only IHTC14-23049
Board #44: Poster IHTC14-22341
André Luiz Seixlack, Rafael Sene de Lima, São Paulo State
University - UNESP, Ilha Solteira, São Paulo, Brazil
Nadejda Popovska, Emad Alkhateeb, Tanja Kugler,
University Erlangen-Nuremberg, Erlangen, Germany, Andreas
Paul Fröba, Institute of Engineering Thermodynamics (LTT),
University of Erlangen-Nuremberg, Erlangen, Germany, Alfred
Leipertz, Lehrstuhl für Technische Thermodynamik, Universität
Erlangen-Nürnberg, Erlangen, Germany
Conduction
6-1 Conduction
Ambassador
8:00am - 10:00am
Mass Nature of Heat and Its Applications IV: Thermal Wave
and Periodic Temperature Oscillation in Metallic Films
Heated by Ultra-Short Pulsed Lasers
Session Chair: Xing Zhang, Tsinghua University, Beijing, Beijing,
China
Session Co-Chair: Ashley Emery, University of Washington,
Seattle, WA, USA
Board #45: Poster IHTC14-22368
Haidong Wang, Tsinghua University, Beijing, China, Weigang
Ma, Tsinghua Univerisity, Beijing, China, Xing Zhang, Tsinghua
University, Beijing, Beijing, China, Wei Wang, Peking
University, Beijing, China
The Wave Propagation Equation of Heat Conductive in
Crystal
Board #37: Poster IHTC14-22026
Weimin Huang, College of Power Engineering, University of
Shanghai for Science and Technology, Shanghai, Shanghai,
China
Mass Nature of Heat and Its Applications I: Motion of
Thermomass Fluid and General Heat Conduction Law
Board #46: Poster IHTC14-22505
Gaseous Conductivity Study on Silica Aerogel and Its
Composite Insulation Materials
Zeng-Yuan Guo, Bing-Yang Cao, Tsinghua University, Beijing,
Beijing, China
Board #38: Poster IHTC14-22099
Mass Nature of Heat and Its Applications II: Non-Fourier
Heat Conduction in Carbon Nanotubes
Gaosheng Wei, North China Electric Power University, Beijing,
China, Yusong Liu, Energy Department of Beijing Sustainable
Development Centre, Beijing, China, X.Z. Du, North China
Electric Power University, Beijing, China, Xinxin Zhang,
University of Science and Technology Beijing, Beijing, China
Board #47: Poster IHTC14-22507
Bing-Yang Cao, Tsinghua University, Beijing, Beijing, China,
Quan-Wen Hou, Tsinghua University, Beijing, Beijing, China
Explosive Crystallization in Thin Amorphous Layers on Heat
Conducting Substrates
Integral Transforms, Bayesian Inference, and Infrared
Thermography in the Simultaneous Identification of Variable
Thermal Conductivity and Diffusivity in Heterogeneous
Media
Board #39: Poster IHTC14-22187
Christoph Buchner, Wilhelm Schneider, Vienna University of
Technology, Vienna, Austria
Board #48: Poster IHTC14-22511
Carolina P. Naveira-Cotta, Helcio Rangel Barreto Orlande,
Renato M. Cotta, Federal University of Rio de Janeiro, Rio de
Janeiro, RJ, Brazil, Jeziel S. Nunes, Instituto Nacional de
Propriedade Industrial, Rio de Janeiro, RJ, Brazil
Numerical Determination of the Temperature Dependent
Thermophysical Properties in Solid Materials: Experimental
Instrumentation
Board #40: Poster IHTC14-22210
Influence of Fiber Orientation and Aspect Ratio on the
Effective Conductivity of Parallelepipedonal-Cell Short-Fiber
Composites
Joaquin Zueco, Universidad Politécnica de Cartagena,
Cartagena, Murcia, Spain, O. Anwar Bég, Sheffield Hallam
University, Sheffield, United Kingdom
Board #49: Poster IHTC14-22675
Ballistic-diffusive Heat Conduction Model
Juliana S. Bezerra, Manuel E. Cruz, Federal University of Rio
de Janeiro-UFRJ/COPPE/PEM, Rio de Janeiro, RJ, Brazil,
Carlos F. Matt, Electric Power Research Center-CEPEL, Rio
de Janeiro, RJ, Brazil
Board #41: Poster IHTC14-22243
Mingtian Xu, Lin Cheng, Shandong University, Jian,
Shandong Province, China
72
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
On Uncertainty and Local Sensitivity Analysis For SteadyState Conjugate Heat Transfer Problems
The Experimental and Numerical Liquid Metal Heat Transfer
Investigations Applied to Fusion Reactor
Board #50: Poster IHTC14-22859
Board #57: Poster IHTC14-22369
Christian Rauch, Virtual Vehicle Research and Test Center
(ViF), Graz, Austria, Raimund Almbauer, Graz University of
Technology, Institute for Internal Combustion Engines, Graz,
Austria
Valentin Sviridov, Moscow Power Engineering Institute
(MPEI), Moscow, Russia, Nikita G. Razuvanov, Yury P.
Ivochkin, Vyacheslav G. Zhilin, Joint Institute of High
Temperatures RAS, Moscow, Russia, Evgeniy V. Sviridov,
Leonid G. Genin, Yaroslav I. Listratov, Ivan A. Belyaev,
Moscow Power Engineering Institute, Moscow, Russia
Organic Compounds Thermal Conductivity in the Liquid
Phase: a Prediction Method in the Temperature Range from
the Melting Point to near the Critical Temperature
In-core High Temperature Measurement Using Fiber-Bragg
Gratings for Nuclear Reactors
Board #51: Poster IHTC14-23035
Board #58: Poster Presentation Only IHTC14-22436
Giovanni Latini, Marco Sotte, Università Politecnica delle
Marche, Ancona, Italy
Gerrit De Villiers, PBMR, Centurion, Gauteng, South Africa
Experimental and Analytical Study on the Heat Transfer
Characteristics in a Natural Circulation Loop for an Integral
Type Reactor
High Temperature Facility under Vacuum for the Thermal
Characterization of Anisotropic Materials
Board #52: Poster IHTC14-23042
Board #59: Poster Presentation Only IHTC14-22848
Youssef Souhar, LEMTA, Nancy University, CNRS,
Vandoeuvre-Lès-Nancy, France, Benjamin Remy, Alain
Degiovanni, LEMTA, Nancy-Université, CNRS, Vandoeuvrelès-Nancy, France (Metro)
Hyun Sik Park, Korea Atomic Energy Research Institute,
Daejeon, Korea (Republic), Ki Yong Choi, Seok Cho, KAERI,
Daejeon, Korea (Republic), Sung-Jae Yi, Korea Atomic Energy
Research Institute, Daejeon, Korea (Republic)
Estimation of Location and Size of Defects in a Solid Body
via Inverse Heat Conduction Problem
Modeling of Heat and Mass Transfer Processes in Wet and
Dry Type Storages for Spent Nuclear Fuel
Board #53: Poster IHTC14-23075
Board #60: Poster IHTC14-22878
Hamid Fazeli, Middle East Petro-Gas Campany, Karaj, Iran,
Masoud Mirzaei, Khajeh Nasir Toosi University of Technology,
Tehran, Iran, Pourya Forooghi, Middle-East Petro Gas (MPG)
Company, Tehran, Iran
Evgeny D. Fedorovich, St.Petersburg State Polytechnical
University, Saint Petersburg, Russia, Yuri E. Karyakin,
St.Petersburg State Polytechnical University, Saint Petersburg,
Russia, Vladimir E. Mikhailov, I. I. Polzunov Boiler Turbine
Institute, Saint-Petersburg, Russia, Alexander A. Pletnev,
St.Petersburg State Polytechnical University, Saint Petersburg,
Russia, Vera O. Astafyeva, St. Petersburg State Polytechnical
University, Saint Petersburg, Russia
Preliminary Results for Estimating of the Backside Heat
Losses of a Composite Panel
Board #54: Poster IHTC14-23226
Ashley Emery, University of Washington, Seattle, WA, USA
Thermal Anisotropy in Injection Molded Polymer Composite
Fins
Numerical and Experimental Investigation of the Behavior of
Non-Contacting Droplets during the Reflood Phase after a
LOCA
Board #55: Poster IHTC14-23308
Board #61: Poster IHTC14-22944
Avram Bar-Cohen, Patrick Luckow, Juan Cevallos, S.K.
Gupta, University of Maryland, College Park, MD, USA
Despoina Chatzikyriakou, Simon P. Walker, Colin P. Hale,
Imperial College London, London, United Kingdom, D.
Lakehal, Ascomp Gmbh, Zurich, Switzerland, Geoffrey F.
Hewitt, Imperial College London, London, United Kingdom
Nuclear
22-1 Nuclear
Ambassador
Ballooning of Pressure Tube under LOCA in an Indian
Pressurised Heavy Water Reactor
8:00am - 10:00am
Session Chair: Hyun Sik Park, Korea Atomic Energy Research
Institute, Daejeon, Korea (Republic)
Session Co-Chair: Chang Oh, Idaho National Laboratory, Idaho
Falls, ID, USA
Board #62: Poster IHTC14-23011
Ravi Kumar, Department of Mechanical & Industrial
Engineering, Roorkee, Uttarakhand, India, Gopal Nandan,
College of Engineering, Roorkee, India, Pradeep K. Sahoo,
Indian Institute of Technology, Roorkee, Uttarakhand, India,
Barun Chatterjee, BARC, Mumbai, India, Deb
Mukhopadhyay, H. G. Lele, RSD, BARC, Mumbai, India
Peculiarities of Fluid-to-Fluid Modeling of Experiments on
Heat Transfer in Supercritical Water Flow
Board #56: Poster Presentation Only IHTC14-22277
Numerical Prediction of Molten Metal Jet Dynamics,
Fragmentation and Solidification in a Coolant Pool
Pavel L. Kirillov, Vera A. Grabezhnaya, Institute for Physics
and Power Engineering, Obninsk, Russia
Board #63: Poster IHTC14-23064
Diwakar S V, Sarit Das, Thirumalachari Sundararajan,
Indian Institute of Technology Madras, Chennai, Tamil Nadu,
India
73
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
On Melting Heat Transfer of a Paraffin Dispersed with Al2O3
Air Ingress Analysis: Computational Fluid Dynamics Models
Board #64: Poster IHTC14-23083
Nanoparticles
Chang Oh, Idaho National Laboratory, Idaho Falls, ID, USA,
Eung KIM, INL, Idaho Falls, ID, USA
Board #72: Poster IHTC14-22213
C. J. Ho, National Cheng Kung University, Tainan, Taiwan
Assessment of a Steam Generator Circulation Ratio by a
Thermal Balance based on External Wall Temperature
Measurements
Heat Transfer to Suspensions of Microencapsulated Phase
Change Material (MEPCM) Flowing Through Minichannels
Board #73: Poster IHTC14-22253
Board #65: Poster IHTC14-23153
Frank Dammel, Peter Stephan, Technische Universität
Darmstadt, Darmstadt, Germany
Geoffrey Deotto, Olivier Brunin, EDF, Villeurbanne, France,
Alexandre NICOLI, AREVA NP, Courbevoie, France, Franck
David, EDF - R&D, Chatou, France
Electrical Supercooling Mitigation in Erythritol
Board #74: Poster IHTC14-22306
Experimental Study on Temperature Fluctuation Phenomena
in a Closed Branch Pipe Connecting to High Velocity and
High Temperature Flow in a Main Pipe
Nicholas Jankowski, U.S. Army Research Laboratory,
Adelphi, MD, USA, F. Patrick McCluskey, University of
Maryland, College Park, MD, USA
Board #66: Poster IHTC14-23190
Nobuyuki Takenaka, Shigeo Hosokawa, Atsushi Saito,
Kobe University, Kobe, Japan, Toru Oumaya, Akira
Nakamura, Institute of Nuclear Safety System, Mihama,
Japan, Koji Miyoshi, Institute of Nuclear Safety System,
Incorporated, Mikata, Fukui, Japan
Thermal Behavior of Phase Change Material during Charging
Inside a Finned Cylindrical Latent Heat Energy Storage
System: Effects of the Arrangement and Number of Fins
Board #75: Poster IHTC14-22397
Dominic Groulx, Wilson Ogoh, Dalhousie University, Halifax,
NS, Canada
Simultaneous Identification of Thermophysical Properties
and Surface Heat Flux on Plasma Facing Components Inside
the JET Fusion Reactor
Thermal Analysis in Phase Change Materials (PCMs)
Embedded with Metal Foams
Board #67: Poster IHTC14-23254
Board #76: Poster IHTC14-22452
Fabrice Rigollet, Jean-Laurent Gardarein, IUSTI, UMR
CNRS 6595 - Université de Provence, Marseille, France, Yann
Corre, CEA/IRFM, Saint Paul lez Durance, France, Christophe
Le Niliot, IUSTI Lab, Marseille Cedex 13, France
Changying Zhao, Yuan Tian, University of Warwick, Coventry,
United Kingdom
Heat Transfer at Supercritical Pressures
Heat Transfer Enhancement of Phase Change Materials
(PCMs) in Low and High Temperature Thermal Storage by
Using Porous Materials
Board #68: Poster IHTC14-23403
Board #77: Poster IHTC14-22463
Igor Pioro, University of Ontario Institute of Technology,
Oshawa, ON, Canada
Changying Zhao, University of Warwick, Coventry, United
Kingdom
Phase Change Materials
Novel PCM and Jet Impingement based Cooling Scheme for
High Density Transient Heat Loads
23-1 Phase Change Materials
Board #78: Poster IHTC14-22841
Diplomat
Pritish Parida, Srinath Ekkad, Khai Ngo, Virginia Tech,
Blacksburg, VA, USA
8:00am - 10:00am
Session Chair: Peter Stephan, Technische Universität Darmstadt,
Darmstadt, Germany
Session Co-Chair: Nicholas Jankowski, U.S. Army Research
Laboratory, Adelphi, MD, USA
Computational Investigation of Laminar Mixed Convection in
a Vertical Pipe with Slurries of a Microencapsulated PhaseChange Material in Distilled Water
Board #79: Poster IHTC14-22974
Electrical Initiation of Solidification and Preservation of
Supercooled State for Sodium Acetate Trihydrate
David A. Scott, Canmet Energy Technology Centre, Varennes,
QC, Canada, Alexandre Lamoureux, B. Rabi Baliga, McGill
University, Montreal, QC, Canada
Board #69: Poster IHTC14-22148
Tetsuo Munakata, Shinichi Nagata, National Institute of
Advanced Industrial Science and Technology (AIST), Tsukuba,
Ibaraki, Japan
Improving the Thermal Conductivity of a Phase Change
Thermal Energy Storage Unit
Board #80: Poster IHTC14-22984
Carbon Nanotube Contained Phase Change Nanocomposites
and Their Thermal Conductivity Enhancements
Monica Bonadies, University of Central Florida, Orlando, FL,
USA, Mark Ricklick, Center for Advanced Turbines and
Energy Research, Orlando, FL, USA, Jayanta S. Kapat,
University of Central Florida, Orlando, FL, USA
Board #70: Poster IHTC14-22161
Huaqing Xie, Shanghai Second Polytechnic University,
Shanghai, China
Heat Transfer Enhancements using Vibration during
Solidification of Paraffin
Forced Flow and Convective Heat Transfer of Phase Change
Material Slurry in the Heat Exchangers
Board #81: Poster IHTC14-23146
Board #71: Poster IHTC14-22184
Johnathan Vadasz, University of Pretoria, Hatfield, South Africa,
Josua Meyer, University of Pretoria, Pretoria, South Africa,
Saneshan Govender, Eskom, Johannesburg, GP, South Africa
Peng Zhang, Z. W. Ma, R. Z. Wang, Shanghai Jiao Tong
University, Shanghai, China
74
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Radiation
A Reconstruction Scheme Based on the Radiative Transfer
Equation for Graded Index Semi-Transparent Media
25-2 Radiation
Board #90: Poster IHTC14-22818
Diplomat
Joan Boulanger, NRC-IAR Gas Turbine Laboratory, Ottawa,
ON, Canada, Olivier Balima, André Charette, Centre
Universitaire de Recherche sur l’Aluminium, Chicoutimi, QC,
Canada
8:00am - 10:00am
Session Chair: Zhuomin Zhang, Georgia Institute of Technology,
Atlanta, GA, USA
Session Co-Chair: André Charette, Centre Universitaire de
Recherche sur l’Aluminium, Chicoutimi, QC, Canada
Spec Gas a Coefficient Model Effects on Radiative Source
Term in a 2D Axisymmetric Diffusion Flame
Investigation on Emissivity Properties of Three-Dimensionally
Ordered Macroporous (3DOM) Perovskite-type Oxides
Board #91: Poster IHTC14-22967
Anderson C. Mossi, Federal University of Rio Grande do Sul,
Austin, TX, USA, Vinayak Barve, Siemens Power Generation
Inc., Orlando, FL, USA, Marcelo M. Galarça, Federal
University of Rio Grande do Sul, Porto Alegre, Rio Grande do
Sul, Brazil, Horácio A. Vielmo, Federal University of Rio
Grande do Sul, Porto Alegre, RS, Brazil, Francis Henrique
Ramos França, Federal University of Rio Grande do Sul, Porto
Alegre, RS, Brazil, Ofodike A. Ezekoye, The University of
Texas at Austin, Austin, TX, USA
Board #82: Poster IHTC14-22049
Y.M. Xuan, Jinguo Huang, Yuge Han, Nanjing University of
Science & Technology, Nanjing, China
Numerical Investigation on Spectral Properties of
MIM(Ag/MgF2/Ag) Structure with Periodic Rectangular Holes
Board #83: Poster IHTC14-22050
Y.M. Xuan, Yuchun Gou, Yuge Han, Nanjing University of
Science & Technology, Nanjing, China
The Effect of Surface Structure on Microwave Heating
Study on Comparison Experiment of the Bidirectional
Reflectance Distribution Function (BRDF) of the Surface of
Exterior Decorative Materials for Buildings under Dry and
Wet Condition
Board #92: Poster IHTC14-23215
Board #84: Poster IHTC14-22318
Modelling of the Thermal Radiative Properties of Oxide
Ceramics
Masatoshi Akahori, Kazuo Aoki, Shinya Taniguchi, Nagaoka
University of Technology, Nagaoka, Nigata, Japan
Ming Xie, Xiaochen Xie, Harbin Institute of Technology,
Harbin, China
Board #93: Poster IHTC14-23218
Benoit Rousseau, CNRS-CEMHTI, Orléans, France, Leire del
Campo, Julien Yves Rolland, Domingos De Sousa
Meneses, Patrick Echegut, CNRS, Orléans, France
Direct and Indirect Methods for Calculating Thermal
Emission from Layered Structures with Nonuniform
Temperatures
Two-Phase Flow
Board #85: Poster IHTC14-22499
Liping Wang, Soumyadipta Basu, Zhuomin Zhang, Georgia
Institute of Technology, Atlanta, GA, USA
31-1 Adiabatic Two-Phase Flows
Palladian
Experimental Investigation of Emissivity of Aluminum Alloys
and Application of Multispectral Radiation Thermometry
8:00am - 10:00am
Session Chair: Hassan M. Soliman, University of Manitoba,
Winnipeg, MB, Canada
Board #86: Poster IHTC14-22538
Chang-Da Wen, Department of Mechanical Engineering,
National Cheng Kung University, Tainan, Taiwan
Two-phase Critical Flow Simulations by using a New nonequilibrium Model and a Modified Equilibrium Model
Optical Tomography with a Least Square Finite Element
Formulation of the Collimated Irradiation in Frequency Domain
Board #94: Poster IHTC14-22056
Moon-Sun Chung, Hydrogen Energy R&D Center, Korea
Institute of Energy Research, Daejeon, Korea (Republic), SungJae Yi, Korea Atomic Energy Research Institute, Daejeon,
Korea (Republic), Keun-Shik Chang, Korea Advanced Institute
of Science and Technology, Daejeon, Korea (Republic)
Board #87: Poster IHTC14-22621
Olivier Balima, Centre Universitaire de Recherche sur
l’Aluminium, Chicoutimi, QC, Canada, Joan Boulanger, NRCIAR Gas Turbine Laboratory, Ottawa, ON, Canada, André
Charette, Daniel Marceau, Centre Universitaire de Recherche
sur l’Aluminium, Chicoutimi, QC, Canada
The Effect of Outlet Inclination on Two-Phase Flow Splitting
in an Equal-Sided Impacting Tee Junction
Universal Curves for Optimizing Longitudinal Rectangular
Fins Radiating to Free Space
Board #95: Poster IHTC14-22265
Moftah A. Mohamed, Hassan M. Soliman, Grant E. Sims,
University of Manitoba, Winnipeg, MB, Canada
Board #88: Poster IHTC14-22665
Juan P. Luna-Abad, Francisco Alhama, Politechnical
University of Cartagena, Cartagena, Spain, Antonio Campo,
The University of Texas at San Antonio, San Antonio, TX, USA
Capacitive Void Fraction Measurements and Probabilistic
Flow Pattern Mapping of Horizontal Refrigerant Flow
Board #96: Poster IHTC14-22576
Experimental Verification of Kirchhoff’s Thermal Radiation
Law on Surfaces with Emittance Spectra Characterized by
Optical Interference Phenomena
Hugo Canière, Ghent University - UGent, Gent, Belgium,
Bruno Bauwens, Ghent University - UGent, Zwijnaarde,
Belgium, Christophe T’Joen, Ghent University - UGent, Gent,
Belgium, Michel De Paepe, Ghent University-UGent, Gent,
Belgium
Board #89: Poster IHTC14-22718
Toshiro Makino, Hidenobu Wakabayashi, Kyoto University,
Kyoto, Japan
75
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
32-21 Keynote
Gas-Liquid Distributions in Upward Multi-pass Channels of
Compact Evaporator
Empire
Board #97: Poster IHTC14-22588
10:00am - 11:00am
Session Chair: Luiz Fernando Milanez, University of Campinas Unicamp, Campinas, Sao Paulo, Brazil
Zuradzman Mohamad Razlan, Mie University, Tsu, Japan,
Ryota Isobe, Chubu Electric Power, Omaezaki, Japan,
Yasuhiro Mizuno, Denso Corporation, Kariya, Japan, Hiroaki
Goshima, Masafumi Hirota, Naoki Maruyama, Akira
Nishimura, Mie University, Tsu, Japan
Multiscale Simulations of Heat Transfer and Fluid Flow
Problems
Keynote (Invited Only) IHTC14-23408
Shape Oscillation of Bubble(s) in Acoustic Field
Wen-Quan Tao, Ya-Ling He, Xi’an Jiaotong University, Xi’an,
Shaanxi, China
Board #98: Poster IHTC14-22636
Ichiro Ueno, Tokyo University of Science, Noda, Chiba, Japan,
Keishi Matsumoto, Graduate School at Tokyo University of
Science, Noda, Chiba, Japan, Atsumi Machida,
Undergraduate, Tokyo University of Science, Noda, Chiba,
Japan, Tsuyoshi Hanyu, Graduate School at Tokyo University
of Science, Noda, Chiba, Japan
32-22 Keynote
Blue
10:00am - 11:00am
Session Chair: Gad Hestroni, Technion, Haifa, Israel
Heat Transfer Characteristics in a Slug Unit
History, Advanced, and Challenges in Liquid Flow and Flow
Boiling Heat Transfer in Microchannels: A Critical Review
Board #99: Poster IHTC14-22649
Keynote (Invited Only) IHTC14-23353
Satish Kandlikar, Rochester Institute of Technology,
Rochester, NY, USA
Valery Babin, Tel-Aviv University, Tel-Aviv, Israel, Dvora
Barnea, University of Tel-Aviv, Tel-Aviv, Israel, Lev Shemer,
Tel-Aviv University, Tel-Aviv, Israel
Keynotes
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
Experimental Study of Heat Transfer in Horizontal Gas-Liquid
Intermittent Flow
Board #100: Poster IHTC14-22698
Ivan Noville, Petrobras, Rio de Janeiro, RJ, RJ, Brazil, Antonio
Bannwart, State University of Campinas, Campinas, SP, SP,
Brazil
32-23 Keynote
Regency
Two Phase Gas-liquid Bubbly Flow Modeling in Vertical Mini
Pipe
Session Chair: C. G. (Jat) du Toit, North-West University,
Potchefstroom, North-West Province, South Africa
Board #101: Poster IHTC14-22758
Mohammad Hasan Kebriaee, Sharif, Tehran, Iran, Hadi
Karabi, Sharif University of Tech, Tehran, Iran, Said Khorsandi
Kuhenestani, Sharif University of Tech, Tehran, Iran,
Mohammad Hassan Saidi, Sharif University of Technology,
Tehran, Iran
The Finite Element Method for Microchannel Flow and Heat
Transfer
Keynote (Invited Only) IHTC14-23375
Perumal Nithiarasu, Swansea University, Swansea, United
Kingdom
Phase Distribution of Slug-Annular Flow at a Horizontal
Miniature T-junction
32-24 Keynote
Board #102: Poster IHTC14-23174
Empire
Shuangfeng Wang, Kui He, Jianzhen Huang, South China
University of Technology, Guangzhou, China
11:05am - 12:05pm
Session Chair: Sung Jin Kim, KAIST, Daejeon, Korea (Republic)
Upscaling Methodology for Radiative Transfer in Porous
Media; New Trends.
Keynotes
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
Keynote (Invited Only). IHTC14-23371
Jean Taine, Ecole Centrale Paris, Chatenay-Malabry, France
(Metro), Estelle Iacona, Ecole Centrale Paris, Cedex, France
32-25 Keynote
32-20 Keynote
Regency
11:05am - 12:05pm
Blue
10:00am - 11:00am
11:05am - 12:05pm
Session Chair: Jungho Kim, University of Maryland, College Park,
MD, USA
Session Chair: Adrian Briggs, London University, London, United
Kingdom
Space Experiment of Marangoni Convection on International
Space Station
Thermal Management Issues in Fuel Cell Technology
Keynote (Invited Only) IHTC14-23396
Keynote (Invited Only) IHTC14-23346
Nigel Brandon, Mardit Matian, Fred Marquis, Claire
Adjiman, Imperial College, London, United Kingdom
Hiroshi Kawamura, Suwa Tokyo University of Science, Chino,
Nagano, Japan, Koichi Nishino, Yokohama National University,
Yokohama, Kanagawa, Japan, Satoshi Matsumoto, Japan
Aerospace Exploration Agency, Tsukuba-shi, Japan, Ichiro
Ueno, Tokyo University of Science, Noda, Chiba, Japan
76
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Keynotes
Critical Heat Flux during Subcooled Flow Boiling of Alumina
Nanofluids in a Narrow Channel
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
Board #3: Poster IHTC14-22267
Saeid Vafaei, Dongsheng Wen, Queen Mary University of
London, London, Uk., United Kingdom
Experimental Study of Flow Boiling Heat Transfer Coefficient
of FC-72 over Micro-pin-finned Surfaces
32-26 Keynote
Empire
2:05pm - 3:05pm
Board #4: Poster IHTC14-22282
Session Chair: John R. Thome, EPFL, Lausanne, Switzerland
Yan F. Xue, Min Z. Yuan, Jin J. Wei, Xi’an Jiaotong University,
Xi’an, China
Macroscale and Microscale Phenomena Encountered in
Multiphase Energy Storage and Transport Systems
Boiling Heat Transfer Enhancement by Controllable Tailoring
of the TPL
Keynote (Invited Only) IHTC14-23363
Masahiro Kawaji, University of Toronto, Toronto, ON, Canada
Board #5: Poster IHTC14-22339
Alexander Ustinov, Jovan Mitrovic, University of Paderborn,
Paderborn, NRW, Germany
32-27 Keynote
Blue
2:05pm - 3:05pm
Subcooled Flow Boiling with Sintered Porous Coatings in
Small Channel
Session Chair: A. E. Bergles, Rensselaer Polytechnic Institute,
Centerville, MA, USA
Board #6: Poster IHTC14-22565
Yan Sun, Li Zhang, Hong Xu, Dongmei Ji, East China
University of Science and Technology, Shanghai, Shanghai,
China
Inverse Heat Transfer Problems: New Trends on Solution
Methodologies and Applications
Keynote (Invited Only) IHTC14-23349
H. R. B. Orlande, Federal University of Rio de Janeiro, Rio de
Janeiro, Brazil
Experimental Study on CHF Characteristics of R134a Flow
Boiling in Horizontal Helically-coiled Tubes
Board #7: Poster IHTC14-22579
32-28 Keynote
Regency
Changnian Chen, Jitian Han, Shandong University, Jinan,
Shandong, China, Tien-Chien Jen, University of Wisconsin,
Milwaukee, Milwaukee, WI, USA, Li Shao, Wenwen Chen,
Shandong University, Jinan, Shandong, China
2:05pm - 3:05pm
Session Chair: Yuri V. Polezhaev
Heat and Mass Transfer with Phase Change and Chemical
Reactions
Study on Fluid-to-Fluid Modeling of CHF of R134a-Water in
Horizontal Helically-coiled Tubes
Keynote (Invited Only) IHTC14-22570
Board #8: Poster IHTC14-22586
Vladimir V. Kuznetsov, Institute of Thermophysics SB RAS,
Novosibirsk, Russia
Changnian Chen, Jitian Han, Shandong University, Jinan,
Shandong, China, Tien-Chien Jen, University of Wisconsin,
Milwaukee, Milwaukee, WI, USA, Li Shao, Wenwen Chen,
Shandong University, Jinan, Shandong, China
POSTER SESSION 7: 4:30pm – 6:30pm
Boiling Heat Transfer
Study of CHF Condition for Flow Boiling of R134a in Circular
Microchannels
2-3 Flow Boiling I
Ambassador
Board #9: Poster IHTC14-22661
Saptarshi Basu, Rensselaer Polytechnic Institute, Troy, NY,
USA, Sidy Ndao, Rensselaer Polytechnic Institute (RPI), Troy,
NY, USA, Gregory J. Michna, South Dakota State University,
Brookings, SD, USA, Yoav Peles, Michael Jensen,
Rensselaer Polytechnic Institute, Troy, NY, USA
4:30pm - 6:30pm
Session Chair: Debjyoti Banerjee, Texas A&M University, College
Station, TX, USA
Session Co-Chair: Nagamangala Anand, Texas A&M University,
College Station, TX, USA
Sub-Atmospheric Pressure, Sub-Cooled, Flow Boiling of
Water on Screen Laminate Enhanced Surfaces
Experimental Study of the Vapor Film Behavior on A Highly
Heated Surface Immersed Into Subcooled Water
Board #10: Poster IHTC14-22741
Board #1: Poster IHTC14-22202
Sean Penley, R.A. Wirtz, University of Nevada, Reno, Reno,
NV, USA
Yury P. Ivochkin, Vyacheslav G. Zhilin, Alexander A. Oksman,
Zeigarnik Yury, Kirill I. Belov, Joint Institute of High
Temperatures RAS, Moscow, Russia, Sergei N. Vavilov, Joint
Institute for High Temperatures, Moscow, Russia, Konstantin G.
Kubrikov, Joint Institute of High Temperatures, Moscow, Russia
Mechanism of Critical Heat Flux for Convective Boiling of
FC-72 in a Diverging Microchannel Heat Sink
Board #11: Poster IHTC14-22750
Chin Pan, Chun-Ting Lu, National Tsing Hua University,
Hsinchu, Taiwan
Heat Transfer and Critical Heat Flux of Subcooled Water
Flow Boiling in a SUS304-Tube with Twisted-Tape Insert
Board #2: Poster IHTC14-22225
Koichi Hata, Inst. of Advanced Energy, Kyoto Univ., Uji, Kyoto,
Japan, Suguru Masuzaki, National Institute for Fusion
Science, Toki, Gifu, Japan
77
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Experiments on Flow Boiling Heat Transfer of
Ammonia/Water Mixture Inside an Internally Spirally Grooved
Horizontal Tube
Condensation
Board #12: Poster IHTC14-22779
Palladian
5-2 Condensation 2
Satoru Momoki, Nagasaki University, Nagasaki, Japan,
Hirofumi Arima, Saga University, Saga, Japan, Hiroyuki Asou,
Fukuoka University, Fukuoka, Japan, Odgerel Jambal,
Tomohiko Yamaguchi, Toru Shigechi, Nagasaki University,
Nagasaki, Japan
4:30pm - 6:30pm
Session Chair: Adrian Briggs, London University, London, United
Kingdom
Session Co-Chair: Josua Meyer, University of Pretoria, Pretoria,
South Africa
Mechanism and Modeling of Rewetting Initiation of Hot Dry
Surface in Saturated and Subcooled Film Boiling
Experimental Study on the Flow Regime Identification in the Case
of Co-Current Condensation of R134A in a Vertical Smooth Tube
Board #13: Poster IHTC14-22863
Board #21: Poster IHTC14-22057
Ahmet Selim Dalkilic, Yildiz Technical University, Istanbul,
Turkey, Prof. Dr. Somchai Wongwises, King Mongkuts
University of Technology Thonburi, Bangkok, Thailand
Hiroyasu Ohtake, Shingo Kobayashi, Nozomi Nagashima,
Kogakuin University, Tokyo, Japan, Yasuo Koizumi, Shinshu
University, Ueda-shi, Japan
Transient Two-Phase Flow Patterns by Application of a High
Voltage Pulse Width Modulated Signal and the Effect on
Condensation Heat Transfer
Effect of Heat Flux on Droplet Entrainment using Annular
Flow Dryout Model
Board #14: Poster IHTC14-22866
Board #22: Poster IHTC14-22159
Masroor Ahmad, Evgeniy Burlutskiy, Simon P. Walker,
Geoffrey F. Hewitt, Imperial College London, London, United
Kingdom
Kevin Ng, Chan Ching, James Cotton, McMaster University,
Hamilton, ON, Canada
Probabilistic Flow Pattern-based Heat Transfer for
Condensing Intermittent Flow in Smooth Horizontal Tubes
Investigation of Flow Boiling on Nanostructured Surfaces
Board #15: Poster IHTC14-22926
Board #23: Poster IHTC14-22336
Saeil Jeon, Texas A&M University, College Station, TX, USA,
Pratanu Roy, Tamu, College Station, TX, USA, Nagamangala
Anand, Debjyoti Banerjee, Texas A&M University, College
Station, TX, USA
Josua Meyer, Leon Liebenberg, Marcel Christiaans, Eugene
Van Rooyen, University of Pretoria, Pretoria, South Africa
Critical Heat Flux in Cooling Channels for Flow-Field Probes
Heat Transfer during Condensation Inside Small Channels:
Applicability of General Correlation for Macrochannels
Board #16: Poster IHTC14-23276
Board #24: Poster IHTC14-22346
M. Mohammed Shah, Fletcher Thompson, Inc., Shelton, CT, USA
D. M. Sykes, G. S. Cole, D. A. Staples, Mainstream
Engineering Corporation, Rockledge, FL, USA, Ali Kosar,
Sabanci University, Istanbul, Istanbul, Turkey, A. E. Bergles,
Rensselaer Polytechnic Institute, Centerville, MA, USA
Experimental Investigation and Modelling of Condensation in
Plate Heat Exchanger
Board #25: Poster IHTC14-22385
An Exploration of the Effect of Dissolved Ionic Solids on Bubble
Merging in Water and Its Impact on the Leidenfrost Transition
Volker Grabenstein, Stephan Kabelac, Helmut Schmidt
University/University of the Federal Armed Forces Hamburg,
Hamburg, Hamburg, Germany
Board #17: Poster IHTC14-23330
Yu Gan, University of California, Berkeley, CA, USA, Van Carey
Impact of the Anticorrosion Films on the Condensing Heat
Transfer of Flue Gas in Fin-tube Heat Exchangers
The Prediction of CHF at near Critical Pressures by High
Order Neural Network (HONN)
Board #26: Poster IHTC14-22596
Sui-Lin Wang, Beijing University of Civil Engineering and
Architecture, Beijing, China, Yuan-yuan Wu, Beijing Public
Utility Science Institute, Beijing, China, Shu-yuan Pan, School
of Environment and Energy Engineering, Beijing, China, Yongzheng Shi, Beijing University of Civil Engineering and
Architecture, Beijing, China
Board #18: Poster IHTC14-23401
Dariush Rostamifard, Mehdi Fallahnezhad, Salman
Zaferanlouei, Saeid Setayeshi, Mohammad Hassan Moradi,
Amirkabir University of Technology, Tehran, Iran
Dry-out CHF Characteristics of R134a Flow Boiling in
Horizontal Helically-coiled Tubes
Stability Analysis on Condensate Films Inside a Microtube
under Annular Flow Pattern
Board #19: Poster IHTC14-23415
Changnian Chen, Jitian Han, Shandong University, Jinan,
Shandong, China, Tien-Chien Jen, University of Wisconsin,
Milwaukee, Milwaukee, WI, USA, Li Shao, Shandong
University, Jinan, Shandong, China
Board #27: Poster Presentation Only IHTC14-22604
Jun-Ming Li, Tsinghua University, Beijing, China
Exploration of Experimental Techniques to Determine the
Condensation Heat Flux in Microchannels and Minichannels
Fluid to Fluid Modeling Scaling Factors of R134a-water for
Critical Heat Flux
Board #28: Poster IHTC14-22647
Melanie M. Derby, Hee Joon Lee, Rensselaer Polytechnic
Institute, Troy, NY, USA, Rose C. Craft, Heat Transfer Research
Inc., College Station, TX, USA, Gregory J. Michna, South
Dakota State University, Brookings, SD, USA, Yoav Peles,
Michael Jensen, Rensselaer Polytechnic Institute, Troy, NY, USA
Board #20: Poster IHTC14-23417
Changnian Chen, Jitian Han, Shandong University, Jinan,
Shandong, China, Tien-Chien Jen, University of Wisconsin,
Milwaukee, Milwaukee, WI, USA, Li Shao, Shandong
University, Jinan, Shandong, China
78
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Bubble and Film Dynamics during Condensation of
Refrigerants in Minichannels
Microchannels
Board #29: Poster IHTC14-22697
17-2 Microchannels 1
Brendon L. Keinath, Srinivas Garimella, Georgia Institute of
Technology, Atlanta, GA, USA
Diplomat
4:30pm - 6:30pm
Session Chair: Satish Kandlikar, Rochester Institute of
Technology, Rochester, NY, USA
Session Co-Chair: J.L. Alvarado, Texas A&M University, College
Station, TX, USA
Effect of Minichannel Cross Sectional Shape in Condensation
Board #30: Poster IHTC14-22847
Davide Del Col, Stefano Bortolin, University of Padova,
Padova, Italy, Alberto Cavallini, Università di Padova, Padova,
Italy, Marko Matkovic
Experimental Study on the Heat Transfer Characteristics of
Cryogenic Micro Channel Heat Exchanger
Modelling of Condensation in a Circular Minichannel by
Means of the VOF Method
Board #39: Poster IHTC14-22223
Seok Ho Yoon, Korea Institute of Machinery and Materials,
Daejeon, Korea (Republic), Duckjong Kim, Jun Seok Choi,
KIMM, Seoul, Korea (Republic)
Board #31: Poster IHTC14-22857
Enrico Da Riva, University of Padova - Dipartimento di Fisica
Tecnica, Padova, Italy, Davide Del Col, University of Padova,
Padova, Italy, Alberto Cavallini, Università di Padova, Padova,
Italy
Combined Experimental and Numerical Study for Multiple
Microchannel Heat Transfer System
Board #40: Poster IHTC14-22235
About Stability of a Vapour Jet Condensing in a Micro Channel
Jingru Zhang, Yogesh Jaluria, Tiantian Zhang, Rutgers
University, Piscataway, NJ, USA, Li Jia, Beijing Jiaotong
University, Beijing, China
Board #32: Poster IHTC14-22862
Benjamin Piaud, Pascal Lavieille, Marc Miscevic, Laplace,
Toulouse Cedex 09, France
Experimental and Numerical Investigation of Flow of
Nanofluids in Microchannels
An Experimental Study of Condensate Retention on the Air
Side of Flat-Tube Heat Exchangers
Board #41: Poster IHTC14-22474
Pawan K. Singh, P. V. Harikrishna, Thirumalachari
Sundararajan, Sarit Das, Indian Institute of Technology
Madras, Chennai, Tamilnadu, India
Board #33: Poster IHTC14-22986
Deep Gupta, University of Illinois at Urbana Champaign,
Urbana, IL, USA, Young-Gil Park, University of Texas - Pan
American, Edinburg, TX, USA, Anthony M. Jacobi, University
of Illinois, Urbana, IL, USA
Laminar Flow Forced Convection Heat Transfer Behavior of
Phase Change Material Fluid in Microchannels with
Staggered Pins
Measurement of Heat Transfer and Pressure Drop during
Condensation of Carbon Dioxide in Microscale Geometries
Board #42: Poster IHTC14-22512
Satyanarayana Kondle, J.L. Alvarado, Texas A&M University,
College Station, TX, USA, Charles Marsh, U.S. Army,
Engineer Research and Development Center, Champaign, IL,
USA, Gurunarayana Ravi, Texas A&M University, College
Station, TX, USA
Board #34: Poster IHTC14-22987
Brian M. Fronk, Srinivas Garimella, Georgia Institute of
Technology, Atlanta, GA, USA
Conjugate Heat Transfer in Annular Laminar Film
Condensation in Microchannels: Comparison of Numerical
Model to Experimental Results
Correlations for Saturated Critical Heat Flux in
Microchannels
Board #35: Poster IHTC14-23003
Board #43: Poster IHTC14-22533
Stefano Nebuloni, Ecole Polytechnique Fédérale de Lausanne,
Lausanne, Switzerland, John R. Thome, EPFL, Lausanne,
Switzerland, Davide Del Col, University of Padova, Padova, Italy
Zan Wu, Wei Li, Zhejiang University, Hangzhou, China
Optimization of the Capillary Tube for Domestic Refrigerator
with Mixture of Propane and Isobutene as Refrigerant
Vertical Tube Passive Condenser under Secondary Pool
Water Level Transient
Board #44: Poster IHTC14-22574
Zhongjie Huan, Tshwane University of Technology, Pretoria,
South Africa, Chaohong Guo, Chinese Academy of Sciences,
Beijing, China
Board #36: Poster IHTC14-23125
Shripad Revankar, Wenzhong Zhou, Purdue University, West
Lafayette, IN, USA
Inundation Effect and Its Elimination in Shell and Tube
Condenser
Effects of Dented Roughness on Laminar Flow and Heat
Transfer in Microchannels
Board #37: Poster IHTC14-23358
Board #45: Poster IHTC14-22643
Hui Miao, Yong Huang, Fa Xie, Haigang Chen, Fang Wang,
Beihang University, Beijing, China
Z.X. Ma, Harbin Institute of Technology, Harbin, China, Jili
Zhang, Dalian University of Technology, Dalian, China, Dexing
Sun, Harbin Institute of Technology, Harbin, China
Dynamics of an Isolated Pendant Droplet Moving on a
Lyophobic Surface
Numerical Analysis of Single Phase Multi Layered
Microchannel Heat Sink with Inter-Connects Between
Vertical Channels
Board #38: Poster IHTC14-22520
Board #46: Poster IHTC14-22828
A K M M. Morshed, Jamil A. Khan, University of South
Carolina, Columbia, SC, USA
Basant Singh Sikarwar, K. Muralidhar, Sameer Khandekar,
Indian Institute of Technology Kanpur, Kanpur, Uttar Pradesh, India
79
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Significant Heat Transfer Enhancement in Microchannels
with a Segmented Flow of Two Immiscible Liquids
Nano
Board #47: Poster IHTC14-22830
18-1 Nano Interfaces and Misc. Nano
Ashish Asthana, ETH Zurich, Zurich, Switzerland, Igor
Zinovik, Dimos Poulikakos, ETH Zurich - Laboratory of
Thermodynamics in Emerging Technologies, Zürich,
Switzerland
Ambassador
4:30pm - 6:30pm
Session Chair: Pamela Norris, University of Virginia,
Charlottesville, VA, USA
Session Co-Chair: Wilson K. S. Chiu, University of Connecticut,
Storrs, CT, USA
Evaporative Microchannel Cooling: An Atomistic Approach
Board #48: Poster IHTC14-22839
FDTD Study of Visible Radiative Properties of Vertical Multiwalled Carbon Nanotubes Arrays
Arjan J.H. Frijns, Pieter Van den Akker, Peter A.J. Hilbers,
Eindhoven University of Technology, Eindhoven, Netherlands,
Peter Stephan, Technische Universität Darmstadt, Darmstadt,
Germany, Anton A. van Steenhoven, Eindhoven University of
Technology, Eindhoven, Netherlands
Board #56: Poster IHTC14-22482
Hua Bao, Xiulin Ruan, Purdue University, West Lafayette, IN,
USA
A Molecular Dynamics Study on the Effects of
Nanostructural Clearances on Thermal Resistance at a
Liquid-Solid Interface
Experimental Investigation of Flow Boiling Pressure Drop of
R134a in a Micro-Scale Horizontal Smooth Tube
Board #49: Poster IHTC14-22962
Board #57: Poster IHTC14-22152
Critiano B. Tibiriçá, Escola de Engenharia de São Carlos,
University of São Paulo, São Carlos, São Paulo, Brazil,
Gherhardt Ribatski, Escola de Engenharia de São Carlos/
University of São Paulo, São Carlos, São Paulo, Brazil
Masahiko Shibahara, Kiyoshi Takeuchi, Osaka University,
Osaka, Japan
Modeling Mass Transfer and Nanoparticle Capture in
Electrostatically Charged Monolith Filters
Heat Transfer in Electroosmotic Flow of Non-Newtonian
Fluids in a Slit Microchannel
Board #58: Poster IHTC14-22205
Mengbai Wu, Andrey Kuznetsov, Warren Jasper, North
Carolina State University, Raleigh, NC, USA
Board #50: Poster Presentation Only IHTC14-23071
Rama Gorla, Cleveland State University, Cleveland, OH, USA
Effects of Surface Roughness and Oxide Layer on the
Thermal Boundary Conductance at Aluminum/Silicon
Interfaces
Electrokinetic Heat Transfer in Micro and Nanochannel
Board #51: Poster IHTC14-23080
Ezra Elias, Technion - Israel Institute of Technology, Haifa,
Israel
Board #59: Poster IHTC14-22268
Patrick E. Hopkins, Sandia National Laboratories,
Albuquerque, NM, USA, Leslie M. Phinney, Justin R.
Serrano, Thomas E. Beechem, Sandia National Labs,
Albuquerque, NM, USA
Fluid Flow and Boiling Heat Transfer in Mini Channels
Board #52: Poster IHTC14-23095
Arcot R. Balakrishnan, Sarit Das, Indian Institute of
Technology Madras, Chennai, Tamilnadu, India, Venkatesan
M, IIT Madras, Chennai, India, Manoharan Aravinthan, Indian
Institute of Technology, Madras, Chennai, India
Lattice Boltzmann Flow Simulation in Micro-Nano
Transitional Porous Media
Board #60: Poster IHTC14-22283
Measurement of Liquid Film Thickness in Micro Tube
Annular Flow
Kazuhiko Suga, Susumu Takenaka, Osaka Prefecture
University, Sakai, Osaka, Japan, Takahiko Ito, Osaka Pref.
Univ., Sakai, Osaka, Japan, Masayuki Kaneda, Osaka
Prefecture University, Sakai, Osaka, Japan, T. Kinjo, S. Hyodo,
Toyota Central R&D, Nagakute, Japan
Board #53: Poster IHTC14-23176
Hiroshi Kanno, Youngbae Han, Yusuke Saito, Naoki
Shikazono, The University of Tokyo, Tokyo, Japan
Numerical Simulation of Thermofluid Characteristics of TwoPhase Slug Flow in Microchannels
Investigating Growth Conditions for Multiwalled Carbon
Nanotube Synthesis by Chemical Vapor Deposition
Board #54: Poster IHTC14-23282
Board #61: Poster IHTC14-22605
Jeffrey Lombardo, University of Connecticut, Roxbury, CT,
USA, Wilson K. S. Chiu, University of Connecticut, Storrs, CT,
USA
Ayyoub Mehdizadeh, S.A. Sherif, W.E. Lear, University of
Florida, Gainesville, FL, USA
Regime-Informed Parametric Trends in Microgap Two-Phase
Heat Transfer
Modeling of Thermal Contact Conductance
Board #55: Poster IHTC14-23315
Board #62: Poster IHTC14-22616
Mikhail V. Murashov, Sergey D. Panin, Bauman Moscow
State Technical University, Moscow, Russia
Emil Rahim, University of Maryland, College Park, MD, USA,
Avram Bar-Cohen
Near Field Heat Transfer between Metamaterials
Board #63: Poster Presentation Only IHTC14-22642
Philippe Ben-Abdallah, French National Center for Scientific
Research, Nantes, France, Karl Joulain, Jérémie Drevillon,
Laboratoire d’Etudes Thermiques, Université de Poitiers,
Futuroscope, France
80
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Design and Simulation of a Microheater for Stimulation of
Nanomaterial Thermoluminescent Properties
Molecular Dynamics Modeling of Heat Transport in Metals
and Semiconductors
Board #64: Poster Presentation Only IHTC14-22680
Board #73: Poster IHTC14-23314
Carlos García-Meneses, Obed Cortés-Aburto, Universidad
Politécnica de Puebla, Juan C. Bonilla, Puebla, Mexico, Fidel
Pacheco-García, Rubí Salazar-Amador, Universidad Popular
Autónoma del Estado de Puebla, Puebla, Mexico, José-Pedro
Sánchez-Santana, Universidad Politécnica de Puebla, Juan C.
Bonilla, Puebla, Mexico
Sreekant Narumanchi, Kwiseon Kim, National Renewable
Energy Laboratory, Golden, CO, USA
Probing Nanoscale Heat and Force Interactions Using
Atomic Force Microscopes (AFM)
Board #74: Poster IHTC14-23329
Sheng Shen, Anastassios Mavrokefalos, Poetro
Sambegoro, Gang Chen, MIT, Cambridge, MA, USA
Investigation of Thermal Interfacial Resistance on NanoStructures Using Molecular Dynamics
Simulation of Electron Beam Heating of a Cu Thin Film on a
Si Substrate
Board #65: Poster IHTC14-22930
Navdeep Singh, TAMU, College Station, TX, USA, Debjyoti
Banerjee, Texas A&M University, College Station, TX, USA
Board #75: Poster IHTC14-23333
Vance Robinson, Xi Zhang, Forrest Hopkins, GE Global
Research Center, Niskayuna, NY, USA
A Characterization of Heated Microcantilevers for
Femtogram-Level Thermophysical Property Measurement
Design and Batch-Fabrication of Diamond Thermocouple
Probes for the Quantitative Thermopower Profiling of Silicon
IC Devices
Board #66: Poster IHTC14-22932
Andrew M. Gauffreau, William R. DiPippo, Keunhan (Kay)
Park, University of Rhode Island, Kingston, RI, USA
Board #76: Poster IHTC14-23347
The Effect of Interstitial Layers on Thermal Boundary
Conductance between Lennard-Jones Crystals
Byeonghee Lee, Seoul National University, Seoul, Korea
(Republic), Kyeongtae Kim, Seungkoo Lee, Ohmyoung
Kwon, Jong Hoon Kim, Dae Soon Lim, Korea University,
Seoul, Korea (Republic), Woo Il Lee, Seoul National University,
Seoul, Korea (Republic), Joon Sik Lee
Board #67: Poster IHTC14-22953
Timothy English, John Duda, Donald A. Jordan Jr., Pamela
Norris, Leonid Zhigilei, University of Virginia, Charlottesville,
VA, USA
Experimental Investigation of Metal-Diamond Thermal Interface
Conductance with Different Diamond Surface Terminations
Characterization of Carbon Nanotube Array based Thermal
Interface Material after Bonding Process
Board #77: Poster IHTC14-23357
Board #68: Poster IHTC14-22989
Kimberlee Collins, Massachusetts Institute of Technology,
Cambridge, MA, USA, Gang Chen, MIT, Cambridge, MA, USA
Rong-Shiuan Chu, Yang Zhao, University of California,
Berkeley, Berkeley, CA, USA, Arun Majumdar, US Department
of Energy, Advanced Research Projects Agency for Energy
(ARPA-E), Washington DC, USA
Porous Media
24-1 Porous Media 1
Effect of Energy Deposition Modes on Ultrafast Solid-LiquidVapor Phase Change of a Thin Gold Film Irradiated by a
Femtosecond Laser
Palladian
4:30pm - 6:30pm
Session Chair: Marcelo de Lemos, Instituto Tecnológico de
Aeronáutica - ITA, São José dos Campos, Brazil
Session Co-Chair: Peter Vadasz, Northern Arizona University,
Flagstaff, AZ, USA
Board #69: Poster IHTC14-23050
Jing Huang, Yuwen Zhang, J.K. Chen, University of Missouri,
Columbia, MO, USA, Mo Yang, University of Shanghai for
Science and Technology, Shanghai, China
The Lévèque Analogy - Does It Work for Solid Ceramic
Sponges too?
Thermal Conductance and Constriction Resistance of Single
Layer Graphene Nano Ribbons
Board #78: Poster IHTC14-22037
Benjamin Dietrich, Matthias Kind, Holger Martin, Institute of
Thermal Process Engineering, Karlsruhe Institute of
Technology, University of Karlsruhe, Karlsruhe, BadenWürttemberg, Germany
Board #70: Poster IHTC14-23088
Zhen Huang, Jayathi Y. Murthy, Timothy S. Fisher, Purdue
University, West Lafayette, India
Heat and Mass Transport in Carbon Nantubes
Laminar Heat Transfer on a Wall Covered with a Layer of
Porous Material Simulated with a Two-energy Equation Model
Board #71: Poster IHTC14-23115
Junichiro Shiomi, The University of Tokyo, Tokyo, Japan, Carl
F. Carlborg, Royal Institute of Technology (KTH), Stockholm,
Sweden, Shigeo Maruyama, The University of Tokyo, Tokyo,
Japan
Board #79: Poster IHTC14-22130
Marcelo de Lemos, Instituto Tecnológico de Aeronáutica - ITA,
São José dos Campos, Brazil, Felipe Dorea, Instituto
Tecnologico de Aeronautica - ITA, São José dos Campos, Brazil
Growth of Single-walled Carbon Nanotubes at Low
Temperature and Low Pressure CVD Conditions
Simulation of a Moving Porous Bed Reactor with a TwoEnergy Equation Model
Board #72: Poster IHTC14-23227
Board #80: Poster IHTC14-22133
Shohei Chiashi, The University of Tokyo, Bunkyo-ku, Tokyo,
Japan, Taiki Inoue, Hiroto Okabe, Junichiro Shiomi, Shigeo
Maruyama, The University of Tokyo, Tokyo, Japan
Marcelo de Lemos, Instituto Tecnológico de Aeronáutica - ITA,
São José dos Campos, Brazil, Ana C. Pivem, Instituto
Tecnologico de Aeronautica - ITA, São José dos Campos, Brazil
81
THURSDAY, AUGUST 12
TECHNICAL
SESSIONS
Nusselt Number Data Scattering in Natural Convection in
Porous Media
From the Extremum Principle of Entransy Dissipation to
Steady Balance Equations of Fluid Mechanics
Board #81: Poster IHTC14-22155
Board #91: Poster IHTC14-22252
Peter Vadasz, Northern Arizona University, Flagstaff, AZ, USA
Mingtian Xu, Lin Cheng, Shandong University, Jian,
Shandong Province, China
Convection Heat Transfer Analysis for Darcy Flow in Porous
Media: A New Two-Dimensional Solution
The Development of Performance Prediction Methods for an
Automotive CO2 Air Conditioning Cycle
Board #82: Poster IHTC14-22160
Board #92: Poster IHTC14-22317
Nihad Dukhan, Jeff Ratowski, University of Detroit, Mercy,
Detroit, MI, USA
Masafumi Katsuta, Takahiro Oshiro, Akira Kaneko, Waseda
University, Tokyo, Japan, Sangchul BAE, Waseda University,
Honjo, Japan, Shunji Komatsu, Yohei Ohno, Waseda
University, Tokyo, Tokyo, Japan
Weak Turbulence in Small Prandtl Number Convection in
Porous Media
Board #83: Poster IHTC14-22171
Mass Nature of Heat and Its Application Part IV: Heat Transfer
Optimization Based on Least Entransy Dissipation Principle
Peter Vadasz, Northern Arizona University, Flagstaff, AZ, USA
Non-intrusive Heat Transfer Coefficient Determination in a
Packed Bed of Spheres
Board #93: Poster Presentation Only IHTC14-22350
Zhixin Li, Tsinghua University, Beijing, Beijing, China
Board #84: Poster IHTC14-22354
Performance of Heat Driven Type Water Cooler Using Metal
Hydride
David J. Geb, Ivan Catton, UCLA, Los Angeles, CA, USA
Numerical Simulation of Heat and Mass Transfer in Metal
Hydride Hydrogen Accumulators of Different Complex Designs
Board #94: Poster IHTC14-22356
Sangchul Bae, Waseda University, Honjo, Japan, Masafumi
Katsuta, Yusuke Haruna, Naoko Nohmi, Keisuke Ishikawa,
Waseda University, Tokyo, Japan
Board #85: Poster IHTC14-22561
Dmitriy Lazarev, Valeriy Artemov, Georgiy Yankov, Konstantin
Minko, Moscow Power Engineering Institute, Moscow, Russia
Convective Air Heat Transfer through 10 PPI Aluminum Foams
Mass Nature of Heat and its Application VII: Coupled Heat and
Mass Transfer Optimization Based on the Entransy Theory
Board #86: Poster IHTC14-22764
Board #95: Poster IHTC14-22413
Simone Mancin, University of Padova, Padova, Italy, Claudio
Zilio, Luisa Rossetto, Alberto Cavallini, Università di Padova,
Padova, PD, Italy
Qun Chen, Tsinghua University, Beijing, Beijing, China, Moran
Wang, Los Alamos National Laboratory, Los Alamos, NM,
USA, Ning Pan, University of California, Davis, CA, USA,
Zeng-Yuan Guo, Tsinghua University, Beijing, Beijing, China
X-ray Computed Tomography of CO2 Behavior in Water
Saturated Sandstone for Geological Storage
Influence of Thermal Effects during Fast Filling Operations on
Adsorption Capacity in a Hydrogen Cryo-adsorption Storage Tank
Board #87: Poster IHTC14-23132
Board #96: Poster IHTC14-22838
Suguru Uemura, Ryoto Kataoka, Shohji Tsushima,
Shuichiro Hirai, Tokyo Institute of Technology, Tokyo, Japan
Petar Aleksic, NTNU, Trondheim, Norway, Erling Næss,
Norwegian University of Science and Technology, Trondheim,
Norway, Ulrich Buenger, NTNU, Trondheim, Norway
Effects of Fin Configuration on Heat Transfer Rate in Packed
Bed Reactors for Improvement of Their Thermal Characteristics
Optimization of a Pyroelectric Energy Converter for
Harvesting Waste Heat
Board #88: Poster IHTC14-23175
Koichi Nakaso, Takuro Aoki, Jun Fukai, Kyushu University,
Fukuoka, Japan
Board #97: Poster IHTC14-23135
Ashcon Navid, Damien Vanderpool, Abubakarr Bah,
Laurent Pilon, University of California, Los Angeles, Los
Angeles, CA, USA
Thermodynamic Fundamentals and Systems
29-1 Thermodynamic Fundamentals and Systems
Diplomat
Experimental Analysis of an Air Dehumidification System
with Liquid Desiccant
4:30pm - 6:30pm
Session Chair: Laurent Pilon, University of California, Los Angeles,
Los Angeles, CA, USA
Session Co-Chair: Mingtian Xu, Shandong University, Jian,
Shandong Province, China
Board #98: Poster IHTC14-23185
Li Zhang, The University of Tokyo, Kasiwa, Chiba, Japan, Chitose
Tanaka, Eiji Hihara, The University of Tokyo, Kashiwa, Japan
Reynolds, Maxwell, and the Radiometer, Revisited
Quantitative Study on Model and Basic Concepts for
Thermodynamics System
Board #89: Poster IHTC14-22023
Board #99: Poster IHTC14-23362
Holger Martin, KIT Universitaet Karlsruhe (TH), Karlsruhe,
Germany
Zhiguo Wang, Wenzhe Yang, Daqing Petroleum Institute,
Daqing, Heilongjiang, China, Yongchen Song, Dalian
University of Technology, Dalian, Liaoning, China
Order-Geometric Configuration of Momentum and Thermal
Potential Energy
Improved Pyroelectric Energy Converter for Waste Heat Energy
Harvesting Using Co-Polymer P(VDF-TrFE) and Olsen Cycle
Board #90: Poster IHTC14-22027
Weimin Huang, College of Power Engineering, University of
Shanghai for Science and Technology, Shanghai, Shanghai,
China
Board #100: Poster IHTC14-23412
Hiep Nguyen, Ashcon Navid, Laurent Pilon, University of
California, Los Angeles, Los Angeles, CA, USA
82
FRIDAY, AUGUST 13
TECHNICAL
SESSIONS
FRIDAY, AUGUST 13
Flow Rate Maldistribution in Multi Heated Parallel Pipes
Board #9: Poster IHTC14-22650
Mordechai Baikin, University of Tel-Aviv/Faculty of
Engineering, Tel-Aviv, Israel, Yehuda Taitel, Dvora Barnea,
University of Tel-Aviv, Tel-Aviv, Israel
POSTER SESSION 8: 8:30am – 10:30pm
Boiling Heat Transfer
Heat Transfer Characteristics of Flow Boiling of R134a in
Uniformly Heated Horizontal Circular Microtubes
2-4 Flow Boiling II
Ambassador
8:30am - 10:30am
Board #10: Poster IHTC14-22656
Saptarshi Basu, Rensselaer Polytechnic Institute, Troy, NY,
USA, Sidy Ndao, Rensselaer Polytechnic Institute (RPI), Troy,
NY, USA, Gregory J. Michna, South Dakota State University,
Brookings, SD, USA, Yoav Peles, Michael Jensen,
Rensselaer Polytechnic Institute, Troy, NY, USA
Session Chair: Yoav Peles, Rensselaer Polytechnic Institute, Troy,
NY, USA
Session Co-Chair: D. Keith Hollingsworth, University of Houston,
Houston, TX, USA
Flow Boiling of Water on Titanium and Diamond-like Carbon
Coated Surfaces in a Microchannel
Characteristics of Two-Phase Flow Boiling Heat Transfer and
Pressure Drop of NH3, C3H8 and CO2 in Horizontal Circular
Small Tubes
Board #1: Poster IHTC14-22024
Hai Trieu Phan, CEA Grenoble, Liten/Leth, Grenoble, Isère,
France, Nadia Caney, Philippe Marty, Legi-Greth, CEA
Grenoble, Grenoble, France, Stéphane Colasson, Jérôme
Gavillet, CEA Grenoble, Liten/Leth, Grenoble, France
Board #11: Poster IHTC14-22660
Jong-Taek Oh, Chonnam National University, Yeosu, Chonnam,
Korea (Republic), Agus S. Pamitran, University of Indonesia,
Depok, Indonesia, Kwang-Il Choi, Maulana Rifaldi, Chonnam
National University, Yeosu, Chonnam, Korea (Republic)
Forced Convective Boiling of Refrigerant HCFC123 in a Mini-tube
Board #2: Poster IHTC14-22060
Visualization of Flow Boiling Heat Transfer in a Microtube
Keiji Murata, Koichi Araga, Keisuke Okamoto, Kinki
University Technical College, Kumano, Japan
Board #12: Poster Presentation Only IHTC14-23058
Gian Piero Celata, ENEA, S.M. Galeria, Rome, Italy, Maurizio
Cumo, University of Rome “La Sapienza”, Rome, Italy, Denam
Dossevi, Engineering School of the University of Nantes,
Nantes, France, René, T.M. Jilisen, Eindhoven University of
Technology, Eindhoven, Netherlands, Sujoy Kumar Saha,
Bengal Engineering and Science University Shibpur, Howrah,
West Bengal, India, Giuseppe Zummo, ENEA, Roma, Italy
Experimental Investigation of Boiling Heat Transfer and Pressure
Drop in Swirl Flow under Conditions of One-sided Heating
Board #3: Poster IHTC14-22215
Alexander T. Komov, Alexey V. Dedov, Alexander N. Varava,
Victor V. Yagov, Moscow Power Engineering Institute
(Technical University), Moscow, Russia
Flow Boiling Heat Transfer of R123/R134a Mixture in a
Micro-Channel
A Method for Concurrent Thermographic-Photographic
Visualization of Flow Boiling in a Minichannel
Board #4: Poster IHTC14-22365
Board #13: Poster IHTC14-23107
Arif Ozer, Ahmet Oncel, D. Keith Hollingsworth, University
of Houston, Houston, TX, USA, Larry Witte, Univ. of Houston,
Houston, TX, USA
Sehwan In, Sangkwon Jeong, Korea Advanced Institute of
Science and Technology, Daejeon, Korea (Republic)
Heat Transfer in Vapour-liquid Flow at High Reduced Pressures
Test Facility to Study the Chill Down Phase of a Liquified Gas
Flow
Board #5: Poster IHTC14-22376
Victor V. Yagov, Maria V. Minko, Moscow Power Engineering
Institute (Technical University), Moscow, Russia
Board #14: Poster IHTC14-23120
Bruno Panella, Mario De Salve, Politecnico di Torino, Torino, Italy
Cooling Characteristics of Ultrafine Cryoprobe Utilizing
Convective Boiling Heat Transfer in Microchannel
Assessment of Components of the Subcooled Boiling Model
for CFD Simulations
Board #6: Poster IHTC14-22550
Board #15: Poster IHTC14-23163
Junnosuke Okajima, Shigenao Maruyama, Hiroki Takeda,
Atsuki Komiya, Tohoku University, Sendai, Miyagi, Japan,
Sangkwon Jeong, Korea Advanced Institute of Science and
Technology, Daejeon, Korea (Republic)
Deoras Prabhudharwadkar, Martin Lopez-De-Bertodano,
School of Nuclear Engineering, Purdue University, West
Lafayette, IN, USA, John Buchanan, Jr., Bechtel Marine
Propulsion Corporation, West Mifflin, PA, USA, Avinash
Vaidheeswaran, School of Nuclear Engineering, Purdue
University, West Lafayette, IN, USA
Flow Pattern and Boiling Heat Transfer of CO2 at High
Pressure in Horizontal Mini-Channels
Board #7: Poster IHTC14-22560
Investigation of Carbon Dioxide Explosive Boiling in a Single
Evaporator of a Two-phase Mechnically-pumped Thermal
Control Loop
Takeyuki Ami, Noriko Nakamura, Hisashi Umekawa, Kansai
University, Suita, Japan, Mamoru Ozawa, Kansai University,
Osaka, Japan, Masahiro Shoji, Kanagawa University,
Yokohama, Kanagawa, Japan
Board #16: Poster IHTC14-23167
XiHui Sun, ZhengCheng Huang, WenJia Xiao, Sun Yat-Sen
University, GuangZhou, China, Yue Chen, Sun Yat-Sen University,
Guanghzou, China, Zhenhui He, Sun Yat-sen University,
Guangzhou, Guangdong, China, Johannes Van Es, Aswin Pauw,
National Aerospace Laboratory, Marknesse, Netherlands
Single Phase and Flow Boiling Heat Transfer of Water and
Ethanol in a Mini-Channel Array
Board #8: Poster IHTC14-22608
Klaus Spindler, Mohammad Waleed Alnaser, Hans MuellerSteinhagen, University of Stuttgart, Stuttgart, Germany
83
FRIDAY, AUGUST 13
TECHNICAL
SESSIONS
Study on Flow Boiling Heat Transfer of Carbon Dioxide with
PAG-type Lubricating Oil at Pre-dryout Region Inside
Horizontal Tubes
Surface Functionalization Mechanisms of Enhancing Heat
Transfer at Solid-liquid Interfaces
Board #24: Poster IHTC14-22362
Board #17: Poster IHTC14-23189
Ming Hu, ETH Zurich, Zurich, Switzerland, Javier V.
Goicochea, IBM Research GmbH, Zurich Research
Laboratory, Rüschlikon, Switzerland, Bruno Michel, IBM
Zurich Research Laboratory - Advanced Thermal Packaging,
Rüschlikon, Switzerland, Dimos Poulikakos, ETH Zurich Laboratory of Thermodynamics in Emerging Technologies,
Zürich, Switzerland
Chaobin Dang, Minxia Li, Eiji Hihara, The University of
Tokyo, Kashiwa, Chiba, Japan
Boiling Heat Transfer in Microtubes at High Flow Rates
Board #18: Poster IHTC14-23235
Mehmed Rafet Özdemir, Sabanci University, Istanbul, Turkey,
Ali Kosar, Sabanci University, Istanbul, Istanbul, Turkey
Experimental Study on Water Evaporation Enhanced by
Surface Heating
Pressure Drop and Two Phase Flow during Boiling of FC-72
in a High Aspect Ratio Micro-channel
Board #25: Poster IHTC14-22408
Board #19: Poster IHTC14-23336
Fei Duan, Nanyang Technological University, Singapore
Yuan Wang, Khellil Sefiane, University of Edinburgh,
Edinburgh, United Kingdom, Rachid Bennacer, University of
Cergy Pontoise, Cergy Pontoise, France
Transient Evaporation of Liquid Water Films and
Condensation of Humid Air at the Isothermal Walls of a
Square Cavity
Evaporation
Board #26: Poster IHTC14-22467
Hua Sun, Guy Lauriat, University Paris-Est, Marne-la-Vallee,
Marne-la-Vallee cedex 2, France, Xavier Nicolas, Université
Paris Est Marne la Vallée, Marne la Vallée Cedex 2, France
9-1 Evaporation Heat Transfer
Ambassador
8:30am - 10:30am
Experimental Investigation of a Contact Line Dynamic
Induced by Liquid Evaporation Heat and Mass Transfer
Session Chair: Niro Nagai, University of Fukui, Fukui, Japan
Session Co-Chair: Evelyn Wang, Massachusetts Institute of
Technology, Cambridge, MA, USA
Board #27: Poster IHTC14-22562
Loic Tachon, IUSTI Aix Marseille Universite, Marseille, France,
Stephan N. Guignard, I.U.S.T.I - Université de Provence,
Marseille, France, Lounes Tadrist, IUSTI Aix Marseille
Universite, Marseille, France
Capillary Flow Separation in 2- and 3-Dimensional Laminar
Falling Liquid Films
Board #20: Poster IHTC14-22064
Georg Dietze, Reinhold Kneer, Institute of Heat and Mass
Transfer, Aachen, Germany
Liquid-Solid Contact at Evaporation of Water Liquid Droplet
Emulsified with Lubricant and Its Adhesion Situation
Decay of the Falling Wavy Liquids Films at Nonstationary
Heat Release
Board #28: Poster IHTC14-22597
Niro Nagai, Takenori Matsumura, University of Fukui, Fukui,
Japan, Shingo Yamaguchi, University of Fukui, Fukui, Japan,
Yasuyuki Maeda, Kazuhiko Ikebata, Nicca Chemical Co.
Ltd., Fukui, Japan
Board #21: Poster IHTC14-22174
Aleksandr N. Pavlenko, Kutateladze Institute of
Thermophysics of SB RAS, Novosibirsk, Russia, Anton S.
Surtaev, Kutateladze Institute of Thermophysics SB RAS,
Novosibirsk, Russia, Irina P. Starodubtseva, Oleg A. Volodin,
Andrei N. Chernyavski, Alexei N. Tsoi, Kutateladze Institute
of Thermophysics Of SB RAS, Novosibirsk, Russia, Aleksandr
S. Pyatkov, Kutateladze Institute of Thermophysics SB RAS,
Novosibirsk, Russia
Precursor Film Formation of Spreading Droplet
Board #29: Poster IHTC14-22635
Ichiro Ueno, Tokyo University of Science, Noda, Chiba, Japan,
Kanji Hirose, Mitsubishi Heavy Industries, Ltd., Komaki, Aichi,
Japan, Yusuke Kizaki, Mitsubishi Heavy Industries, Ltd.,
Komaki, Aichi, Japan
Heat Transfer and Flow Instabilities in Ethanol Sessile Drops
under Evaporation
A Boundary Value Model for the Evaporation Meniscus on
Rough Surfaces
Board #22: Poster IHTC14-22185
Benjamin Sobac, Aix-Marseille University/Lusti Laboratory,
Marseille, France (Metro), David Brutin, Aix-Marseille
University /Lusti Laboratory, Marseille, France
Board #30: Poster IHTC14-22677
Arya Chatterjee, Rensselaer Polytechnic Institute, Troy, NY,
USA, Joel Plawsky, Peter Wayner, Rensselaer Ploytechnic
Institute, Troy, NY, USA
Experimental Investigation of Micro-Scale Heat Transfer at
an Evaporating Moving 3-Phase Contact Line
Wetting Hysteresis and Impact Phenomena on Textured
Hydrophobic Surfaces
Board #23: Poster IHTC14-22280
Peter Stephan, Khalid Ibrahem, Technische Universität
Darmstadt, Darmstadt, Germany, Mohamed Fayek Abd
Rabbo, Benha University , Shoubra Faculty of Engineering,
Cairo, Cairo, Egypt, Tatiana Gambaryan-Roisman,
Technische Universität Darmstadt, Darmstadt, Germany
Board #31: Poster IHTC14-22722
Kripa Varanasi, MIT, Cambridge, MA, USA
Molecular Dynamics Simulation for the Impact of N-decanol
Surfactants on the Liquid-Vapor Interface of Lithium
Bromide Aqueous Solution
Board #32: Poster IHTC14-22746
Beibei Zhu, Hongtao Gao, College of Marine Engineering,
Dalian Maritime University, Dalian, China
84
FRIDAY, AUGUST 13
TECHNICAL
SESSIONS
Effects of Air Induct Structure to Flow Uniformity and Resistance
for Primary Surface Recuperator of a Micro Gas Turbine
High-flux Thin Film Evaporation on Nanostructured Surfaces
Board #33: Poster IHTC14-22905
Board #41: Poster IHTC14-22332
Rong Xiao, MIT, Cambridge, MA, USA, Kuang-Han Chu,
Evelyn Wang, Massachusetts Institute of Technology,
Cambridge, MA, USA
Wei Qu, Shan Gao, Institute of Engineering Thermophysics,
Chinese Academy of Sciences, Beijing, China
Heat and Mass Transfer Control by Evaporative Thermal
Patterning of Thin Liquid Layers
Experimental Investigation of Louver Cooling Scheme on
Gas Turbine Vane Pressure Side
Board #34: Poster Presentation Only IHTC14-22916
Board #42: Poster IHTC14-22398
Carlo S. Iorio, Universitè Libre de Bruxelles, Bruxelles, Belgium,
Olga Goncharova, Altai State University, Barnaul, Russia, Oleg
Kabov, Institute of Thermophysics, Novosibirsk, Russia
Tarek Elnady, Wael Saleh, Ibrahim Hassan, Lyes Kadem,
Concordia University, Montreal, QC, Canada, Terry Lucas,
P&WC, Montreal, QC, Canada
Numerical Simulation of Heat and Mass Transfer of an
Evaporating Pinned Sessile Drop: Influence of the Substrate
Thermal Conductivity
Shape Optimization of a Rotating Rectangular Channel with
Pin-Fins by Kriging Model
Board #43: Poster IHTC14-22523
Board #35: Poster Presentation Only IHTC14-23029
Moon Mi-Ae, Afzal Husain, Kwang-Yong Kim, Inha
University, Incheon, Korea (Republic)
Mebrouk Ait Saada, USTHB, Alger, Algeria, Salah Chikh,
University of Science and Technology, Houari Boumediene,
Alger, Algeria, L. Tadrist, IUSTI Lab, Polytech Marseille,
Marseille, France
Film Cooling Efficiency in the Supersonic Flow With Foreign
Gas Injection
Board #44: Poster IHTC14-22580
Internal Flows in Microscopic Polymer Solution Droplets
Evaporating on Flat Surfaces
Andrey G Zditovets, Alexander I. Leontiev, Yurii A. Vinogradov,
Mark M. Strongin, Alexander A. Titov, Institute of Mechanics
Lomonosov Moscow State University, Moscow, Russia
Board #36: Poster IHTC14-23178
Shohei Yasumatsu, Narumi Nanri, Yu Yoshitake, Koichi
Nakaso, Jun Fukai, Kyushu University, Fukuoka, Fukuoka, Japan
Analysis of Temperature Distribution over a Gas Turbine
Shaft Exposed to a Swirl Combustor Flue
Viscosity Effect on Thermocapillary Rupture of Falling Liquid
Films
Board #45: Poster IHTC14-22628
Vahid Aghakashi, Mohammad Hassan Saidi, Akbar
Ghafourian, A.A. Mozafari, Sharif University of Technology,
Tehran, Iran
Board #37: Poster IHTC14-23222
Dmitry Zaitsev, Insitute of Thermophysics SB RAS,
Novosibirsk, Russia, Andrey Semenov, Institute of
Thermophysics SB RAS, Novosibirsk, Russia, Oleg Kabov,
Institute of Thermophysics, Novosibirsk, Russia
Numerical Analysis of the Multiple-horseshoe-vortex Effects
on the Endwall Heat Transfer in the Leading-edge Region of
a Symmetric Bluff Body
Effect of Nano-structured Surface on Meniscus Evaporation
at Nanoscale
Board #46: Poster IHTC14-22655
Aleksander Levchenya, Evgueni Smirnov, St. Petersburg
State Polytechnic University, St. Petersburg, Russia
Board #38: Poster IHTC14-23306
Shalabh C. Maroo, Massachusetts Institute of Technology,
Cambridge, MA, USA, Jacob Chung, University of Florida,
Gainesville, FL, USA
Heat Transfer and Pressure Drop Characteristics for a
Turbine Casing Impingement Cooling System
Board #47: Poster IHTC14-22817
Gas Turbines
Fahmi Ben Ahmed, Bernhard Weigand, University of
Stuttgart, Institut für Thermodynamik der Luft- und Raumfahrt
(ITLR), Stuttgart, Germany, Karsten Meier, MTU Aero Engines
GmbH, München, Germany
11-1 Gas Turbines
Palladian
8:30am - 10:30am
CFD Model Validation of Mist/Steam Cooling in a 180-Degree
Bend Tubes and Prediction at Gas Turbine Working Environment
Session Chair: Srinath Ekkad, Virginia Tech, Blacksburg, VA, USA
Session Co-Chair: Ibrahim Hassan, Concordia University,
Montreal, QC, Canada
Board #48: Poster IHTC14-22833
Thirumalisai Dhanasekaran, Ting Wang, University of New
Orleans, New Orleans, LA, USA
The Simulation Study of Turbulence Models for Conjugate Heat
Transfer Analysis of a High Pressure Air-Cooled Gas Turbine
Unsteady Wake and Coolant Density Effects on Turbine
Blade Film Cooling using PSP Technique
Board #39: Poster IHTC14-22088
Wang Zhenfeng, Yan Peigang, Tang Hongfei, Huang
Hongyan, Han Wanjin, Harbin Institute of Technology, China,
Harbin, China
Board #49: Poster IHTC14-22911
Akhilesh P Rallabandi, Texas A&M University, College Station,
TX, USA, Shiou-Jiuan Li, J.C. Han, Texas A&M University,
College Station, TX, USA
Comprison of Pins/Dimples/Protrusions Cooling Concepts for
an Internal Turbine Blade Tip-Wall at High Reynolds Numbers
Computational Study of Gas Turbine Blade Cooling Channel
Board #40: Poster IHTC14-22284
Bengt Sunden, Gongnan Xie, Lund University, Lund, Skane,
Sweden, Weihong Zhang, Northwestern Polytechnical
University, Xian, China
Board #50: Poster IHTC14-22920
Ryo Amano, Krishna Guntur, Jose Omar Martinez Lucci,
University of Wisconsin-Milwaukee, Milwaukee, WI, USA
85
FRIDAY, AUGUST 13
TECHNICAL
SESSIONS
Local Heat Transfer for Condenstion in Single Silicon
Microchannel
A Comparison Study of Heat Transfer through Electron
Beam Vapor Deposition (EBPVD) and Air Plasma Sprayed
(APS) Coated Gas Turbine Blades
Board #59: Poster IHTC14-22191
Board #51: Poster IHTC14-22961
Ahmad Odaymet, FEMTO-ST / FCLAB / UTBM, Belfort, France,
Hasna Gualous, FEMTO-ST/FCLAB/UTBM, Belfort, France
Stephen Akwaboa, Southern University A&M College, Baton
Rouge, LA, USA, Patrick Mensah, Southern University and
A&M College, Baton Rouge, LA, USA
Heat Transfer Characteristics of Turbulent Gas Flow Through
Micro-Tubes
Numerical Simulation on Fluid Flow and Heat Transfer of
Film Cooling with Backward Injection
Board #60: Poster IHTC14-22355
Chungpyo Hong, Yuki Uchida, Takaharu Yamamoto, Tokyo
University of Science, Noda, Chiba, Japan, Yutaka Asako,
Tokyo Metropolitan University, Hachioji, Tokyo, Japan, Koichi
Suzuki, Tokyo University of Science, Noda, Chiba, Japan
Board #52: Poster IHTC14-22995
Xianchang Li, Lamar University, Beaumont, TX, USA
Computational and Experimental Study of Conjugate Heat
Transfer from a Flat Plate with Shower Head Impinging Jets
Numerical Modeling of New Heat Exchanger Materials
Board #53: Poster IHTC14-23188
Board #61: Poster IHTC14-22360
Rajesh Kumar Panda, Sreekala P., Indian Institute of
Technology Madras, Chennai, Tamilnadu, India, Prasad,
V.S.S.S. Bhamidi, Indian Institute of Technology, Madras, India,
Chennai, Tamilnadu, India
Nikola Pelevic, Theo Van der Meer, Twente University,
Enschede, Netherlands
Design Optimization and Validation of Single-phase
Rectangular Micro Channels with Axial Non-uniform Width
Numerical and Experimental Studies of Turbulent Heat
Transfer in Inclined Pin-Fin Channels with a Wavy Endwall
Board #62: Poster IHTC14-22429
Tijs Van Oevelen, Martine Baelmans, Katholieke Universiteit
Leuven, Heverlee, Belgium
Board #54: Poster IHTC14-23191
Yutaka Oda, Kenichiro Takeishi, Osaka University, Suita,
Osaka, Japan, Yoshiaki Miyake, Hideki Moriai, Mitsubishi
Heavy Industries, Ltd., Komaki, Aichi, Japan, Yusuke Motoda,
Osaka University, Suita, Osaka, Japan
Three-dimensional Modelling of Heat Transfer in Microchannels with Synthetic Jet
Board #63: Poster IHTC14-22524
Ann Lee, Victoria Timchenko, Guan H. Yeoh, John A.
Reizes, The University of New South Wales, Sydney, Australia
Sensitivity Analysis of Domain Considerations for Numerical
Simulations of Film Cooling
Three Dimensions Analysis of Flow and Heat Transfer in a
Microchannel with One Wavy Surface
Board #55: Poster IHTC14-23241
Perry L. Johnson, Cuong Q. Nguyen, Son H. Ho, Jayanta S.
Kapat, University of Central Florida, Orlando, FL, USA
Board #64: Poster Presentation Only IHTC14-22602
Qingming Liu, South China University of Technology,
Guangzhou, Guangdong, China, Zhu Dongsheng, South
China University of Technology, Guangzhou, China
An Experimental Investigation of Film Cooling Performance
of Louver Scheme
Board #56: Poster IHTC14-23262
Three Dimensional Numerical Simulation of Gas Heat
Transfer in Rectangular Microchannels
Mohamed Ghorab, Ibrahim Hassan, Concordia University,
Montreal, QC, Canada, Terry Lucas, P&WC, Montreal, QC,
Canada
Board #65: Poster IHTC14-22713
Xiaohong Yan, Xian Jiaotong University, Xian, Shaanxi, China,
Qiuwang Wang, Xi’an Jiaotong University, Xi’an, Shaanxi, China
An Experimental Investigation of a New Hybrid Film Cooling
Scheme
Analysis and Simulation of Heat Transfer in a
Superhydrophobic Microchannel
Board #57: Poster IHTC14-23263
Mohamed Ghorab, Ibrahim Hassan, Concordia University,
Montreal, QC, Canada, Terry Lucas, P&WC, Montreal, QC,
Canada
Board #66: Poster IHTC14-22948
Ryan Enright, University of Limerick, Castletroy, Limerick, Ireland,
Marc Hodes, Tufts University, Medford, MA, USA, Todd Salamon,
Alcatel-Lucent, Bell Labs, Murray Hill, NJ, USA, Yuri Muzychka,
Memorial University of Newfoundland, St. John’s, NF, Canada
Microchannels
17-1 Microchannels 2
Diplomat
Heat Transfer and Correlation Mapping For The Estimation
Of Thermophysical Properties in Microfluidic Devices
8:30am - 10:30am
Session Chair: Anton A. van Steenhoven, Eindhoven University of
Technology, Eindhoven, Netherlands
Session Co-Chair: Weilin Qu, University of Hawaii at Manoa,
Honolulu, HI, USA
Board #67: Poster IHTC14-23063
Christophe Pradere, Trefle Laboratory, Talence, France,
Christophe Ravey, Trefle Laboratory, Talence, France, JeanChristophe Batsale, Trefle/Arts et Métiers Paris Tech, Talence,
France
Influence of Flow Acceleration on Convection Heat Transfer
of CO2 at Supercritical Pressures and Air in a Vertical Micro
Tube
Pressure-Driven Gas Flows in Long Rectangular
Microchannels with Uniform Heat Flux Boundary Conditions
Board #58: Poster IHTC14-22051
Board #68: Poster IHTC14-23077
Pei-xue Jiang, Ruina Xu, Zhi-hui Li, Chen-Ru Zhao,
Tsinghua University, Beijing, China
Zhanyu Sun, Yogesh Jaluria, Rutgers University, Piscataway,
NJ, USA
86
FRIDAY, AUGUST 13
TECHNICAL
SESSIONS
Numerical Investigation of Heat Transfer Effects in
Microchannels under H2 Boundary Condition
Predicting the Phonon Properties of Carbon Nanotubes
Using the Spectra Energy Density
Board #69: Poster IHTC14-23118
Board #78: Poster IHTC14-22262
Viral Dharaiya, Rishabh Srivastava, Satish Kandlikar,
Rochester Institute of Technology, Rochester, NY, USA
John A. Thomas, Joseph Turney, Carnegie Mellon University,
Pittsburgh, PA, USA, Ryan Iutzi, University of Waterloo,
Waterloo, ON, Canada, Alan McGaughey, Carnegie Mellon
University, Pittsburgh, PA, USA, Cristina Amon, University of
Toronto, Toronto, ON, Canada
Joule Heating Induced Temperature Gradient Focusing
Board #70: Poster IHTC14-23134
Zhengwei Ge, Chun Yang, Nanyang Technological University,
Singapore
A Graphene Chain Acts as a Long-Distance Ballistic Heat
Conductor
Roughness Effect on the Heat Transfer Coefficient for
Gaseous Flow in Microchannels
Board #79: Poster IHTC14-22289
Koji Takahashi, Yohei Ito, Tatsuya Ikuta, Kyushu University,
Fukuoka, Fukuoka, Japan
Board #71: Poster IHTC14-23142
Metin B. Turgay, Almila Yazicioglu, Middle East Technical
University, Ankara, Turkey, Sadik Kakac, TOBB University of
Economics and Technology, Ankara, Turkey
Thermal and Electrical Transport Characteristics of
Polycrystalline Gold Nanofilms
Board #80: Poster IHTC14-22328
Heat Transfer Correlations for Thermally Developing Flow in
Rectangular Micro-Channels Subject to Four-Sided and
Three-Sided H1 Boundary Conditions
Weigang Ma, Tingting Miao, Tsinghua University, Beijing,
China, Xing Zhang, Tsinghua University, Beijing, China
Extraordinary Thermal Conductivity of Graphene: Prospects
of Thermal Management Applications
Board #72: Poster IHTC14-23173
Ruey Hwu, Weilin Qu, University of Hawaii at Manoa,
Honolulu, HI, USA
Board #81: Poster IHTC14-22348
Suchismita Ghosh, Intel Corporation, Hillsboro, OR, USA,
Denis L. Nika, Evgenni P. Pokatilov, Irene Calizo, University of
California Riverside, Riverside, CA, USA, Alexander A.
Balandin, University of California, Riverside, Riverside, CA, USA
Effects of Protrusions on Conjugate Heat Transfer in a
Microtube or Microchannel
Board #73: Poster IHTC14-23319
Muhammad Rahman, Phaninder Injeti, University of South
Florida, Tampa, FL, USA
Optical Measurements of the Thermal Conductivity of
Porous SiO2 Films
Experimental Investigation of Silicon-based Oblique Finned
Microchannel Heat Sinks
Board #82: Poster IHTC14-22488
Patrick E. Hopkins, Sandia National Laboratories,
Albuquerque, NM, USA, Bryan Kaehr, Leslie M. Phinney,
Timothy Koehler, Anne Grillet, Sandia National Labs,
Albuquerque, NM, USA, Darren Dunphy, Fred Garcia,
University of New Mexico, Albuquerque, NM, USA, Jeffrey
Brinker, Sandia National Labs, Albuquerque, NM, USA
Board #74: Poster IHTC14-23413
Yong Jiun Lee, Poh Seng Lee, Siaw Kiang Chou, National
University of Singapore, Singapore
The Effect of Liquid Film Evaporation on Flow Boiling Heat
Transfer in a Micro Tube
Frequency-Domain Thermoreflectance Technique for
Measuring Thermal Conductivity and Interface Thermal
Conductance of Thin Films
Board #75: Poster IHTC14-22751
Youngbae Han, Naoki Shikazono, Nobuhide Kasagi, The
University of Tokyo, Tokyo, Japan
Board #83: Poster IHTC14-22522
Nano
Jie Zhu, University of Colorado at Boulder, Boulder, CO, USA,
D.W. Tang, Institute of Engineering Thermophysics, Chinese
Academy of Sciences, Beijing, China, Ronggui Yang, Jun Liu,
Wei Wang, University of Colorado at Boulder, Boulder, CO, USA
18-2 Phonon Transport and Thermal Conductivity
Diplomat
8:30am - 10:30am
Phonon Transport in Thin Films: A Lattice
Dynamics/Boltzmann Transport Equation Study
Session Chair: Debjyoti Banerjee, Texas A&M University, College
Station, TX, USA
Session Co-Chair: Laurent Pilon, University of California, Los
Angeles, Los Angeles, CA, USA
Board #84: Poster IHTC14-22623
Daniel Sellan, University of Toronto, Toronto, ON, Canada,
Joseph Turney, Eric S. Landry, Alan McGaughey, Carnegie
Mellon University, Pittsburgh, PA, USA, Cristina Amon,
University of Toronto, Toronto, ON, Canada
Analysis of Thermal Transport in Zinc Oxide Nanowires using
Molecular-dynamics Simulations with the ReaxFF Reactive
Force-field
Ultralow Thermal Conductivity in Quasi-one Dimensional
Silicon Nanowires
Board #76: Poster IHTC14-22733
Arvind Krishnasamy Bharathi, Pennsylvania State University,
State College, PA, USA, Adri van Duin, Pennsylvania State
University, University Park, PA, USA
Board #85: Poster Presentation Only IHTC14-22976
Kedar Hippalgaonkar, Jinyao Tang, University of California
Berkeley, Berkeley, CA, USA, Peter Ercius, National Center for
Electron Micrsocopy, Lawrence Berkeley National Labs, Berkeley,
CA, USA, Karma Sawyer, Renkun Chen, Baoling Huang,
Peidong Yang, University of California Berkeley, Berkeley, CA, USA,
Arun Majumdar, US Department of Energy, Advanced Research
Projects Agency for Energy (ARPA-E), Washington DC, USA
Spectral Dependence of Phonon Transport and Scattering in
Graphene
Board #77: Poster Presentation Only IHTC14-23136
Dhruv Singh, Jayathi Y. Murthy, Timothy S. Fisher, Purdue
University, West Lafayette, IN, USA
87
FRIDAY, AUGUST 13
TECHNICAL
SESSIONS
Thermal Conductivity of Mesoporous MCM-41 Studied by
Molecular Dynamics Methods and Kinetic Theory
Porous Media
Board #86: Poster IHTC14-23031
24-2 Porous Media 2
Congliang Huang, Yanhui Feng, Xinxin Zhang, Ge Wang, Mu
Yang, University of Science and Technology Beijing, Beijing, China
Palladian
8:30am - 10:30am
Session Chair: Ulrich Gross, Technische Universitaet
Bergakademie Freiberg, Freiberg, Germany
Session Co-Chair: Moran Wang, Los Alamos National Laboratory,
Los Alamos, NM, USA
The Effects of Stone-Wales Defect on Carbon Nanotubes
Thermal Conductivity
Board #87: Poster IHTC14-23057
Li Wei, Yanhui Feng, Xinxin Zhang, University of Science and
Technology Beijing, Beijing, China
Tomography-based Determination of Effective Transport
Properties of Reacting Porous Media
Thermal Conductivity of Amorphous and Crystalline
Mesoporous Titania Thin Films
Board #95: Poster IHTC14-22190
Sophia Haussener, ETH Zurich, Zurich, Switzerland, Iwan
Jerjen, Peter Wyss, EMPA, Dübendorf, Switzerland, Aldo
Steinfeld, ETH Zurich, Zurich, Switzerland
Board #88: Poster IHTC14-23161
Thomas Coquil, University of California, Los Angeles, Los Angeles,
CA, USA, Torsten Brezesinski, Justus-Liebig-University of Giessen,
Giessen, 35392, Germany, Eric J. Nemanick, University of California,
Los Angeles, Los Angeles, CA, USA, Sarah H. Tolbert, University of
California, Los Angeles, CA, USA, Laurent Pilon, University of
California, Los Angeles, Los Angeles, CA, USA, Christian Reitz,
Justus-Liebig-University of Giessen, Giessen, Germany
Modeling of Thermal Transport Properties of Multiphase
Porous Materials
Board #96: Poster Presentation Only IHTC14-22209
Moran Wang, Los Alamos National Laboratory, Los Alamos,
NM, USA, Ning Pan, University of California, Davis, CA, USA,
Qinjun Kang, Bruce Robinson, Los Alamos National
Laboratory, Los Alamos, NM, USA
Thermal Conductivity of Pure-Silica-Zeolite MEL Thin Films
Board #89: Poster IHTC14-23183
Thomas Coquil, University of California, Los Angeles, Los
Angeles, CA, USA, Christopher M. Lew, Yushan Yan, University
of California, Riverside, Riverside, CA, USA, Laurent Pilon,
University of California, Los Angeles, Los Angeles, CA, USA
Study on the Effective Thermal Conductivity of Macro, Micro
and Nano Porous Materials in the Light of the Knudsen Effect
Board #97: Poster IHTC14-22297
Ulrich Gross, Khaled Raed, Technische Universitaet
Bergakademie Freiberg, Freiberg, Germany
Short and Long Wavelength Phonon Decay Pathways in
Wurtzite Gallium Nitride
Unsteady Helical Flows of a Generalized Oldroyd-B Fluid
with Fractional Derivative in Porous Medium
Board #90: Poster Presentation Only IHTC14-23292
Adam Christensen, Samuel Graham, Georgia Institute of
Technology, Atlanta, GA, USA, P. Douglas Yoder, Georgia
Institue of Technology, Savannah, GA, USA
Board #98: Poster Presentation Only IHTC14-22456
Dongjuan Liang, Liancun Zheng, Xinxin Zhang, University of
Science and Technology Beijing, Beijing, China
Thermal Conductivity Measurement of Graphene Exfoliated
on Silicon Dioxide
A Transient Technique to Determine Thermal Conductivity
and Thermal Contact Resistance of Porous Materials
Board #91: Poster IHTC14-23295
Board #99: Poster IHTC14-22532
Jae Hun Seol, The University of Texas at Austin, Austin, TX,
USA, Arden L. Moore, Insun Jo, Zhen Yao, Li Shi, The
University of Texas at Austin, Austin, TX, USA
Peter De Jaeger, NV Bekaert Sa, Zwevegem, Belgium,
Christophe T’Joen, Henk Huisseune, Ghent University – U
Gent, Gent, Belgium, Michel De Paepe, Ghent University-U
Gent, Gent, Belgium
Thermal Conductivity Characterization and Modeling of PType Metal/Semiconductor Nanocomposites
From Pore Scale Numerical Simulation of Conjugate Heat
Transfer in Cellular Material to Effectives Transport
Properties of Real Structures
Board #92: Poster IHTC14-23298
Dongyan Xu, Joseph Feser, Yang Zhao, University of
California, Berkeley, Berkeley, CA, USA, Hong Lu, Peter
Burke, Arthur Gossard, University of California, Santa
Barbara, Santa Barbara, CA, USA, Arun Majumdar, US
Department of Energy, Advanced Research Projects Agency
for Energy (ARPA-E), Washington DC, USA
Board #100: Poster Presentation Only IHTC14-22692
Jean-Michel Hugo, IUSTI Laboratory, Université de Provence,
Marseille, France, Frederic Topin, Polytech’Marseille - IUSTI
Lab, Marseille, France, France, Lounes TADRIST, IUSTI Aix
Marseille Universite, Marseille, France, Emmanuel Brun, IUSTI
Laboratory, Université de Provence, Marseille, France
Tuning Thermal Conductivity with Mechanical Strain
Board #93: Poster IHTC14-23334
Mathematical Models of Heat Transfer in High-Porous Materials
Xiaobo Li, Jun Liu, Ronggui Yang, University of Colorado at
Boulder, Boulder, CO, USA
Board #101: Poster IHTC14-22792
Oleg M. Alifanov, Sergey A. Budnik, Valery Cherepanov,
Aleksey V. Nenarokomov, Moscow Aviation Institute,
Moscow, Russia
A Heterogeneous Multiscale Model for Interfacial Thermal
Transport
Board #94: Poster IHTC14-22716
Two-Phase Magnetohydrodynamic Flow Simulation in
Random Porous Media Using Lattice Boltzmann Method
Ganesh Balasubramanian, Virginia Tech, Blacksburg, VA,
USA, Ravi Kappiyoor, Virginia Tech, Blacksburg, VA, USA,
Ishwar K. Puri, Virginia Tech, Blacksburg, VA, USA
Board #102: Poster IHTC14-22983
88
Mahshid Hadavand, Aydin Nabovati, Antonio CM Sousa,
University of New Brunswick, Fredericton, NB, Canada
FRIDAY, AUGUST 13
TECHNICAL
SESSIONS
Keynotes
Mixed Convection of Water at 4C Along a Wedge with a
Convective Boundary Condition in a Porous Medium
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
Board #103: Poster Presentation Only IHTC14-23070
Rama Gorla, Cleveland State University, Cleveland, OH, USA
The Characteristics of CO2 Flow and Thermal Field in a
Porous Media
32-32 Keynote
Board #104: Poster IHTC14-23365
Regency
Hang Seok Choi, Yeon Seok Choi, Hoon Chae Park, Korea
Institute of Machinery and Materials, Daejeon, Korea
(Republic), Cheol Huh, Seong-Gil Kang, Meang-Ik Cho,
Korea Ocean Research and Development Institute, Daejeon,
Korea (Republic), Yong-Hwan Kim, Daewoo Engineering
Company, Seoul, Korea (Republic)
11:35am - 12:35pm
Session Chair: Toshio Miyauchi, Tokyo Institute of Technology,
Meguro-ku, Tokyo, Japan
Phononics: A New Science and Technology of Controlling
Heat Flow and Processing Information by Phonons
Keynote (Invited Only) IHTC14-23404
Keynotes
Lei Wang, Renmin University of China, Beijing, China, Gang
Zhang, Peking University, Beijing, China, Gang Wu, Institute of
High Performance Computing, Singapore, Singapore, Nuo
Yang, MIT, Boston, MA, USA, Baowen Li, National University
of Singapore, Singapore
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
32-33 Keynote
32-29 Keynote
Regency
Blue
10:30am - 11:30am
Session Chair: Ulrich Gross, Technische
Bergakademie Freiberg, Freiberg, Germany
Session Chair: Denis Maillet, CNRS & Nancy-Université,
Vandoeuvre, France
Universitaet
Use of Analytical Expressions of Convection in Conjugated
Heat Transfer Problems
Interfacial Thermal Fluid Phenomena in Thin Liquid Films
Keynote (Invited Only). IHTC14-22959
Keynote (Invited Only) IHTC14-23406
Oleg Kabov, Institute of Thermophysics, Novosibirsk, Russia
Reijo Karvinen, Tampere University of Technology, Tampere,
Finland
32-30 Keynote
Blue
10:30am - 11:30am
32-34 Keynote
Session Chair: Patrick H. Oosthuizen, Dept. of Mechanical and
Materials Engineering, Queen’s University, Kingston, ON, Canada
Empire
11:35am - 12:35pm
Session Chair: Michael Jensen, Rensselaer Polytechnic Institute,
Troy, NY, USA
Thermosolutal Natural Convection in Partial Porous Domains
Keynote (Invited Only) IHTC14-23405
Steam Jet Condensation in a Pool: From Fundamental
Understanding to Engineering Scale Analysis
Dominique Gobin, Université Pierre et Marie Curie, Orsay,
France, Benoit Goyeau, Ecole Centrale, Châtenay-Malabry,
France
Keynote (Invited Only) IHTC14-23407
Chul-Hwa Song, Korea Atomic Energy Research Institute,
Daejeon, Korea (Republic)
32-31 Keynote
Empire
11:35am - 12:35pm
10:30am - 11:30am
Keynotes
Session Chair: Satish Kandlikar, Rochester Institute of
Technology, Rochester, NY, USA
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
Heat Transfer Design in Adsorption Refrigeration Systems
for Efficient Use of Low Grade Thermal Energy
32-35 Keynote
Keynote (Invited Only) IHTC14-23383
R. Z. Wang, Z.Z. Xia, L.W. Wang, Z.S. Lu, S.L. Li, T.X. Li, J.Y.
Wu, S. He, Shanghai Jiao Tong University, Shanghai, China
Regency
2:00pm - 3:00pm
Session Chair: Maurizio Cumo, University of Rome “La Sapienza”,
Rome, Italy
Influence of Force Fields and Flow Patterns on Boiling Heat
Transfer Performance
Keynote (Invited Only) IHTC14-23409
Paolo Di Marco, Università di Pisa, Pisa, Italy
89
FRIDAY, AUGUST 13
TECHNICAL
SESSIONS
32-36 Keynote
Blue
Keynotes
Track Chair: Yogesh Jaluria, Rutgers University, Piscataway, NJ,
USA
Track Co-Chair: Jungho Kim, University of Maryland, College
Park, MD, USA
2:00pm - 3:00pm
Session Chair: Nobuhide Kasagi, The University of Tokyo, Tokyo,
Japan
Recent Advances in Turbine Heat Transfer with a View on
Transition to Coal-Gas Based Systems
32-39 Keynote
Blue
Keynote (Invited Only) IHTC14-23414
Minking K. Chyu, University of Pittsburgh, Pittsburgh, PA,
USA
Session Chair: H. R. B. Orlande, Federal University of Rio de
Janeiro, Rio de Janeiro, Brazil
32-37 Keynote
Empire
3:05pm - 5:05pm
The Role of Entropy Generation in Momentum and Heat
Transfer
2:00pm - 3:00pm
Keynote (Invited Only) IHTC14-23348
Session Chair: Wen-Quan TAO, Xi’an Jiaotong University, Xi’an,
Shaanxi, China
Heinz Herwig, TU Hamburg-Harburg, Hamburg, Germany
32-40 Keynote
Use of CFD in the Analysis of Heat Transfer Related
Problems that Arise in Building Energy Studies
Empire
Keynote (Invited Only) IHTC14-23351
3:05pm - 5:05pm
Session Chair: Jean Taine, Ecole Centrale Paris, ChatenayMalabry, France (Metro)
Patrick, H. Oosthuizen, Dept. of Mechanical and Materials
Engineering, Queen’s University, Kingston, ON, Canada,
Marilyn F. Lightstone, McMaster University, Hamilton, ON,
Canada
Recent Advances in Measurement of Turbulent Reacting
Flows in Which Heat Transfer is Dominated by Radiation
Keynote (Invited Only) IHTC14-23422
Graham ‘Gus’ Nathan, Peter Kalt, Zeyad Alwahabi, Bassam
Dally, Paul Medwell, Qing ‘Shaun’ Chan, The University of
Adelaide, Adelaide, SA, Australia
90
Author Index
Author
Name
Session
Number
Abadi, Arzhang ..................................28-1
Abbasi, Bahman .................................15-1
Abd Rabbo, Mohamed Fayek ..............9-1
Abdalrahman, Khalid.................15-2, 27-1
Abdelmessih, Amanie ........................14-1
Abdel-Salam, Tarek ............................15-1
Abe, Yoshiyuki ......................................8-2
Abedin, Mohammad Z. ......................20-2
Aberra, Tilek.......................................20-1
Abo, Ryo...............................................3-1
Abou-Ellail, Mohsen M. M....................3-2
Abraham, John..............................1-1, 7-4
Abu-Nada, Eiyad ..................................4-1
Acuna, José ........................................14-4
Adj, Mamadou....................................20-1
Adom, Ebenezer ................................14-2
Adzlan, Ahmad...................................15-1
Aghakashi, Vahid ................................11-1
Agonafer, Dereje ..................................8-2
Aharon, Josef .......................................2-1
Ahmad, Masroor ..................................2-3
Ahmadi, Asadallah ...............................2-2
Ahrend, Ulf .........................................14-3
Ait Saada, Mebrouk .............................9-1
Akahori, Masatoshi.............................25-2
Akamatsu, Masato................................7-4
Akbari, Mahmood ..............................19-1
Akbarzadeh, Aliakbar ...........................8-2
Akhavan-Behabadi, M.A. ...................19-1
Aktas, Murat K......................................7-4
Akwaboa, Stephen .............................11-1
Akyildiz, Fahir T. ...................................7-1
Alam, Umair ..............................15-2, 27-1
Alane, Abdelmadjid ...........................14-5
Alani, Rhoda M.....................................1-1
Alarcón García, Mariano.......................3-1
Alavi, Sina ...........................................27-1
Aleksic, Petar......................................29-1
Alers, Glenn........................................26-1
Alfaro-Ayala, J. Arturo..........................3-1
Alfieri, Fabio .........................................8-1
Alhadhrami, Abdulrahman .................20-2
Alhama, Francisco .......................7-1, 25-2
Ali, Hafiz M ...........................................5-1
Ali, Hassan............................................5-1
Alifanov, Oleg M. ...............................24-2
Alkhateeb, Emad..................................6-1
Almbauer, Raimund..............................6-1
Alnaser, Mohammad Waleed ...............2-4
Al-Sibai, Faruk .............................6-1, 15-1
Alvarado, J.L. ............................17-2, 27-1
Alves, Thiago Antonini .........................7-1
Alwahabi, Zeyad...............................32-40
Amano, Ryo.................................3-2, 11-1
Ambirajan, Amrit ................................25-1
Ami, Takeyuki .......................................2-4
Amino, Nobushige ...............................3-1
Author
Name
Session
Number
Amon, Cristina....................................18-2
Amouzegar, Ladan .............................12-1
Amsbeck, Lars ....................................26-1
Anand, Nagamangala ..........................2-3
Anderson, Mark..................................14-4
Ando, Hirotomo ...................................7-2
Andre, Frederic ....................................3-2
Angeli, Diego .....................................20-1
Anikeev, Andrey V. ...............................7-4
Anton, Donald L. ................................28-1
Aoki, Kazuo ........................................25-2
Aoki, Takuro .......................................24-1
Araga, Koichi ........................................2-4
Arai, Takahiro........................................2-1
Araki, Kuniomi ......................................3-1
Aravinthan, Manoharan......................17-2
Arefiev, Valentin..................................28-1
Arik, Mehmet .....................................15-2
Arikoglu, Aytac.....................................7-4
Arima, Hirofumi ....................................2-3
Ariyaratne, Chanchala ........................13-1
Arlitt, Martin .........................................8-2
Armfield, S. W. ...................................20-1
Armfield, Steven W. ...........................20-1
Armijo, Kenneth .................................12-2
Armstrong, Lindsay-Marie..................14-2
Arndt, Stefanie ...................................14-5
Arrdaneh, Kazem..................................2-2
Arsentyeva, Anna .................................3-1
Artemov, Valeriy .................................24-1
Asadi, Mohammad .............................14-5
Asako, Yutaka..............................4-1, 17-1
Asaoka, T. ...........................................20-2
Ashida, Toshihiko..................................7-2
Asou, Hiroyuki ......................................2-3
Astafyeva, Vera O...............................22-1
Asthana, Ashish ..................................17-2
Attaluri, Anilchandra ............................1-1
aus der Wiesche, Stefan.......................7-4
Awad, M. M..........................................7-4
Azevedo, Luis Fernando.....................14-2
Azizian, M.Reza ..................................19-1
Babin, Valery.......................................31-1
Bae, Sangchul.....................................29-1
Baelmans, Martine ......................8-1, 17-1
Baffigi, Federica ...................................2-2
Bah, Abubakarr ..................................29-1
Bahrami, Hafe...................................Z10-1
Bai, Bo-Feng.........................................2-1
Bai, Shiwu ...........................................16-1
Bai, Yu...................................................7-3
Baikin, Mordechai.................................2-4
Bailey-McEwan, Michael ....................14-5
Baillot, Françoise ..................................3-2
Bakalis, S. .........................................32-15
Balaji, Chakravarthi ...................21-1, 25-1
Balakrishnan, Arcot R. ...............17-2, 20-1
91
Author
Name
Session
Number
Balandin, Alexander A........................18-2
Balasubramanian, Ganesh ..................18-2
Baliga, B. Rabi ....................................23-1
Balima, Olivier ....................................25-2
Balin, Igal..........................................32-14
Bamardouf, Khalid H ..........................14-5
Banerjee, Debjyoti ......2-2, 2-3, 18-1, 26-1
Bannwart, Antonio .............................31-1
Bao, Hua.............................................18-1
Barbosa Jr., Jader R. ..........................14-4
Bar-Cohen, Avram..............6-1, 17-2, 30-1
Barnea, Dvora .............................2-4, 31-1
Barozzi, Giovanni S.............................20-1
Bartoli, Carlo ........................................2-2
Barve, Vinayak ....................................25-2
Basak, Tanmay ....................................20-1
Bash, Cullen E. ............................8-2, 27-1
Basu, Saptarshi..............................2-3, 2-4
Basu, Soumyadipta.............................25-2
Batsale, Jean-Christophe ...................17-1
Bauwens, Bruno .................................31-1
Bazargan, Majid....................................7-4
Beakley, Michael.................................14-1
Beale, Steven .......................................7-3
Beechem, Thomas E...........................18-1
Behnia, Masud ............................7-4, 20-1
Behzadmehr, Amin .............................19-1
Bejan, Adrian........................................8-2
Bello-Ochende, Tunde .........7-3, 8-2, 10-1
Belov, Kirill I..........................................2-3
Belyaev, Ivan A. ..................................22-1
Ben Ahmed, Fahmi.............................11-1
Ben-Abdallah, Philippe.......................18-1
Benhamou, Brahim...............................7-3
Benim, Ali Cemal..................................7-3
Bennacer, Rachid..................................2-4
Bergles, A. E.........................................2-3
Bertier, Nicolas .....................................3-2
Bertola, Volfango ..........................4-1, 7-4
Beshay, Karam ......................................3-2
Bezerra, Juliana S. ................................6-1
Bhamidi, Prasad, V. S. S. S..................11-1
Bhopte, Siddharth ................................8-1
Bhouri, Maha ......................................28-1
Bi, Keming ............................................7-2
Bin, Liu..................................................7-2
Birgersson, Erik ..................................10-1
Biswas, Gautam ....................................7-1
Blanchat, Thomas .................................3-2
Blou, Isaac ..........................................16-1
Boetcher, Sandra ................................26-1
Bogatko, Tatyana V...............................7-1
Boghi, Andrea ......................................1-1
Boghrati, Mehdi .................................19-1
Bonadies, Monica...............................23-1
Bonner, Richard ....................................5-1
Booth, Wendell ....................................2-2
Author Index
Author
Name
Session
Number
Borello, Domenico ...............................7-3
Borges, Thomaz P.F.............................14-1
Boroushaki, Mehrdad .........................22-1
Borrell, Ricard.....................................20-2
Bortolin, Stefano ..................................5-2
Borup, Rod .........................................10-1
Bosbach, Johannes ............................13-1
Boswell, Joe .......................................12-2
Boulanger, Joan .................................25-2
Bournot, Philippe ...............................15-1
Boyard, Nicolas ..................................16-1
Bozzoli, Fabio .....................................14-4
Braeuer, Andreas..................................2-1
Brauner, Neima...................................14-1
Bremhorst, Klaus ..................................7-4
Brezesinski, Torsten ............................18-2
Briggs, Adrian ......................................5-1
Brinker, Jeffrey ...................................18-2
Brisson, John G. .................................12-1
Brown, Alexander.................................4-1
Brown, Karl J. .....................................15-1
Bruchmuller, Jorn ...............................14-2
Brun, Emmanuel .................................24-2
Brunin, Olivier.....................................22-1
Brunschwiler, Thomas................8-1, 32-16
Brus, Grzegor ...................................Z10-1
Brutin, David.........................................9-1
Buchanan, Jr., John ..............................2-4
Buchner, Christoph...............................6-1
Buck, Reiner .......................................26-1
Budakli, Mete .....................................27-1
Budig, Christian..................................14-3
Budnik, Sergey A................................24-2
Buenger, Ulrich...................................29-1
Burke, Peter .......................................18-2
Burlutskiy, Evgeniy................................2-3
Byrne, Gerry .......................................20-2
Bég, O. Anwar.............................6-1, 21-1
Cabusao, Gerald ..................................8-2
Cafaro, Emilio................................4-1, 7-4
Cahill, David .......................................30-1
Cai, Caicaoping ..................................14-4
Cai, Yulin.............................................14-1
Calizo, Irene .......................................18-2
Caltagirone, Jean-Paul .......................15-2
Campbell, Steven ...............................14-1
Campo, Antonio.................................25-2
Campos-Amezcua, Alfonso..................3-1
Caney, Nadia ........................................2-4
Canière, Hugo ....................................31-1
Cao, Bing-Yang.....................................6-1
Cao, Xing............................................14-4
Carey, Van ...................................2-3, 12-2
Carlborg, Carl F. .................................18-1
Carrasco Altemani, Carlos Alberto ......7-1
Carrington, David.................................4-1
Cassar, Daniel .....................................10-1
Author
Name
Session
Number
Castanet, Guillaume.............................3-2
Castro, Jesus ......................................13-1
Catton, Ivan .....8-2, 12-1, 14-3, 24-1, 32-3
Cavallaro, Gabriel...............................15-2
Cavallini, Alberto.........................5-2, 24-1
Celata, Gian Piero ................................2-4
Cerza, Martin........................................8-1
Cesna, Benediktas..............................14-3
Cetegen, Edvin.....................................8-2
Cevallos, Juan ......................................6-1
Cha, Sang-Jin .....................................14-3
Chai, John C.......................................12-1
Chan, Qing ‘Shaun’ ..........................32-40
Chander, Subhash ................................3-1
Chang, Chin-Yao ................................15-2
Chang, Keun-Shik...............................31-1
Chang, Soon Heung...........................19-1
Chao, Liu .....................................2-1, 14-1
Charette, André .................................25-2
Chari, Arvind ......................................30-1
Charpie, James.....................................2-2
Chatterjee, Arya ...................................9-1
Chatterjee, Barun ...............................22-1
Chattopadhyay, Himadri ......................7-3
Chatzikyriakou, Despoina...................22-1
Chen, Changnian..................................2-3
Chen, Gang ........................................18-1
Chen, Guidong...................................14-4
Chen, Guoheng..................................14-1
Chen, Haigang ...................................17-2
Chen, Hua ..........................................28-1
Chen, Ing Youn .....................................8-2
Chen, J.K. ...........................................18-1
Chen, Ken...........................................10-1
Chen, Lei ..............................................7-4
Chen, Lifei ..........................................19-1
Chen, Meiqian...........................14-1, 24-1
Chen, Qun..........................4-1, 14-3, 29-1
Chen, Renkun .....................................18-2
Chen, Tailian .........................................2-2
Chen, Wenwen .....................................2-3
Chen, Xi..............................................14-1
Chen, Y. ................................................7-2
Chen, Yan ...........................................12-1
Chen, Yuan ...........................................8-2
Chen, Yue .............................................2-4
Cheng, Lin..................5-1, 6-1, 12-1, 14-3,
................................14-4, 14-1, 14-2, 29-1
Cheng, Peng ......................................12-2
Cheng, Yanhai ......................................5-1
Chenier, Eric .......................................20-1
Cherepanov, Valery ............................24-2
Cherkasov, Sergey G. ...........................4-1
Chernetskiy, Michael ............................3-2
Chernyavski, Andrei N..........................9-1
Chiashi, Shohei...................................18-1
Chien, Liang-Han................................15-2
92
Author
Name
Session
Number
Chiesa, Giancarlo ...............................20-2
Chikahisa, Takemi ...............................10-1
Chikh, Salah..........................................9-1
Ching, Chan ..................................5-1, 5-2
Chirkov, Alexei .....................................7-4
Chiu, Wilson K. S. ...............................18-1
Cho, Meang-Ik....................................24-2
Cho, Seok ...........................................22-1
Cho, Sungyoul ....................................14-5
Cho, Young I.......................................14-2
Choi, Hang Seok .........................7-4, 24-2
Choi, Jun Seok ...................................17-2
Choi, Ki Yong......................................22-1
Choi, Kwang-Il ......................................2-4
Choi, S.W..............................................7-3
Choi, Yeon Seok .................................24-2
Choo, Kyo Sung .................................15-2
Chou, Siaw Kiang ...............................17-1
Christensen, Adam.............................18-2
Christiaans, Marcel ...............................5-2
Christofferson, James.........................13-1
Christopher, David ...............................2-1
Chu, In-Cheol .......................................2-1
Chu, Kuang-Han ...................................9-1
Chu, Pan .............................................14-4
Chu, Rong-Shiuan...............................18-1
Chudnovsky, Yaroslav ..................7-1, 28-1
Chung, Jacob .......................................9-1
Chung, Moon-Sun.......................4-1, 31-1
Churchill, Stuart W................................3-2
Chyu, Minking K. ..............................32-36
Cima, Carlo ...................................4-1, 7-4
Claesson, Joachim..............................14-4
Coelho, Pedro ...........................25-1, 32-9
Cogswell, Jeremy ...............................14-1
Colasson, Stéphane..............................2-4
Cole, G. S. ............................................2-3
Coletti, Francesco ..............................14-2
Collins, Kimberlee ..............................18-1
Collins, Michael R. ..............................26-1
Colomer, Guillem ...............................20-2
Coquil, Thomas ..................................18-2
Corradini, Michael ..............................14-4
Corre, Yann.........................................22-1
Corredor, Lesme.................................28-1
Corticelli, Mauro A. ...................20-1, 27-1
Cortés-Aburto, Obed.........................18-1
Cosden, Ian A.......................................2-1
Coso, Dusan .......................................12-1
Cossali, Gianpietro Elvio ......................4-1
Costa, Camilo A. S. ............................14-1
Cotta, Renato M. ..........................6-1, 7-3
Cotton, James...............................5-1, 5-2
Couturier, Raphael..............................26-1
Craft, Rose C. .......................................5-2
Cruz, Manuel E. ....................................6-1
Cui, Kehang........................................12-1
Author Index
Author
Name
Session
Number
Cui, Yun ..............................................25-1
Cumo, Maurizio ....................................2-4
Czapp, Marek .....................................13-1
Da Riva, Enrico .....................................5-2
da Silva, Luciana W.............................14-4
Dahan, Guy.........................................14-1
Dahan, Nir ........................................32-14
Dai, Lanhua ...............................12-2, 28-1
Dalkilic, Ahmet Selim ..................5-2, 19-1
Dally, Bassam....................................32-40
Daly, John.............................................8-1
Dammel, Frank ...................................23-1
Dancova, Petra ...................................15-2
Dang, Chaobin .....................................2-4
Das, Sarit ...................................17-2, 22-1
Dasgupta, Bhaskar .............................14-2
Daun, Kyle J. ......................................26-1
Daun, Thomas J..................................30-1
D’Auria, Francesco .............................22-1
David, Franck......................................22-1
Davidson, Jane H. ..............................26-1
Davydov, Mikhail V. ............................25-1
De Giorgi, Luigi.............................4-1, 7-4
De Jaeger, Peter .......................14-3, 24-2
de Lemos, Marcelo......................7-3, 24-1
De Paepe, Michel..............3-1, 14-3, 14-4,
..................................................24-2, 31-1
De Salve, Mario.............................2-4, 7-4
De Sousa Meneses, Domingos ..........25-2
de Vahl Davis, Graham .......................32-1
De Villiers, Gerrit ................................22-1
Dedov, Alexey V. ..................................2-4
Degiovanni, Alain.................6-1, 7-3, 13-1
Dekterev, Alexandr...............................3-2
del Campo, Leire................................25-2
Del Col, Davide ....................................5-2
Delaunay, Didier .................................16-1
Delcarte, Claudine..............................20-1
Delgoshaei, Payam...............................2-2
Delibra, Giovanni..................................7-3
Della Valle, Dominique.........................7-3
Demir, Hakan......................................19-1
Demuynck, Joachim .............................3-1
Deng, Bi-Li............................................7-2
Deng, Tao .............................................2-1
Deotto, Geoffrey ................................22-1
Depraz, Sébastien ..............................25-1
Derby, Melanie M.................................5-2
Derevich, Igor..............................3-1, 28-1
Desceliers, Christophe .......................20-1
Dessiatoun, Serguei .............................8-2
Desu, Seshu..........................................8-1
Desyatov, Andrey V. .............................4-1
Devienne, René ..................................20-2
Dhanasekaran, Thirumalisai................11-1
Dharaiya, Viral ....................................17-1
Di, Qianqian ................................1-1, 28-1
Author
Name
Session
Number
Di Marco, Paolo................................32-35
Diao, Yanhua ......................................12-1
Dias, Tito Jr.........................................20-2
Dietrich, Benjamin ..............................24-1
Dietrich, Nils.......................................15-1
Dietze, Georg.......................................9-1
DiFilippo, Michael N. .........................14-4
DiPippo, William R. .....................1-1, 18-1
Diwakar, S. V. ......................................22-1
Dmitrieva, Irina ...................................14-4
Do, Kyu Hyung ...................................26-1
Do, Xuan Doanh .................................16-1
Dombrovsky, Leonid...........................25-1
Dong, Ming ........................................28-1
Dongsheng, Zhu.................................17-1
Dorea, Felipe......................................24-1
Dorey, Luc-Henry..................................3-2
Doroodchi, Elham ..............................19-1
Dossevi, Denam ...................................2-4
Dost, Sadik .........................................16-1
Dougal, Roger ....................................15-2
Doumenc, Frederic.............................20-1
Dreisbach, Jason ..................................3-1
Drevillon, Jérémie ..............................18-1
Drumstas, Giedrius.............................21-1
Du, Haiyan ..........................................12-2
Du, Kaiwen ...........................................7-2
Du, Wenjing .....................12-1, 14-3, 14-4
Du, X.Z. .......................6-1, 8-1, 10-1, 12-2
Du Preez, Alicia ....................................7-3
du Toit, C. G. (Jat) ............................32-10
Duan, Chuanhua...................................2-1
Duan, Fei ..............................................9-1
Duda, John .........................................18-1
Dukhan, Nihad ...................................24-1
Dulikravich, George ......................7-4, 8-1
Dunphy, Darren ..................................18-2
Dupoirieux, Francis ..............................3-2
D’yachenko, Alex Yu. ...........................7-1
Eblen, Mark ..........................................8-1
Ebrahimi, Reza....................................25-1
Ebrahimnia Bajestan, Ehsan ...............19-1
Echegut, Patrick .................................25-2
Eggers, Jeffrey .....................................2-2
Egorov, Boris ......................................16-1
Egorov, Ivan..........................................4-1
Eiamsa-ard, Smith.................................7-1
Ekkad, Srinath ....................................23-1
El Ganaoui, Mohammed ....................27-1
El Hitti, Georges.................................14-1
El Khoury, Khalil..................................14-1
El-genk, Mohamed......................2-2, 15-1
Elhaw, Samer ........................................3-2
Elias, Ezra ...........................................17-2
El-Khawankey, Sarah ..........................15-1
El-Magd, Essam....................................6-1
Elnady, Tarek ......................................11-1
93
Author
Name
Session
Number
Elperin, Tov.........................................28-1
Elsner, Norbert ...................................30-1
Elwardany, Ahmed ...............................3-2
Emery, Ashley .......................................6-1
English, Timothy.................................18-1
Enright, Ryan ......................................17-1
Epting, William K................................10-1
Ercius, Peter .......................................18-2
Ermolaev, Vadim...................................3-1
Eronin, Alexey ......................................2-2
Ershova, T.V. .........................................4-1
Escher, Werner .................................32-16
Escobar, Sergio...................................27-1
Escidoe, Dany.......................................3-2
Esmaeelpanah, Javad...........................4-1
Etminan Farooji, Vahid .......................19-1
Ezekoye, Ofodike A. .................13-1, 25-2
Ezhov, Ivan V. ........................................7-3
Fabris, Drazen ....................................27-1
Faghri, Amir........................................10-1
Faghri, Mohammad.....................4-1, 14-1
Fallahnezhad, Mehdi ............................2-3
Fan, Jing.............................................19-1
Fan, Ju-Fang.......................................14-4
Fang, Ruixian......................................15-2
Farah, Amjad ........................................7-2
Farahi, Mohsen.....................................2-2
Farouk, Bakhtier ...................................4-1
Farrell, Kevin.......................................21-1
Farrelly, Rayhaan ................................15-2
Fatima, Roma .....................................14-4
Fauchoux, M.T. .....................................7-2
Fazeli, Hamid........................................6-1
Fedorov, Andrei G................................8-1
Fedorovich, Evgeny D. .......................22-1
Feng, Chen...........................................2-1
Feng, Shangsheng..............................15-1
Feng, Yanhui.......................................18-2
Ferley, Dean .........................................7-1
Feser, Joseph .....................................18-2
Fisher, Timothy S. ...12-1, 18-1, 18-2, 26-1
Fitzgerald, Claire L. ..............................5-1
Fleitz, Jeff .............................................3-1
Flores-López, Marco P. .........................3-1
Fomin, Victor ......................................28-1
Fominykh, Andrew .............................28-1
Fontaine, Jean-Raymond ...................20-2
Forooghi, Pourya..................................6-1
Fr˜ba, Andreas Paul .......................5-1, 6-1
Fraigneau, Yann..................................21-1
Fridman, Alex .....................................14-2
Frijns, Arjan J.H. .................................17-2
Fronk, Brian M......................................5-2
Fryer, Peter J. ...................................32-15
Fu, Dong ............................................14-1
Fu, Xiangzhao.....................................14-1
Fujita, Satoshi .....................................20-1
Author Index
Author
Name
Session
Number
Fukagata, Koji.....................................32-4
Fukagaya, Masato ................................8-2
Fukai, Jun ....................................9-1, 24-1
Fukuda, Katsuya ...................................7-1
Fukue, Takashi ......................................8-2
Fukushima, Naoya ................................3-2
Fu-Min, Shang ....................................12-2
Fumoto, Koji.......................................12-2
Funaki, Jiro.........................3-1, 15-1, 20-1
Funk, Gregory ......................................2-2
Funk, Justin ..........................................2-2
Furukawa, Shigeki ................................3-2
Furuya, Masahiro ..................................2-1
Fushinobu, Kazuyoshi.........................10-1
Fustinoni, Damiano ..............................7-1
Gómez V., Rafael D.............................28-1
Galanis, Nicolas ........7-3, 14-4, 16-1, 19-1
Galarça, Marcelo M. ...........................25-2
Galizzi, Cédric ......................................3-2
Gallegos-Munoz, Armando ..................3-1
Gaoul, Vincent......................................7-4
Gambaryan-Roisman, Tatiana .....9-1, 27-1
Gan, Yu .................................................2-3
Gao, Hong..........................................20-2
Gao, Hongtao ......................................9-1
Gao, Jian ............................................27-1
Gao, Nan ..............................................5-1
Gao, Shan...........................................11-1
Gao, Yanming .....................................14-5
Garcia, Fred........................................18-2
García, Eduardo .................................13-1
García-Meneses, Carlos .....................18-1
Gardarein, Jean-Laurent.....................22-1
Garimella, Srinivas ................................5-2
Garimella, Suresh V. ....................8-2, 12-1
Gauffreau, Andrew M.........................18-1
Gavillet, Jérôme ...................................2-4
Ge, Liang ..............................................6-1
Ge, Zhengwei .....................................17-1
Geb, David J. .....................................24-1
Gehring, Eelco....................................27-1
Geliev, Alexander ...............................16-1
Geng, Li-Ping .....................................15-2
Genin, Leonid G. ................................22-1
Ghaddar, Nesreen ..............................21-1
Ghafourian, Akbar ..............................11-1
Ghali, Kamel .......................................21-1
Ghamaty, Saeid ..................................30-1
Ghazvini, Mohammad ........................19-1
Gherasim, Iulian..................................14-4
Ghorab, Mohamed.............................11-1
Ghosh, Kalyanjit ...................................7-3
Ghosh, Suchismita..............................18-2
Ghoshdastidar, Partha ........................14-2
Gigineishvili, Giorgi I. ...........................2-2
Gmach, Daniel......................................8-2
Gnanasekaran, N................................21-1
Author
Name
Session
Number
Goicochea, Javier V. .............................9-1
Golan, Tal ...........................................14-1
Goldstein, Richard................................7-3
Golovko, Vladislav ..............................14-4
Goncharova, Olga ................................9-1
Gonzalez, Jorge E ..............................27-1
Gorbachev, Maxim ...............................7-3
Gori, Fabio ...........................................1-1
Gorla, Rama ..............................17-2, 24-2
Gorobets, Andrey...............................20-1
Goshima, Hiroaki ................................31-1
Gossard, Arthur ..................................18-2
Gotoda, Hiroshi ..................................15-1
Gotovsky, Mikhail A. ...................7-1, 28-1
Gou, Yuchun .......................................25-2
Govender, Saneshan .................16-1, 23-1
Gowda, Raghu....................................19-1
Goyette, Jacques ...............................28-1
Grabenstein, Volker..............................5-2
Grabezhnaya, Vera A..........................22-1
Gradeck, Michel .................................27-1
Graham, Samuel..........................8-1, 18-2
Grassi, Walter .....................................15-1
Greenman, Mark ................................28-1
Grillet, Anne .......................................18-2
Grooten, Mart ......................................5-1
Gross, Ulrich .......................................24-2
Groulx, Dominic .................................23-1
Gu, Sai ................................................14-2
Gu, Zhiyong........................................19-1
Gualous, Hasna ...........................8-1, 17-1
Guan, Yingxue ......................................1-1
Guerrier, Beatrice ...............................20-1
Guignard, Stephan N. ..........................9-1
Guntur, Krishna...................................11-1
Guo, Chaohong..................................17-2
Guo, Hang.................................10-1, 12-2
Guo, Jiangfeng...................................14-3
Guo, Zeng-Yuan ..........................6-1, 29-1
Guoqiang, Li.........................................3-2
Gupta, Deep.........................................5-2
Gupta, S.K. ...........................................6-1
Gupta, Sahil..........................................7-2
Gururatana, Suabsakul .........................8-2
Gusev, Ivan ...........................................3-2
Guzik, Edward ....................................16-1
Habchi, Charbel....................................7-3
Hadavand, Mahshid ...........................24-2
Haghighat, Faribor ...........................Z28-1
Hagiwara, Yoshimichi............................1-1
Hale, Colin P. ......................................22-1
Hamaoka, Atsushi...............................15-2
Han, J.C..............................................11-1
Han, Jitian ............................................2-3
Han, S.M........................................7-2, 7-3
Han, Youngbae..........................17-1, 17-2
Han, Yuge ...........................................25-2
94
Author
Name
Session
Number
Hanjalic, Kemal.....................................7-3
Hansen, Nicholas.........................8-2, 14-3
Hanyu, Tsuyoshi..................................31-1
Hao, Yazhen........................................10-1
Hardy, Bruce J. ...................................28-1
Harikrishna, P. V. .................................17-2
Hartmann, Angelika ...........................14-3
Haruna, Yusuke...................................29-1
Hasan, Mohammad Nasim ...................2-1
Hasegawa, Yosuke..............................32-4
Hashimoto, Mitsuo ...............................8-2
Hasman, Ere ...................................Z32-14
Hassan, Ibrahim ..................................11-1
Hassan, Samer ....................................14-2
Hassel, Egon.........................................7-1
Hata, Koichi ..........................................2-3
Hatakeyama, Tomoyuki ........................8-2
Hattori, Yasuo..............................4-1, 20-2
Haussener, Sophia ..............................24-2
Havzali, Murat ......................................7-4
Hayakari, Kohei ....................................1-1
He, Kui................................................31-1
He, S. ................................................32-31
He, Shuisheng ....................................13-1
He, Ya-Ling.....................10-1, 14-4, 32-21
He, Ying................................................1-1
He, Zhenhui ..........................................2-4
Heggs, peter ......................................14-5
Heidemann, Wolfgang .......................14-3
Heijmerikx, Herman............................30-1
Heikal, Morgan.....................................3-2
Heller, Peter........................................26-1
Hendrix, Mark.......................................8-2
Herman, Cila ...............................1-1, 13-1
Hernandez, Cesar F. ...........................15-1
Hernon, Domhnaill ...............................8-2
Herwig, Hein .......................Z21-1, Z32-39
Herz, Fabian .......................................14-2
Hess, Katherine C...............................10-1
Hetsroni, Gad .......................................2-1
Hewitt, Geoffrey F. ......................2-3, 22-1
Hewson, John.......................................3-2
Higano, Mitsuo.....................................7-4
Hihara, Eiji ...................................2-4, 29-1
Hilbers, Peter A.J. ..............................17-2
Hippalgaonkar, Kedar.........................18-2
Hirai, Shuichiro ...................................24-1
Hirasawa, Shigeki ...............................26-1
Hirata, Katsuya...................3-1, 15-1, 20-1
Hirose, Ikunori ....................................10-1
Hirota, Masafumi ................................31-1
Ho, C. J. .............................................23-1
Ho, Son H..................................11-1, 14-1
Hodes, Marc .......................................17-1
Hodson, Steve L. ................................26-1
Hoefler, Florian ...................................15-1
Hollingsworth, D. Keith.................2-1, 2-4
Author Index
Author
Name
Session
Number
Hong, Chol-Ho ...................................14-1
Hong, Chungpyo................................17-1
Hong, Fei-Fei......................................15-2
Hong, Sung-Deok...............................13-1
Hongfei, Tang.....................................11-1
Hongxia, Gao .......................................7-4
Hongyan, Huang ................................11-1
Hopkins, Forrest .................................18-1
Hopkins, Patrick E. ....................18-1, 18-2
Horiko, Yoshihiro ..................................3-2
Horinouchi, Nariaki...............................2-1
Hosokawa, Shigeo..............................22-1
Hou, Quan-Wen ...................................6-1
Houra, Tomoya .....................................7-4
Hu, Chaofa .........................................12-2
Hu, Hemin ............................................8-1
Hu, Ming...............................................9-1
Hu, Y...................................................27-1
Hu, Yuzhu ...........................................14-1
Hua, Lei ..............................................26-1
Huai, Xiulan ........................................27-1
Huan, Zhongjie ...................................17-2
Huang, Baoling...................................18-2
Huang, Congliang ..............................18-2
Huang, D. (Frank) ...............................14-1
Huang, Haitao ....................................14-1
Huang, Jianchang...............................14-5
Huang, Jianzhen.................................31-1
Huang, Jing ........................................18-1
Huang, Jinguo ....................................25-2
Huang, LiDong ...................................21-1
Huang, Weimin............................6-1, 29-1
Huang, Xianlan .....................................3-1
Huang, Yong.......................................17-2
Huang, Zhen.......................................18-1
Huang, ZhengCheng............................2-4
Hugo, Jean-Michel .............................24-2
Huh, Cheol .........................................24-2
Huisseune, Henk ................3-1, 14-3, 24-2
Hung, Chinghua .................................14-4
Husain, Afzal.......................................11-1
Hwang, Young-Kyu........................7-2, 7-3
Hwu, Ruey ...................................8-2, 17-1
Hyodo, S.............................................18-1
Iacona, Estelle ..................................32-38
Ibrahem, Khalid ....................................9-1
Iimura, Ken-ichi.....................................8-2
Ikebata, Kazuhiko .................................9-1
Ikuta, Tatsuya......................................18-2
Ilmov, Dmitry N. ...................................4-1
Illán Gómez, Fernando .........................3-1
Im, Yunhyeok ........................................2-2
Imanimehr, Fatemeh...........................14-5
In, Sehwan ............................................2-4
Inagaki, Masahide ................................2-1
Injeti, Phaninder .................................17-1
Inman, Kristopher...............................10-1
Author
Name
Session
Number
Inoue, Taiki .........................................18-1
Iorio, Carlo S. .......................................9-1
Iqbal Mariam, Feroz Ahamed...............8-2
Isaev, Sergey A. ....................................7-1
Ishida, Atsuko.....................................16-1
Ishigami, Takahiro.................................7-2
Ishikawa, Keisuke................................29-1
Ishizuka, Masaru ...................................8-2
Islam, Sheikh.......................................14-2
Isobe, Ryota .......................................31-1
Itaya, Yosinori .......................................3-2
Ito, Takahiko .......................................18-1
Ito, Toshihisa.........................................7-2
Ito, Yohei ............................................18-2
Iutzi, Ryan ...........................................18-2
Ivanov, Nikolay ...................................14-4
Ivochkin, Yury P............................2-3, 22-1
Iwai, Hiroshi ........................................10-1
Iwamoto, Kaoru ...................7-2, 7-3, 32-4
Jacobi, Anthony, M. .............................5-2
Jafari, Jalil...........................................22-1
Jafarian, Ali.........................................14-5
Jafarmadar, Dr.Samad ........................28-1
Jaing, Wei...........................................15-2
Jaluria, Yogesh............7-4, 8-1, 17-1, 17-2
Jambal, Odgerel ..................................2-3
James, William .....................................8-1
Jamshidi, Hamed................................12-2
Jang, Seok Pil .....................................26-1
Jankowski, Nicholas ...........................23-1
Janssens, Arnold ................................14-4
Jasper, Warren....................................18-1
Javadian Saraf, Aida...........................19-1
Jedamski, Jens ...................................26-1
Jen, Tien-Chien ....................................2-3
Jensen, Michael ..............2-3, 2-4, 5-2, 8-1
Jeon, Saeil ............................................2-3
Jeong, Sangkwon.................................2-4
Jerjen, Iwan ........................................24-2
Jha, Vibhash .........................................8-1
Jha, Kumar, Kaushal .............................1-1
Ji, Dongmei ..........................................2-3
Ji, Shui ................................................14-3
Jia, Chuanlin .........................................5-1
Jia, li.................3-1, 12-2, 14-1, 17-2, 24-1
Jiang, Pei-xue.....................................17-1
Jiang, Yuyan .........................................2-1
Jiang, Zeyi ..........................................27-1
Jian-Hong, Liu ....................................12-2
Jianzu, Yu..............................................7-4
Jilisen, René, T.M..................................2-4
Jin, Liwen............................................12-1
Jin, Yan ...............................................21-1
Jingfu, Wang ........................................3-2
Jiru, Teshome .....................................28-1
Jo, Byeongnam ..................................26-1
Jo, Insun .............................................18-2
95
Author
Name
Session
Number
Jog, Milind .........................................27-1
Johnson, Perry L.................................11-1
Jordan, Donald A. Jr. .........................18-1
Joshi, Yogendra .................2-2, 8-1, 32-18
Joulain, Karl........................................18-1
Jovanovic, Velimir...............................30-1
Jun, Y.D. .............................................14-2
Jung, Jaehoon......................................8-2
Jung, Jin M.........................................14-2
Jung, Jung-Yeul..................................19-1
K, Srinivasa Ramanujam .....................25-1
Kabelac, Stephan ...............5-2, 14-4, 14-5
Kabov, Oleg ..............................9-1, 32-29
Kadem, Lyes .......................................11-1
Kaehr, Bryan .......................................18-2
Kajimoto, Kazutohsi..............................2-2
Kakac, Sadik .......................................17-1
Kalendar, Abdulrahim.........................20-2
Kalinowski, Paul....................................8-2
Kalt, Peter.........................................32-40
Kaluri, Ram Satish...............................20-1
Kaminaga, Fumito ................................2-2
Kanamori, Yuki......................................1-1
Kandlikar, Satish ......................17-1, 32-22
Kaneda, Masayuki ..............................18-1
Kaneko, Akira .....................................29-1
Kang, Hoon ........................................14-5
Kang, Qilan.........................................16-1
Kang, Qinjun ......................................24-2
Kang, Seong-Gil .................................24-2
Kang, Yong Tae...................................19-1
Kania, Bogus ....................................Z16-1
Kanno, Hiroshi ....................................17-2
Kapat, Jayanta S. ...............7-1, 11-1, 23-1
Kappiyoor, Ravi ..................................18-2
Karabi, Hadi ..............................15-1, 31-1
Kardel, Justin......................................30-1
Kariya, H. Arthur.................................12-1
Karnik, Rohit .........................................2-1
Karvinen, Reijo ........................14-3, 32-33
Karvinen, Timo ...................................14-3
Karyakin, Yuri.E...................................22-1
Kasagi, Nobuhide ............10-1, 17-1, 32-4
Kasai, Hiroto .........................................8-2
Kaskov, Sergey I. ..................................7-4
Kataoka, Ryoto ...................................24-1
Katsuta, Masafumi..............................29-1
Kaushal, Arun .......................................3-1
Kaviany, Massoud ...............................14-4
Kavicka, Frantisek...............................16-1
Kawaguchi, Yasuo.................................7-2
Kawaji, Masahiro ............12-2, 14-2, 32-26
Kawanami, Tsuyoshi ..................12-2, 26-1
Kayed, Hatem.......................................3-2
Kebriaee, Mohammad Hasan.............31-1
Keinath, Brendon L...............................5-2
Kelesoglu, Bulent ...............................19-1
Author Index
Author
Name
Session
Number
Kendig, Dustin....................................26-1
Kerner, James M...................................8-2
Keser, H. Ibrahim ..................................7-4
Kestel, Matthias....................................3-2
Khalilarya, Shahram ............................28-1
Khan, Jamil .........................................15-2
Khan, Jamil A. ....................................17-2
Khan, Waqar A. ....................................7-3
Khandekar, Sameer .......................1-1, 7-1
Khantikomol, Preecha ........................25-1
Khinkis, Mark ......................................28-1
Khorsandi Kuhenestani, Said..............31-1
Kim, Byeong-Sam...............................14-1
Kim, Chan Soo....................................13-1
Kim, Dong-Kwon ..................................8-2
Kim, Duckjong ....................................17-2
Kim, Eung ...........................................22-1
Kim, Hakyoung .....................................3-2
Kim, Hyoungsup .................................14-2
Kim, Jin-Hyuck....................................13-1
Kim, Jong Hoon .................................18-1
Kim, Jungho ................................2-2, 15-1
Kim, Kwang-Yong ...............................11-1
Kim, Kwiseon......................................18-1
Kim, Kyeongtae..................................18-1
Kim, Kyoung Joon ..............................30-1
Kim, Myeongsub ................................13-1
Kim, Nae.............................................14-3
Kim, Sung...........................8-2, 15-2, 26-1
Kim, Sungwon S. ................................12-1
Kim, Tae Hoon ....................................26-1
Kim, Tongbeum ..................................15-1
Kim, Y.J..........................................7-2, 7-3
Kim, Yongchan....................................14-5
Kim, Yong-Hwan .................................24-2
Kim, YongWan ....................................13-1
Kimijima, Shinji ...................................10-1
Kind, Matthias ....................................24-1
King, Charles ......................................27-1
King, Krysten ........................................7-2
Kinjo, T................................................18-1
Kinoshita, Shinichi ................................1-1
Kirillov, Aleksander.............................14-4
Kirillov, Pavel L ............................7-2, 22-1
Kis, Petar ............................................21-1
Kishimoto, Masashi ............................10-1
Kistler, R. Stanley................................14-3
Kitagawa, Takashi .................................8-2
Klausner, James..................................15-2
Kleiner, Vladimir ...............................32-14
Knauer, Oliver S....................................2-1
Kneer, Reinhold....................6-1, 9-1, 15-1
Külah, Haluk .........................................8-1
Knox, Ted ...........................................15-1
Kobayashi, Hiroyuki..............................2-2
Kobayashi, Nobsuke.............................3-2
Kobayashi, Shingo................................2-3
Author
Name
Session
Number
Kodochigov, Nikolay ..........................14-4
Koehler, Juergen ................................14-3
Koehler, Timothy ................................18-2
Koito, Yasushi .......................................8-1
Koizumi, Yasuo ..............................2-2, 2-3
Kokel, Philip........................................13-1
Kolenda, Zygmunt..............................10-1
Komatsu, Shunji..................................29-1
Komiya, Atsuki .....................2-4, 7-4, 20-1
Komoda, Yoshiyuki ...............................7-2
Komov, Alexander T. ............................2-4
Komugoz, Guven..................................7-4
Kondle, Satyanarayana.......................17-2
Konishi, Christopher A. ........................8-2
Kopeitsev, Viktor ..................................7-3
Kordik, Jozef ......................................15-2
Kornev, Nikolai .....................................7-1
Kortsenshteyn, Naum...........................5-1
Kosaka, Fumiya ....................................3-2
Kosar, Ali .......................................2-3, 2-4
Koveal, Catherine...............................12-1
Koyuncuoglu, Azi ...............................Z8-1
Kraev, Vyacheslav M. ............................7-3
Krasovitov, Boris .................................28-1
Krishnasamy Bharathi, Arvind.............18-2
Kroger, Detlev ...........................14-4, 14-5
Krommenhoek, Daniel........................30-1
Kruger, Sunita.....................................28-1
Kruizenga, Alan ..................................14-4
Krutitskii, Pavel .....................................3-2
Kryukov, Alexei..............................2-1, 5-1
Kubrikov, Konstantin G.........................2-3
Kugler, Tanja .........................................6-1
Kulacki, F.A. ........................................26-1
Kulkarni, Devdatta..............................15-1
Kumar, Anurag .....................................4-1
Kumar, Ashwani ....................................7-3
Kumar, Ravi.........................................22-1
Kurano, Junya.......................................7-2
Kurekci, Nuri Alpay.............................19-1
Kurokawa, Makoto ...............................1-1
Kurosawa, Taiki .....................................7-2
Kuznetsov, Andrey ......................1-1, 18-1
Kuznetsov, Geniy V. ............................20-1
Kuznetsov, Vladimir V. ......................32-28
Kwak, Hyun-eun .................................26-1
Kwon, Ohmyoung ..............................18-1
Kyu Hyun, Han....................................13-1
López de Ramos, Aura .......................13-1
Løvland, Martin ....................................2-2
Labergue, Alexandre............................3-2
Lai, Ming-Chia ......................................3-2
Lakehal, D...........................................22-1
Lallave, Jorge .....................................15-1
Lamige, Sylvain.....................................3-2
Lamoureux, Alexandre .......................23-1
Lan, Zhong ...........................................5-1
96
Author
Name
Session
Number
Landry, Eric S. .....................................18-2
Lang, Matthias C. .................................2-1
Laraqi, Najib .......................................27-1
Lartigue, Berangere ...........................20-1
Latini, Giovanni.....................................6-1
Lauriat, Guy ..........................................9-1
Lavieille, Pascal.....................................5-2
Lawler, John .........................................8-2
Lazarev, Dmitriy ..................................24-1
Le Masson, Stephane ...........................8-1
Le Niliot, Christophe ..........................22-1
Le Palec, George................................15-1
Le Quéré, Patrick................................21-1
Lear, W.E.............................................17-2
Lee, Ann .............................................17-1
Lee, Bong Jae ......................................1-1
Lee, Byeonghee .................................18-1
Lee, Dongkil .........................................7-2
Lee, Eul-Jong .....................................14-3
Lee, Eungchan....................................14-5
Lee, Hee Joon ......................................5-2
Lee, Joon Sik ......................................18-1
Lee, Juhee ..........................................14-1
Lee, Jungho........................................27-1
Lee, Jung-Pyo.....................................14-3
Lee, Jung-Yeop ....................................1-1
Lee, Kum Bae .....................................14-2
Lee, Kyongjun ......................................7-4
Lee, Piljong.........................................15-1
Lee, Poh·Seng ....................................17-1
Lee, Sang-Joon ....................................1-1
Lee, Sangsoo......................................15-1
Lee, Seungkoo ...................................18-1
Lee, Suvit............................................12-2
Lee, Woo Il .........................................18-1
Lee, Yong Jiun ....................................17-1
Lehmkuhl, Oriol..................................20-2
Lei, Zhiheng..........................................4-1
Leipertz, Alfred ......................2-1, 5-1, 6-1
Lele, H. G. ..........................................22-1
Lelong, Franck....................................27-1
Lemenand, Thierry ...............................7-3
Lemoine, Fabrice..................................3-2
Lemonnier, Denis................................25-1
Lenert, Andrej ....................................26-1
Leong, Kai Choong ............................12-1
Leonov, Victor ....................................26-1
Leontiev, Alexander I. ............7-1, 7-411-1
Leplat, Gillian .....................................21-1
Lestina, Thomas..................................14-3
Letan, Ruth ...........................................2-1
Levchenya, Aleksander.......................11-1
Lew, Christopher M. ...........................18-2
Li, Baowen ........................................32-32
Li, Botong.............................................7-2
Li, Calvin......................................2-2, 10-1
Li, Dehui .............................................19-1
Author Index
Author
Name
Session
Number
Li, Guanqiu .........................................14-2
Li, Guodong .......................................19-1
Li, Haijun .....................................3-1, 28-1
LI, Haiyan............................................14-5
Li, Hongying .......................................12-1
Li, Ju .....................................................7-4
Li, Jun-Ming..........................................5-2
Li, Mengxun........................................14-1
Li, Minxia ..............................................2-4
Li, Ning .................................................3-1
Li, Peng...............................................14-1
Li, Qiang......................................8-1, 15-1
Li, S.L. ...............................................32-31
Li, Shiou-Jiuan ....................................11-1
Li, Shu-Lin .............................................8-2
Li, Sijie ..................................................2-1
Li, Sufen .............................3-1, 12-2, 28-1
Li, T.X. ...............................................32-31
Li, Wei ..............................14-2, 14-5, 17-2
Li, Xianchang...............................8-2, 11-1
Li, Xiaobo ...........................................18-2
Li, Xing..................................................3-1
Li, Yan ...................................................3-2
Li, Yang ...............................................19-1
Li, Yanrong..........................................13-1
Li, Yongguang ....................................25-1
Li, Zhigang..........................................27-1
Li, Zhi-hui............................................17-1
Li, Zhixin .............................................29-1
Lian, Wenlei ..........................................8-1
Liang, Dongjuan .................................24-2
Liang, Xingang .....................................4-1
Liebenberg, Leon ..........................5-2, 7-3
Lienhard, John ..........................14-1, 26-1
Lifeng, Zhao .......................................12-2
Lightstone, Marilyn F. .......................32-37
Lim, Dae Soon ....................................18-1
Lim, Hyug ...........................................14-5
Lima, Rafael Sene de............................5-1
Lin, Lei ..................................................8-1
Lin, Xipeng ...........................................2-1
Lin, Yen Po..........................................27-1
Ling, Xiang .........................................26-1
Lipinski, Wojciech ...............................25-1
Listratov, Yaroslav I. ............................22-1
Litster, Shawn .....................................10-1
Liu, Cuicui...........................................27-1
Liu, Daoping .........................................7-4
Liu, Dengying .....................................12-2
Liu, Deng-Ying....................................12-2
Liu, Dong............................................19-1
Liu, Han-Yang .....................................15-2
Liu, Huafei ..........................................27-1
Liu, Jiemin ............................................7-4
Liu, Joseph T. C. ...................................7-3
Liu, Jun ...............................................18-2
Liu, Ni ..........................................7-4, 14-3
Author
Name
Session
Number
Liu, Qingming.....................................17-1
Liu, Qiusheng .......................................7-1
Liu, Sai ................................................19-1
Liu, Shengyong...................................26-1
Liu, Wei.................................................7-1
Liu, Wen..............................................14-2
Liu, Xiaomin........................................12-2
Liu, Xiongbin ......................................14-3
Liu, Xunliang.........................................3-1
Liu, Yaqing ............................................7-2
Liu, Yefeng ................................14-1, 14-4
Liu, Yida ..............................................14-2
Liu, Yusong ...........................................6-1
Liu, Zhichun ..........................................7-1
Lo, Huau Pao ......................................14-4
Lock, Andrew .......................................3-1
Lombardo, Jeffrey ..............................18-1
Longo, Giovanni A. ............................14-5
Lopez-De-Bertodano, Martin ...............2-4
Loy, James M........................................8-1
Lu, Chun-Ting.......................................2-3
Lu, Hong.............................................18-2
Lu, Ming-Chang ..........................2-1, 12-1
Lu, Shu-Shen ......................................12-1
Lu, T. .....................................................4-1
Lu, Tianjian .........................................15-1
Lu, Yuanwei ........................................14-3
Lu, Z.S...............................................32-31
Luan, T. ...............................................12-1
Lucas, Terry.........................................11-1
Luckow, Patrick.....................................6-1
Ludmer, Zvi.........................................14-1
Lukashov, Vladimir V. ............................3-1
Luke, Andrea ........................................2-2
Lukes, Jennifer R. .................................2-1
Luna-Abad, Juan P.......................7-1, 25-2
Lundqvist, Per.....................................14-4
Luo, Kai H. ..........................................14-2
Luo, Xing ............................................14-5
Luo, Zhong .........................................14-5
Lushchik, Valeriy G. ..............................7-4
Lv, Xinrong............................................3-1
Lyons, Oisín Fergal .............................27-1
Ma, Chongfang..7-2, 10-1, 12-2, 14-3, 16-1
Ma, Hongbin ......................................12-2
Ma, Ronghui .........................................1-1
Ma, Weigang...............................6-1, 18-2
Ma, Xuehu ............................................5-1
Ma, Z. W. ............................................23-1
Ma, Z.X. ................................................5-2
Maalej, Talel........................................20-2
Macchietto, Sandro ............................14-2
Machida, Atsumi ................................31-1
Madani, Hatef.....................................14-4
Maeda, Shinpei ....................................7-2
Maeda, Yasuyuki...................................9-1
Mahjoub, Nejla...................................15-1
97
Author
Name
Session
Number
Maillet, Denis .....................................27-1
Maistrello, Mario ................................20-2
Maize, Kerry .........................................8-1
Majumdar, Arun..2-1, 12-1, 18-1, 18-2, 30-1
Makarov, Maxem S. ..............................7-4
Makhmalbaf, Hadi ..............................22-1
Makino, Toshiro ..................................25-2
Makishi, Osamu..................................14-1
Malastowski, Nikolay S.......................15-1
Malen, Jonathan.................................30-1
Mallick, Tapas .....................................26-1
Malyshenko, Stanislav ..........................2-2
Manca, Oronzio....................................7-1
Mancin, Simone..................................24-1
Manglik, Raj M. ..................................27-1
Mani-Gonzalez, Alejandro....................3-1
Mantelli, Marcia B.H...........................14-1
Marceau, Daniel .................................25-2
Marinichev, Dmitrii V...........................27-1
Marino, Thomas ...................................3-2
Markachev, Yuri ..................................16-1
Maroo, Shalabh C.................................9-1
Marsh, Charles....................................17-2
Marsh, Nathan......................................3-1
Marshall, André W..............................15-2
Marston, Andrew J.............................26-1
Martin, Holger...........................24-1, 29-1
Martin, Thomas ....................................8-1
Martinez, David S. ................................7-1
Martinez Lucci, Jose Omar.................11-1
Marty, Philippe .....................................2-4
Maruyama, Naoki ...............................31-1
Maruyama, Shigenao ...........2-4, 7-4, 20-1
Maruyama, Shigeo .............................18-1
Mashiko, Koichi ....................................8-2
Massad, Michael.................................14-2
Masuzaki, Suguru .................................2-3
Matkovic, Marko...................................5-2
Matsubara, Koji ....................................7-1
Matsubara, Suguru .............................15-1
Matsumoto, Ayumu..............................7-2
Matsumoto, Keishi .............................31-1
Matsumoto, Ryosuke..........................20-1
Matsumura, Kunihito ............................2-2
Matsumura, Takenori............................9-1
Matt, Carlos F. ......................................6-1
Mauder, Tomas ...................................16-1
Maulbetsch, John ...............................14-4
Mavrokefalos, Anastassios .................18-1
May, Allan...........................................26-1
McCaffrey, Katherine............................1-1
McCarthy, Matthew............................12-1
McCarthy, Patrick ...............................26-1
McCluskey, F. Patrick...................8-1, 23-1
McGaughey, Alan ...............................18-2
McGrattan, Kevin .................................3-1
McGuinn, Alan....................................15-2
Author Index
Author
Name
Session
Number
McKnight, Eric ....................................14-1
McNeil, David A .................................14-5
McQuillen, John ...................................2-2
Mecheri, Boubakeur.............................8-1
Medwell, Paul...................................32-40
Mehdizadeh, Ayyoub .........................17-2
Mehta, Balkrishna.................................7-1
Mei, Ning .............................3-2, 7-3, 14-5
Mei, Renwei........................................15-2
Meier, Karsten ....................................11-1
Meijer, Gerhard Ingmar ....................32-16
Melani, Ai ...........................................19-1
Memon, Nasir.......................................7-4
Men, Hong .........................................14-2
Menon, Abhilash R ...............................8-2
mensah, Patrick ..................................11-1
Meyer, Bernd........................................3-2
Meyer, Josua........5-2, 7-3, 8-2, 10-1, 23-1
Mhiri, Hatem ......................................15-1
Mi-Ae, Moon ......................................11-1
Miao, Hui ............................................17-2
Miao, Tingting ....................................18-2
Miao, Zheng .......................................10-1
Michel, Bruno.....................8-1, 9-1, 32-16
Michna, Gregory J. ................2-3, 2-4, 5-2
Mikhailov, Vladimir E. .........................22-1
Mikhatulin, D.S. ....................................4-1
Mikhaylov, Yury V. ...............................15-1
Milanez, Luiz Fernando ......................20-2
Milano, Guido.....................................20-2
Miljkovic, Nenad.................................26-1
Millan, Pierre ...............................7-4, 21-1
Min, Jiesheng .......................................3-2
Minchola, Luis Renato ........................14-2
Ming, Li.................................................7-4
Minko, Konstantin ..............................24-1
Minko, Maria V......................................2-4
Minkowycz, W.J....................................7-4
Mirzaei, Masoud...................................6-1
Miscevic, Marc......................................5-2
Mishler, Jeff ........................................10-1
Mitrovic, Jovan .....................................2-3
Mitsutake, Yuichi .........................2-1, 27-1
Mityakov, Andrey V.............................13-1
Mityakov, Vladimir Yu. ........................13-1
Miura, Takahiro.....................................7-1
Miyafuji, Yoshitaka..............................14-1
Miyake, Yoshiaki .................................11-1
Miyauchi, Toshio...................................3-2
Miyazaki, Koji......................................30-1
Miyoshi, Koji .......................................22-1
Mizuno, Yasuhiro ................................31-1
Müller, Björn C.F. ..................................2-2
Müller-Steinhagen, Hans ....................32-2
Mo, Dong-Chuan ...............................12-1
Mochizuki, Masataka...................8-2, 12-1
Mogensen, Palne................................14-4
Author
Name
Session
Number
Moghtaderi, Behdad ..........................19-1
Mohamed, Moftah A..........................31-1
Mohammad Shahed, Ahamed ...........12-1
Mohammadi, Koorosh........................14-3
Mohseni, Mahdi....................................7-4
Moita, Ana..........................................27-1
Mojab, Seyed M. ..................................7-3
Mokry, Sarah.........................................7-2
Molchanov, Alexander M. ....................3-1
Momoki, Satoru....................................2-3
Monchoux, Françoise .........................20-1
Monde, Masanori ........................2-1, 27-1
Moore, Arden L. .................................18-2
Moradi, Mohammad Hassan ................2-3
Mordacci, Marco ................................14-4
Mordkovich, Vladimir ...........................3-1
Moreira, António Luis.........................27-1
Moreland, John ..................................14-1
Mori, Shoji ............................................2-2
Moriai, Hideki .....................................11-1
Morinaga, Yosuke.................................3-2
Moriya, Shuichi .....................................7-4
Morozov, Andrey V. ............................14-5
Morshed, A K M M.............................17-2
Mossi, Anderson C. ............................25-2
Mosyak, Albert .....................................2-1
Motevalli, Vahid....................................3-2
Motoda, Yusuke .................................11-1
Motozawa, Masaaki..............................7-2
Mouawad, Grace................................14-1
Mozafari, A.A. ....................................11-1
Mu, Lijuan...........................................25-1
Mu, Lizhong..........................................1-1
Mueller-Steinhagen, Hans...........2-4, 14-3
Mujumdar, A.S....................................10-1
Mukherjee, Partha ..............................10-1
Mukhopadhyay, Deb ..........................22-1
Mukundan, Rangachary......................10-1
Munakata, Tetsuo ...............................23-1
Muralidhar, K ........................................1-1
Muralidharan, Bharathkrishnan ............8-2
Murashov, Mikhail V............................18-1
Murata, Akira........................................7-3
Murata, Keiji .........................................2-4
Murayama, Taisuke.............................15-1
Murray, Darina B. ....15-1, 15-2, 20-2, 27-1
Murthy, Jayathi Y.......8-1, 18-1, 18-2, 32-7
Mushatet, Khudheyer S......................20-1
Muzychka, Yuri....................................17-1
Myagkov, Leonid L. ............................15-1
Mynampati, Venkatanagapoornima .....8-2
Næss, Erling ................................2-2, 29-1
Nabovati, Aydin..................................24-2
Nagai, Niro ...........................................9-1
Nagai, Yoshiyuki ...................................7-1
Nagano, Yasutaka.................................7-4
Nagaoka, Makoto ................................3-2
98
Author
Name
Session
Number
Nagashima, Nozomi.............................2-3
Nagata, Shinichi .................................23-1
Nagayama, Gyoko................................4-1
Nahra, Ziad...........................................2-2
Nakabe, Kazuyoshi ...............................3-1
Nakabeppu, Osamu .............................2-2
Nakagawa, Shinji ..................................8-2
Nakamura, Akira.................................22-1
Nakamura, Hajime..............................13-1
Nakamura, Noriko ................................2-4
Nakaso, Koichi ............................9-1, 24-1
Nakayama, Wataru ...............................8-2
Nan, Ren.............................................16-1
Nanan, Kwanchai..................................7-1
Nandan, Gopal ...................................22-1
Nanri, Narumi.......................................9-1
Narasimhan, Arunn...............................1-1
Narayanan, Shankar .............................8-1
Nardini, Sergio .....................................7-1
Narumanchi, Sreekant...............18-1, 27-1
Natarajan, Sendhil ..............................26-1
Nateghi, Morteza ...............................20-1
Nathan, Graham ‘Gus’......................32-40
Naveira-Cotta, Carolina P..............6-1, 7-3
Navid, Ashcon ....................................29-1
Naylor, D. ...........................................20-2
Ndao, Sidy.....................................2-3, 2-4
Nebuloni, Stefano ................................5-2
Nemanick, Eric J.................................18-2
Nemer, Maroun ..................................14-1
Nenarokomov, Aleksey V....................24-2
Netz, Tzvika ..........................................2-1
Ng, Kevin..............................................5-2
Ngo, Khai ...........................................23-1
Nguyen, Cong Tam ............................14-4
Nguyen, Cuong Q. .............................11-1
Nguyen, Hiep .....................................29-1
Nguyen, Thang ...........................8-2, 12-1
Nguyen, Tien...............................8-2, 12-1
Nicolas, Xavier.............................9-1, 21-1
Nicoli, Alexandre................................22-1
Nieckele, Angela ................................14-2
Nika, Denis L. .....................................18-2
Nikrityuk, Petr. A. .................................3-2
Niro, Alfonso ........................................7-1
Nishi, Mina .........................................10-1
Nishimura, Akira .................................31-1
Nishino, Yasushi....................................8-2
Nithiarasu, Perumal ..........................32-23
Nithyanandam, Karthik.......................26-1
Nitsche, Wolfgang..............................13-1
Nivesrangsa, Pornchai..........................7-1
Nizovskii, Lev V. ..................................27-1
Nizovskii, Vladimir L. ..........................27-1
Nohmi, Naoko ....................................29-1
Norris, Pamela....................................18-1
Nortershauser, David............................8-1
Author Index
Author
Name
Session
Number
Novikov, Andrey V. ...............................7-3
Noville, Ivan........................................31-1
Nowlen, Steven ....................................3-2
Nunes, Jeziel S. ....................................6-1
Nyden, Marc.........................................3-1
O Gorman, Ian M. ..............................20-2
Obayopo, Surajudeen O. ...................10-1
O’Brien, Jim .....................................32-13
Oda, Yutaka........................................11-1
Odaymet, Ahmad...............................17-1
O’Donovan, T.S. ........................15-2, 26-1
Ogoh, Wilson .....................................23-1
Oh, Chang ..........................................22-1
Oh, Dongwook...................................30-1
Oh, Jong-Taek ......................................2-4
Ohma, Atsushi....................................10-1
Ohnishi, Yosuke ....................................1-1
Ohno, Yohei........................................29-1
Ohta, Haruhiko..............................2-2, 8-2
Ohtake, Hiroyasu ..........................2-2, 2-3
Ojada, Ejiro.........................................15-1
Okabe, Hiroto ....................................18-1
Okada, M............................................20-2
Okada, Takuya......................................3-2
Okajima, Junnosuke......................2-4, 7-4
Okamoto, Keisuke................................2-4
Okamoto, Koji ....................................13-1
Okamoto, Satoru................................28-1
Okano, Yasunori .................................16-1
Okano, Yuuki ......................................10-1
Okazaki, Ken ...............................3-2, 10-1
Oksman, Alexander A. .........................2-3
Okuhigashi, Yuki...................................3-1
Okutucu, Tuba ......................................8-1
Okuyama, Kunito..................................2-2
Olakoyejo, Olabode T. .........................7-3
Oliva, Assensi...................13-1, 20-1, 20-2
Olivier, Jonathan ..................................7-3
Olivier, Tara...........................................3-2
Olsson, Carl-Olof................................21-1
Oncel, Ahmet................................2-1, 2-4
Onishi, Hajime.............................1-1, 14-4
Ono, Naoki .........................................15-2
Ooishi, Masato ...................................10-1
Oosthuizen, Patrick, H. ..20-2, 21-1, 32-37
Orfi, Jamel..........................................16-1
Orlande, H. R. B. .......................7-4, 32-27
Orlande, Helcio Rangel Barreto ...........6-1
Ormiston, Scott J. ................................7-1
Orozaliev, Janybek .............................14-3
Osada, Hiroshi......................................2-1
Oshiro, Takahiro .................................29-1
Osmar, Ludovic...................................15-2
Otsubo, Yuta ......................................15-2
Ouattara, Aboubacar .........................27-1
Ouchi, Mayumi .....................................8-2
Oulaid, Othmane..................................7-3
Author
Name
Session
Number
Oumaya, Toru .....................................22-1
OuYang, guang ..................................14-5
Ouyang, Xinping ..................5-1, 7-4, 14-3
Owen, Michael ...................................14-4
Ozawa, Mamoru..........................2-4, 20-1
Özdemir, Mehmed Rafet......................2-4
Ozer, Arif .......................................2-1, 2-4
Ozkol, Ibrahim ......................................7-4
Pacheco-García, Fidel ........................18-1
Pagano, Arturo ...................................20-1
Pagliarini, Giorgio...............................14-4
Pakhomov, Maksim A. ........................15-2
Palaniswamy, Karthikeyan ..................10-1
Palm, Björn .........................................14-4
Pamitran, Agus S. .................................2-4
Pan, Chin ..............................................2-3
Pan, Ning ..................................24-2, 29-1
Pan, Shu-yuan.......................................5-2
Pan, Xinxiang........................................3-1
Panda, Rajesh Kumar..........................11-1
Panella, Bruno ...............................2-4, 7-4
Panin, Sergey D..................................18-1
Paredes, Stephan .............................32-16
Parida, Pritish .....................................23-1
Park, Chanwoo ...................................15-1
Park, Heeseung ....................................8-2
Park, Hoon Chae ................................24-2
Park, Hyun Sik ....................................22-1
Park, Ilseouk .......................................15-1
Park, Jaehong ....................................14-5
Park, Keunhan (Kay) ....................1-1, 18-1
Park, Kyoungwoo ...............................14-1
Park, Sang-Jin.....................................27-1
Park, Sang-Rin ....................................14-1
Park, Tae Seon......................................7-4
Park, Young-Gil.....................................5-2
Parker, Richard ...................................15-2
Passandideh-Fard, Mohammad ..4-1, 27-1
Patel, Chandrakant D. ..........................8-2
Pauw, Aswin .........................................2-4
Pavelka, Miroslav................................15-2
Pavlenko, Aleksandr N. ........................9-1
Peerhossaini, Hassan ............................7-3
Peglow, Mirko ....................................14-2
Peigang, Yan.......................................11-1
Peles, Yoav ......................2-3, 2-4, 5-2, 8-1
Pelevic, Nikola....................................17-1
Peng, Benli ...........................................5-1
Peng, Hao...........................................26-1
Peng, Yan ...........................................14-2
Peng, Yun .............................................1-1
Penley, Sean .........................................2-3
Pepper, Darrell .....................................4-1
Pérez, José ...........................................7-1
Perez, Yoshio ......................................26-1
Perles, Julien ........................................3-2
Perrin, Marie-Yvonne..........................25-1
99
Author
Name
Session
Number
Persoons, Tim .........15-1, 15-2, 20-2, 27-1
Pethkool, Somsak........................7-1, 14-3
Pfefferkorn, Frank E. ............................8-2
Phan, Hai Trieu .....................................2-4
Pharoah, Jon G.....................................7-3
Phinney, Leslie M.......................18-1, 18-2
Piaud, Benjamin....................................5-2
Pierre, Thomas ...................................13-1
Pilon, Laurent ............................18-2, 29-1
Pimsarn, Monsak ..................................7-1
Pioro, Igor ...................................7-2, 22-1
Pirtini Cetingul, Muge ..........................1-1
Pitchumani, Ranga..............................26-1
Pivem, Ana C......................................24-1
Plawsky, Joel ........................................9-1
Pletnev, Alexander A..........................22-1
Pokatilov, Evgenni P............................18-2
Pop, Ioan ..............................................7-3
Popovska, Nadejda ..............................6-1
Poskas, Povilas ...................................21-1
Poskas, Robertas ................................21-1
Poulad, Mohammad, E.......................20-2
Poulikakos, Dimos................8-1, 9-1, 17-2
Pourgol-Mohammad, Mohammad.....22-1
Prabhudharwadkar, Deoras ..................2-4
Pradere, Christophe ...........................17-1
Prakash, Shaurya ..................................8-1
Pranoto, Indro ....................................12-1
Prasopchingchana, Uthai....................14-1
Pretorius, Leon ...................................28-1
Pu, Jianguo...........................................3-1
Pulvirenti, Beatrice .............................15-2
Puri, Ishwar K......................................18-2
Pussoli, Bruno F. .................................14-4
Puzina, Yulia..........................................2-1
Pyatkov, Aleksandr S. ...........................9-1
Qi, Cheng Ying.....................................4-1
Qi, X ...................................................27-1
Qi, Yingxia ..........................................14-4
Qifen, Li..............................................12-2
Qiu, Lin ...............................................16-1
Qiu, Xinliang.........................................8-2
Qu, Wei .....................................11-1, 12-2
Qu, Weilin ...................................8-2, 17-1
Quan, Zhenhua...................................12-1
Quaresma, João Nazareno N...............7-3
Radhouane, Amina .............................15-1
Raed, Khaled ......................................24-2
Rahim, Emil.........................................17-2
Rahman, Anisur ..................................13-1
Rahman, Muhammad.......14-1, 15-1, 17-1
Rahmanpour, Morteza........................25-1
Rai, Yasuhiro .........................................3-1
Rainieri, Sara.......................................14-4
Raj, Rishi ...............................................2-2
Rallabandi, Akhilesh P ........................11-1
Ramesh, R...........................................30-1
Author Index
Author
Name
Session
Number
Ramos França, Francis Henrique........25-2
Ranjan, Devesh..........................10-1, 14-4
Rasoulipour, Sahand...........................15-1
Rasuli, Erfan........................................19-1
Ratowski, Jeff .....................................24-1
Rauch, Christian....................................6-1
Rausch, Michael H. ...............................5-1
Ravey, Christophe ..............................17-1
Ravi, Gurunarayana ............................17-2
Ravichandran, Jayakanth....................30-1
Ray, Anjan.............................................3-1
Razi, Pooyan .......................................19-1
Razlan, Zuradzman Mohamad............31-1
Razuvanov, Nikita G. ..........................22-1
Reddy, Pramod...................................30-1
Reilly, Sean .........................................12-1
Reitz, Christian ...................................18-2
Reizes, John A. ..................................17-1
Remizov, Oleg V. ................................14-5
Remy, Benjamin ..........6-1, 7-3, 13-1, 27-1
Ren, Yanqiu...........................................3-1
Reulet, Philippe...........................7-4, 21-1
Reuter, Hanno C.R..............................14-5
Revankar, Shripad.................................5-2
Reviznikov, Dmitry L. ............................4-1
Reyer, Matthias...................................13-1
Ribatski, Gherhardt ............................17-2
Ricci, Daniele........................................7-1
Ricklick, Mark .....................................23-1
Riesco-Avila, J. Manuel ........................3-1
Rifaldi, Maulana....................................2-4
Rigollet, Fabrice .................................22-1
Ris, Vladimir........................................14-4
Rispoli, Franco......................................7-3
Riviere, Philippe..................................25-1
Roberts, Michael ................................14-1
Robinson, Bruce .................................24-2
Robinson, Vance.................................18-1
Rodriguez, Sal B. ................................15-1
Roisman, Ilia V.....................................27-1
Rolland, Julien Yves............................25-2
Romash, Michael ..................................7-3
Romero Yepes, Ivan D. .......................28-1
Rose, John W........................................5-1
Rose, Karen ..........................................1-1
Rosengarten, Gary .............................27-1
Roshanghalb, Farid ............................14-5
Rossetto, Luisa ...................................24-1
Rostamifard, Dariush ............................2-3
Rotta, Elisabetta .................................20-2
Rousseau, Benoit................................25-2
Rousseau, Pieter G ...........................32-10
Roy, Pratanu .........................................2-3
Ruan, Xiulin.........................................18-1
Rudolph, Ilka ......................................13-1
Runyon, Augusta ................................19-1
Rusishvili, Jondo G. ..............................2-2
Author
Name
Session
Number
Rylatt, Daniel ......................................15-2
Ryoson, Hiroyuki...................................8-2
Ryzhkov, Sergei V..................................7-4
Sadek, Hossam .....................................5-1
Sadikin, Azmahani ..............................14-5
Saenen, Tom.........................................8-1
Saha, Pankaj .........................................7-1
Saha, Sujoy Kumar ........................2-4, 7-1
Sahoo, Pradeep K. .............................22-1
Sahu, Vivek ...........................................8-1
Saidi, Mohammad Hassan .11-1, 14-5, 31-1
Saito, Atsushi......................................22-1
Saito, Motohiro ..................................10-1
Saito, Shinichi .....................................25-1
Saito, Yuji............................................12-1
Saito, Yusuke ......................................17-2
Sakai, Seigo ..........................................3-1
Sakai, Takashi........................................2-2
Sakhnov, Alexey Yu. .............................7-4
Sakurai, Atsushi ....................................7-1
Salamon, Todd ...................................17-1
Salazar-Amador, Rubí .........................18-1
Saleh, Wael.........................................11-1
Sambegoro, Poetro............................18-1
Sambou, Vincent ................................20-1
Sammakia, Bahgat................................8-1
Sands, Timothy D. ..............................26-1
Sangeorzan, Brian ..............................10-1
Santangelo, Paolo E..................15-2, 27-1
Santos, Lidia F.......................................7-3
Sapozhnikov, Sergey Z. ......................13-1
Sasmito, Agus Pulung ........................10-1
Sathyamurthi, Vijay...............................2-2
Sathyanarayana, Aravind......................2-2
Sato, Masahide.....................................8-2
Sato, Takato..........................................2-2
Satou, Yoshiaki .....................................1-1
Sawyer, Karma ....................................18-2
Sazhin, Sergei .......................................3-2
Schmeling, Daniel...............................13-1
Schneider, Wilhelm...............................6-1
Scholl, Stephan...................................14-5
Schulz, Sebastian..................................6-1
Scott, David A. ...................................23-1
Seemawut, Panida................................7-1
Sefiane, Khellil ......................................2-4
Segalman, Rachel ...............................30-1
Seixlack, André Lui .............................Z5-1
Sellan, Daniel......................................18-2
Semenov, Andrey .................................9-1
Senda, Tetsuya .....................................7-2
Seo, Dong-Un.....................................13-1
Seol, Jae Hun .....................................18-2
Serrano, Justin R. ...............................18-1
Setayeshi, Saeid ...................................2-3
Shafii, Mohammad Behshad...............12-2
Shah, Amip J. .......................................8-2
100
Author
Name
Session
Number
Shah, M. Mohammed...........................5-2
Shahedi, Saeed...................................22-1
Shakouri, Ali ..............................13-1, 26-1
Shalem, Rotem .....................................2-1
Shams, Mehrzad.................................25-1
Shan, Yanguang..................................27-1
Shang, Yan.................................12-2, 28-1
Shan-Rang, Yang ................................14-2
Shao, Hongwei .....................................1-1
Shao, Li.................................................2-3
Sharma, Ratnesh K. .....................8-2, 27-1
Sharqawy, Mostafa H..........................14-1
Sheer, Thomas J. ................................14-5
Shekriladze, David I..............................2-2
Shekriladze, Irakli G..............................2-2
Shemer, Lev ........................................31-1
Shen, Lujie ............................................2-2
Shen, Sheng .......................................18-1
Sher, Ilai ..............................................15-1
Sheredy, William...................................2-2
Sheremet, Mikhail A. ..........................20-1
Sherif, S.A...........................................17-2
Sheu, Tsung-Sheng...............................2-1
Shi, Li ..................................................18-2
Shi, Yong-zheng....................................5-2
Shibahara, Makoto ...............................7-1
Shibahara, Masahiko ..........................18-1
Shigechi, Toru.......................................2-3
Shikazono, Naoki .............10-1, 17-1, 17-2
Shim, Youngsam ...................................3-2
Shimazaki, Yasuhiro ..............................1-1
Shimura, Masayasu...............................3-2
Shin, Byoongsu...................................19-1
Shin, Donghyun ..................................26-1
Shinmoto, Yasuhisa .......................2-2, 8-2
Shinohara, Masahiko ..........................21-1
Shinoki, Toshio .....................................3-1
Shiomi, Junichiro ................................18-1
Shishkova, Irina.....................................3-2
Shogin, Dmitriy...................................16-1
Shoji, Masahiro..............................2-1, 2-4
Shu, Ran ...............................................1-1
Si, Hongyu............................3-2, 7-3, 14-5
Si, Xiuhua............................................14-2
Siemons, Wolter .................................30-1
Sierens, Roger ......................................3-1
Siginer, Dennis A...........................7-1, 7-2
Sikarwar, Basant Singh .........................1-1
Silva, Renato A. ....................................7-3
Simonson, C.J. .....................................7-2
Sims, Grant E......................................31-1
Singh, Dhruv................................8-1, 18-2
Singh, Gurpreet....................................3-1
Singh, Navdeep..................................18-1
Singh, Pawan K...................................17-2
Singh, Randeep ....................................8-2
Sinhal, Koustubh.................................14-2
Author Index
Author
Name
Session
Number
Slabaugh, Carson .................................7-1
Smirnov, Evgueni.......................11-1, 14-4
Snarskii, Andrey A. .............................13-1
Sobac, Benjamin...................................9-1
Sobotka, Vincent ................................16-1
Soe Naing, Kyaw Swar .......................10-1
Solano, Juan P. .....................................7-1
Soliman, Hassan M....................................31-1
Solovjov, Vladimir ...............................25-1
Someya, Satoshi .................................13-1
Sommers, Andrew..............................19-1
Son, Gihun..........................................15-1
Son, Sangil..........................................15-1
Sonavane, Yogesh ..............................14-2
Song, Chul-Hwa ........................2-1, 32-34
Song, Kil-Sup......................................14-3
Song, Y.Z. .............................................2-1
Song, Yongchen .................................29-1
Soong, Chyi-Yeou.................................2-1
Soriano, Guillermo .............................27-1
Sotte, Marco.........................................6-1
Soufiani, Anouar .................................25-1
Souhar, Youssef ....................................6-1
Sousa, Antonio CM ............................24-2
Souza, Leandro F. .................................7-3
Sparrow, Ephraim .................................7-4
Specht, Eckehard .............14-2, 15-2, 27-1
Speetjens, Michel .................................7-3
Sphaier, Leandro ................7-3, 14-1, 14-3
Spindler, Klaus ......................................2-4
Spokoyny, Mikhail.................................8-2
Sposobin, A.V. ......................................4-1
Sreekala, P. .........................................11-1
Srinivasa Murthy, S. ............................32-6
Srinivasan, Vinod ................................12-1
Srivastava, Rishabh.............................17-1
Sánchez-Santana, José-Pedro ............18-1
Staples, D. A.........................................2-3
Starodubtseva, Irina P...........................9-1
Steeman, Marijke ...............................14-4
Steinfeld, Aldo ...................................24-2
Stephan, Peter ..........9-1, 17-2, 23-1, 27-1
Stetina, Josef......................................16-1
Strongin, Mark M. .......................7-4, 11-1
Subbuswamy, Ganesh ..........................8-2
Suga, Kazuhiko ...................................18-1
Sui, Yongli...........................................16-1
Sul, Hea Youn .....................................19-1
Summers, Edward K. ..........................26-1
Sun, Dexing ..........................................5-2
Sun, Hongwei .....................................19-1
Sun, Hua ...............................................9-1
Sun, Jie .................................................5-1
Sun, XiHui .............................................2-4
Sun, Xinxing........................................14-5
Sun, Yan................................................2-3
Sun, Zhanyu........................................17-1
Author
Name
Session
Number
Sundararajan, Thirumalachari....17-2, 22-1
Sunden, Bengt....................................11-1
Sunol, Aydin .......................................14-1
Surtaev, Anton S...................................9-1
Suto, Hitoshi................................4-1, 20-2
Suzuki, Hiroshi ......................................7-2
Suzuki, Kei ............................................3-2
Suzuki, Koichi .....................................17-1
Suzuki, Ryota ........................................1-1
Sviridov, Evgeniy V..............................22-1
Sviridov, Valentin ................................22-1
Swaminathan, Prasanna ............20-2, 25-1
Sykes, D. M...........................................2-3
Szmyd, Janus....................................Z10-1
Tabe, Yutaka .......................................10-1
Tachon, loic ..........................................9-1
Tada, Yukio ..................................1-1, 14-4
Tadrist, L. ..............................................9-1
Tadrist, Lounes ............................9-1, 24-2
Tagawa, Masato ...................................7-4
Taine, Jean .......................................32-38
Taitel, Yehuda .......................................2-4
Takagi, Shu ...........................................2-1
Takagi, Youhei ....................................16-1
Takahashi, Koji ....................................18-2
Takashiri, Masayuki.............................30-1
Takeda, Hiroki.......................................2-4
Takeishi, Kenichiro..............................11-1
Takemura, Fumio ..................................2-1
Takenaka, Nobuyuki ...........................22-1
Takenaka, Susumu ..............................18-1
Takeuchi, Kiyoshi ................................18-1
Takimoto, Akira ...........................1-1, 14-4
Tamanna, Sanjida................................15-1
Tan, Junjie...........................................15-1
Tanabe, Yasuhiro ..................................3-2
Tanahashi, Mamoru ..............................3-2
Tanaka, Chitose ..................................29-1
Tanaka, Saburo ...................................30-1
Tang, D.W. ..........................................18-2
Tang, Jinyao .......................................18-2
Tange, Manabu ...........................2-1, 13-1
Tanigawa, Hirochika ...........................20-1
Taniguchi, Shinya................................25-2
Tao, Wang ..........................................16-1
Tao, Wen-Quan ..............10-1, 14-4, 32-21
Tao, Xihai ............................................14-2
Tao, Yong............................................28-1
Tao, Yujia ............................................27-1
Tarasevich, Stanislav .............................7-1
Tartarini, Paolo ..........................15-2, 27-1
Tatsumi, Kazuya ....................................3-1
Teraoka, Y. ..........................................20-2
Terekhov, Viktor I. ................7-1, 7-3, 15-2
Terekhov, Vladimir V. ............................3-1
Tessé, Lionel .........................................3-2
Testi, Daniele ......................................15-1
101
Author
Name
Session
Number
Thiagarajan, Suraj...............................27-1
Thianpong, Chinaruk..........................14-3
Thomas, John A. ................................18-2
Thome, John R. ....................................5-2
Thompson, Scott ................................12-2
Tian, Changqing...................................5-1
Tian, Fengguo ....................................14-1
Tian, Rui..............................................20-2
Tian, Yuan ...........................................23-1
Tibiriçá, Critiano B..............................17-2
Timchenko, Victoria .......17-1, 27-1, 32-19
Titov, Alexander A. .....................7-4, 11-1
Tiwari, Manish K. ..................................8-1
T’Joen, Christophe ..14-3, 14-4, 24-2, 31-1
Tokunaga, Atsushi ................................4-1
Tolbert, Sarah H..................................18-2
Tomimura, Toshio .................................8-1
Tominaga, Kaoru ................................13-1
Tong, Jimmy .........................................7-4
Tong, Lige ........................14-5, 16-1, 28-1
Tonini, Simona ......................................4-1
Topin, Frederic ...................................24-2
Torii, Shuichi ...............................3-1, 8-1, 14-1
Torres, Juan F..........................................7-4
Torvi, D.A................................................7-2
Touchon, Patrice...................................26-1
Towne, Aaron .......................................14-4
Trabelsi, Hamed ...................................16-1
Trajkovski, Robert...................................3-1
Tran, Honghi.........................................14-2
Tran, Lucky V. ..........................................7-1
Travnicek, Zdenek ................................15-2
Trias, Xavier ..........................................20-1
Trofimov, Vladimir...................................8-2
Trouette, Benoit ...................................20-1
Trujillo, Mario F. ....................................27-1
Tschaut, Rita .........................................27-1
Tsoi, Alexei N..........................................9-1
Tsotsas, Evangelos ...............................14-2
Tsuji, Toshihiro ......................................20-2
Tsukahara, Takahiro ................................7-2
Tsumura, A............................................20-2
Tsunemi, Akihiko ....................................3-2
Tsuruta, Takaharu....................................4-1
Tsushima, Shohji ...................................24-1
Tsyganok, Aleksander A.......................14-5
Tudor, Valentin........................................8-1
Turgay, Metin B. ...................................17-1
Turney, Joseph .....................................18-2
Uchida, Yuki..........................................17-1
Ueda, Toshihisa ....................................15-1
Uemura, Suguru ...................................24-1
Ueno, Ichiro ..........................................31-1
Uhlig, Ralf ...........................................26-1
Ullmann, Amos ...................................14-1
Umekawa, Hisashi ................................2-4
Usami, Kazuma .....................................8-2
Author Index
Author
Name
Session
Number
Uspuras, Eugenijus .............................14-3
Ustinov, Alexander ...............................2-3
Ustinov, Victor ......................................6-1
Usui, Satoshi .......................................10-1
Utaka, Yoshio...............................5-1, 10-1
Utturkar, Yogen ..................................15-2
Vadasz, Johnathan..............................23-1
Vadasz, Peter......................................24-1
Vafaei, Saeid................................2-3, 19-1
Vaidheeswaran, Avinash .......................2-4
Vajen, Klaus ........................................14-3
Valdiserri, Paolo..................................15-2
Valentine, Russell..................................2-2
van den Akker, Pieter .........................17-2
van der Geld, Cees...............................5-1
van der Meer, Theo ............................17-1
van Duin, Adri.....................................18-2
van Es, Johannes ..................................2-4
Van Oevelen, Tijs................................17-1
Van Rooyen, Eugene ............................5-2
van Steenhoven, Anton A. .................17-2
Vanderpool, Damien ..........................29-1
Vanoni, Mike.......................................14-1
Varaksin, Aleksei...................................7-3
Varanasi, Kripa...............................2-1, 9-1
Varava, Alexander N.............................2-4
Vardy, Alan E ......................................13-1
Vargas, Pedro .....................................13-1
Vasilevskiy, Eduard B. ...........................7-3
Vasquez, Felipe ..................................26-1
Vavilov, Sergei N...................................2-3
Venkatachalam, Anusha .......................8-1
Venkatesan, M. ...................................17-2
Venkateshan, S.P. ......................20-2, 25-1
Verhelst, Sebastian ...............................3-1
Verstappen, Roel ................................20-1
Vianna, F. L. V........................................7-4
Viedma, Antonio ..................................7-1
Vielmo, Horácio A. .............................25-2
Vikhansky, Alexander .........................28-1
Viljoen, Dawie J..................................14-5
Vincent, Stéphane ..............................15-2
Vinnikov, V.V..........................................4-1
Vinogradov, Yurii A......................7-4, 11-1
Vit, Tomas ...........................................15-2
Volchkov, Eduard P. .......................3-1, 7-4
Volodin, Oleg A....................................9-1
von Wolfersdorf, Jens ........................15-1
Wagner, Claus ....................................13-1
Wagner, Gregory J. ..............................4-1
Wajda, Wojciech.................................16-1
Wakabayashi, Hidenobu.....................25-2
Walker, Simon P. ..........................2-3, 22-1
Wang, Aili .............................................5-1
Wang, Chi-Chuan ........................8-2, 14-4
Wang, Evelyn .....................9-1, 12-1, 26-1
Wang, Fang ........................................17-2
Author
Name
Session
Number
Wang, Fei ...........................................14-3
Wang, Feng ........................................13-1
Wang, Ge ...........................................18-2
Wang, Haidong ....................................6-1
Wang, Huasheng ..................................5-1
Wang, Jinxiang...................................28-1
Wang, K. S............................................4-1
Wang, L.Q. ...........................................1-1
Wang, L.W. .......................................32-31
Wang, Lei .........................................32-32
Wang, Li ...........................14-5, 16-1, 28-1
Wang, Lijuan.........................................7-3
Wang, Liping ......................................25-2
Wang, Liqiu ........................................19-1
Wang, Maohai ....................................30-1
Wang, Moran ............................24-2, 29-1
Wang, Peng........................................30-1
Wang, Pengtao ..................................19-1
Wang, Qiuwang ........................14-4, 17-1
Wang, R. Z...............................23-1, 32-31
Wang, Shuangfeng.............................31-1
Wang, Sifang ........................................5-1
Wang, Sui-Lin .......................................5-2
Wang, Ting................................11-1, 14-2
Wang, Wei ................6-1, 14-2, 18-2, 27-1
Wang, Xia ...........................................10-1
Wang, Xiaoyan ............................3-2, 14-5
Wang, Xiuling .......................................4-1
Wang, Xudong .....................................3-1
Wang, Yanfeng .....................................3-1
Wang, Yuan ..........................................2-4
Wang, Yu-Gang ..................................15-2
Wang, Yun ..........................................10-1
Wang, Zhefu .........................................4-1
Wang, Zhiguo.....................................29-1
Wanjin, Han ........................................11-1
Wardana, I.N.G.....................................3-2
Warren, Bobby A..................................7-1
Watanabe, Hirotatsu ............................3-2
Wayner, Peter .......................................9-1
Webb, Brent W. ..................................25-1
Webster, Alfred ..................................14-1
Wei, Gaosheng.....................................6-1
Wei, Jin J. .............................................2-3
Wei, Li.................................................18-2
Wei, Wei ...............................................3-1
Weibel, Justin..............................8-2, 12-1
Weigand, Bernhard ............................11-1
Weigler, Fabian...................................14-2
Weiguo, Pan .......................................12-2
Weinschenk, Craig..............................13-1
Wen, Chang-Da ..................................25-2
Wen, Dongsheng ........................2-3, 19-1
Wen, John T..........................................8-1
Wen, Juan.............................................4-1
Wen, Zhi ...............................................3-1
Wirtz, R.A. ............................................2-3
102
Author
Name
Session
Number
Wissler, Eugene H. ...........................32-11
Witte, Larry....................................2-1, 2-4
Wolczynski, Waldemar........................16-1
Wongcharee, Khwanchit .............7-1, 14-3
Wongwises, Somchai ..................5-2, 19-1
Woodward, Erin..................................14-1
Worek, William M. ..............................14-3
Wu, Bangxian .....................................12-2
Wu, Bin........................................3-1, 14-1
Wu, Gang .........................................32-32
Wu, Guomei ................................5-1, 14-3
Wu, J.Y..............................................32-31
Wu, Jianghong ...................................14-5
Wu, Mengbai......................................18-1
Wu, Wei ..............................................19-1
Wu, Weidong .....................................14-4
Wu, Xiao Ping.......................................8-2
Wu, Xiaoyu .........................................14-5
Wu, Yuan-yuan......................................5-2
Wu, Zan ..............................................17-2
Wuttijumnong, Vijit .....................8-2, 12-1
Wyss, Peter.........................................24-2
Xia, Z.Z. ............................................32-31
Xian, Haizhen......................................12-2
Xiang, Shunhua ..................................27-1
Xiao, Rong............................................9-1
Xiao, WenJia.........................................2-4
Xiao Bo, Wu..........................................2-1
Xie, Fa ................................................17-2
Xie, Gongnan .....................................11-1
Xie, Guozhen.............................12-2, 19-1
Xie, Huaqing .............................19-1, 23-1
Xie, Ming ............................................25-2
Xie, Xiaochen .....................................25-2
Xin, Gongming..........5-1, 12-1, 14-2, 14-3
Xin, Shihe............................................21-1
Xu, Dongyan.......................................18-2
Xu, Hening............................................7-2
Xu, Hong ..............................................2-3
Xu, Jing ..............................................14-4
Xu, Lisa .................................................1-1
Xu, Mingtian .............6-1, 14-1, 14-3, 29-1
Xu, Ruina ............................................17-1
Xu, Shu ...............................................26-1
Xu, Zzhiming.......................................14-2
Xuan, Y.M. ..........................8-1, 15-1, 25-2
Xue, Yan F. ............................................2-3
Xuemin, Niu..........................................7-4
Yabuki, Tomohide .................................2-2
Yagov, Victor V......................................2-4
Yakovlev, Anatoly .................................7-1
Yakubenko, Alexander E. .....................7-4
Yamada, Toru........................................4-1
Yamaguchi, Shingo ...............................9-1
Yamaguchi, Tomohiko ..........................2-3
Yamamoto, Daichi ................................1-1
Yamamoto, Seiji....................................3-2
Author Index
Author
Name
Session
Number
Yamamoto, Takaharu ..........................17-1
Yamasaki, Hiroshi..................................3-2
Yamashiro, Hikaru...............................14-1
Yan, Xiaohong ....................................17-1
Yan, Yushan.........................................18-2
Yan, Yuying ....................................2-2, 5-1
Yang, Bin ............................................12-2
Yang, Chien-Yuh ...................................2-2
Yang, Chun .........................................17-1
Yang, Chunsheng .................................7-2
Yang, Guogang ....................................3-1
Yang, Hongchang ...............................14-3
Yang, Hui ..............................................3-1
Yang, Junhong......................................1-1
Yang, Kai-Shing ....................................8-2
Yang, Kyung-Soo ..................................7-4
Yang, Li .................................................4-1
Yang, Lijun ...................................8-1, 10-1
Yang, M. .............................................20-1
Yang, Mo ............................................18-1
Yang, Mu ............................................18-2
Yang, Nuo.........................................32-32
Yang, Peidong ....................................18-2
Yang, Ronggui...........................18-2, 27-1
Yang, Wen-Jei .............................2-1, 14-1
Yang, Wenzhe.....................................29-1
Yang, Xiao ............................................2-2
Yang, Xiao Hong.................................20-2
Yang, Yong..........................................14-2
Yang, Yongping .........................10-1, 12-2
Yankov, Georgiy .................................24-1
Yanyshev, Dmitry S. ..............................7-3
Yao, Jun ..............................................14-1
Yao, Peng .............................................2-1
Yao, Zhen............................................18-2
Yarygina, Nadezhda I. ...................7-1, 7-3
Yastrebov, Arseniy ................................5-1
Yasumatsu, Shohei................................9-1
Yazawa, Kazuaki ..........................8-2, 13-1
Yazicioglu, Almila................................17-1
Ye, Fang ....................................10-1, 12-2
Yee, Shannon......................................30-1
Yeoh, Guan H. ....................................17-1
Yerkes, Kirk .........................................19-1
Yi, Sung-Jae .......................4-1, 22-1, 31-1
Yi, Zhou ................................................7-4
Yin, Shaowu ........................................14-5
Yoda, Minami......................................13-1
Yoder, P. Douglas................................18-2
Yokomine, Takehiko............................25-1
Yonekura, Haruka ...............................14-4
Yoo, Seong-Yeon. ...............................13-1
Yoon, Dong-Hyeog...............................7-4
Yoon, Seok Ho....................................17-2
Author
Name
Session
Number
Yoshida, Atsumasa ...............................1-1
Yoshida, Hideo ...................................10-1
Yoshii, Shinsaku ....................................2-2
Yoshitake, Yu ........................................9-1
Yu, Bo ...................................................3-2
Yu, Boming ...........................................4-1
Yu, Cheong-Hwan ..............................27-1
Yu, Feng .............................................15-1
Yu, Leyuan ..........................................19-1
Yu, Wei ...............................................19-1
Yu, Wenjing ........................................12-1
Yu ting, Wu ...........................................7-2
Yuan, Dazhong ...................................12-2
Yuan, Jinliang .......................................3-1
Yuan, Min Z...........................................2-3
Yue, Danting.........................................3-1
Yuki, Kazuhisa .......................................7-1
Yury, Zeigarnik.............................2-3, 27-1
Yu-Ting, Wu ........................................16-1
Zaferanlouei, Salman.....................2-2, 2-3
Zaitsev, Dmitry......................................9-1
Zalkind, Valery I. .................................27-1
Zditovets, Andrey G....................7-4, 11-1
Zeng, Min ...........................................14-4
Zhang, Aili ............................................1-1
Zhang, Chao.......................................10-1
Zhang, Gang.....................................32-32
Zhang, Guanmin.................................14-4
Zhang, Hua.......................14-1, 14-3, 14-4
Zhang, Hualing............................2-1, 14-1
Zhang, Jiahui ........................................8-1
Zhang, Jili .............................................5-2
Zhang, Jing.........................................14-2
Zhang, Jingru ..............................8-1, 17-2
Zhang, Kun .........................................20-1
Zhang, Li......................................2-3, 29-1
Zhang, Lizhi ........................................14-3
Zhang, Peng .......................................23-1
Zhang, Shihong ....................................3-1
Zhang, Shihu.......................................14-3
Zhang, Shuming ...................................7-2
Zhang, Tiantian .........................14-1, 17-2
Zhang, TieJun.......................................8-1
Zhang, Weihong .................................11-1
Zhang, Xi ............................................18-1
Zhang, Xiaoyu ......................................7-1
Zhang, Xing.................................6-1, 18-2
Zhang, Xin-Rong...................................7-2
Zhang, Xinxin ...............6-1, 7-2, 7-3, 15-1,
.........................................18-2, 24-2, 27-1
Zhang, Y.J. ..........................................30-1
Zhang, Yan............................................7-4
Zhang, Yuwen............................18-1, 20-1
Zhang, Zhen .......................................28-1
103
Author
Name
Session
Number
Zhang, Zhengjiang .............................14-2
Zhang, Zhuomin .................................25-2
Zhangbo, Ye .......................................12-2
Zhao, Changying ................................23-1
Zhao, Chen-Ru ...................................17-1
Zhao, Fangfang ....................................7-3
Zhao, Hongming ..................................3-2
Zhao, Huanhuan .................................14-1
Zhao, Jie...............................................7-3
Zhao, Jun..............................................1-1
Zhao, Lei.............................................14-2
Zhao, Liang.........................................14-2
Zhao, Minfu ..........................................7-2
Zhao, Yang ................................18-1, 18-2
Zhao, Yaohua......................................12-1
Zhenfeng, Wang.................................11-1
Zheng, Dezhi ........................................3-1
Zheng, Kuncan .....................................3-1
Zheng, Liancun ....7-2, 7-3, 7-4, 15-1, 24-2
Zheng, Yunhan ...................................14-1
Zhenirovskyy, Maxim I. .......................13-1
Zhigilei, Leonid...................................18-1
Zhihao, Chen ........................................5-1
Zhilin, Vyacheslav G. ...................2-3, 22-1
Zhiyun, Wang .....................................20-2
Zhou, Chenn Q............................3-1, 14-1
Zhou, Feng ..................................8-2, 14-3
Zhou, Jing-Wei ...................................15-2
Zhou, Wen-Jing ..................................14-4
Zhou, Wenzhong ..................................5-2
Zhu, Beibei ...........................................9-1
Zhu, Dairu...........................................14-1
Zhu, Jie...............................................18-2
Zhu, Jing.............................................15-1
Zhu, Liang.............................................1-1
Zhu, Qing .............................................1-1
Zhu, Qunzhi ........................................25-1
Zhu, W.Y................................................4-1
Zhuge, Weilin .....................................30-1
Zhuravlev, Anton ..................................2-2
Zilio, Claudio ......................................24-1
Zimmermann, Rafael ..........................14-1
Zinovik, Igor ................................8-1, 17-2
Ziskind, Gennady..................................2-1
Zong, Fenglei .......................................7-2
Zou, Feilong .......................................12-1
Zou, Guan-sheng................................12-1
Zou, Yong...........................5-1, 12-1, 14-2
Zoueidi, Noussaiba.............................21-1
Zu, Yingqing .........................................5-1
Zubair, Syed M. .........................14-1, 26-1
Zueco, Joaquin............................6-1, 21-1
Zummo, Giuseppe................................2-4
Conference Committees
STEERING COMMITTEE & LIAISONS
US SCIENTIFIC COMMITTEE
Dr. Avram Bar-Cohen, Conference Chair, University of Maryland
Dr. Yogesh Jaluria, Chair, Executive Committee, Rutgers University
Dr. Jungho Kim, Conference Secretary, University of Maryland
Dr. Van Carey, Liaison, ASME HT Division, University of CaliforniaBerkeley
Dr. Mohammed El Genk, Liaison, AIChe, University of New Mexico
Dr. Jack Lloyd, Chair, Advisory Committee, Michigan State
University
Dr. Liang Zhu, Liaison, ASME Biotransport Committee, AMD, Inc.
Gamal Rafai-Ahmed, Liaison, ASME Electronic and Photonic
Packaging Division, AMD, Inc.
Dr. Yassin Hassan, Liaison, ASME Nuclear Division, Texas A & M
University
Joe Miller, Liaison, ASME Nuclear Division, EDA Inc.
Dr. Srinath V. Ekkad, Liaison, ASME Gas Turbine Division, Virginia
Tech, Blacksburg, VA
Boris Cioreiu, Liaison, ASME DC Section, Energy Solutions, LLC
Bahgat Sammakia, Liaison, ASME Electronic and Photonic
Packaging Division
Dereje Agonafer, Liaison, ASME Electronic and Photonic
Packaging Division
A. K. Gupta, Liaison, American Institute of Aeronautics and
Astronautics
S. Kandlikar, Liaison, ASME Microchannels
Chang Oh, Liaison, American Nuclear Society
Michael K. Jensen, Chair
Jane H. Davidson
Jay M. Khodadadi
Adrienne G. Lavine
Marino di Marzo
Mohammed S. El-Genk
N. K. Anand
Ranga Pitchumani
Chenn O. Zhou
Raj M. Manglik
A. K. Runchal
Yong-Xin Tao
Timothy Fisher
S. Kandlikar
AIHTC DELEGATES
G. de Vahl Davis, Australia
J. A. Reizes, Australia
L.F. Milanez, Brazil
H.R.B. Orlande, Brazil
A. Charette, Canada
P.H. Oosthuizen, Canada
Xing Zhang, China
Chong Fang Ma, China
Denis Maillet, France
Jean Taine, France
Ulrich Gross, Germany
Stephan Kabelacq, Germany
S. Srinivasa Murthy, India
M.V. Krishnamurthy, India
Neima Brauner, Israel
Gad Hestroni, Israel
Gian Piero Celata, Italy
Maurizio Cumo, Italy
Hideo Yoshida, Japan
N. Kasagi, Japan
Joon Sik Lee, Korea
Goon-Cherl Park , Korea
Anton A. Steenhoven , Netherlands
Theo van der Meer, Netherlands
Pedro Coelho, Portugal
Vitor Costa , Portugal
Alexander Leontiv , Russia
Leonid Dombrovsky , Russia
Josua Meyer , South Africa
C. G. (Jat) du Toit , South Africa
John Thome , Switzerland
Dimos Poulikakos , Switzerland
Geoff Hewitt , United Kingdom
Adrian Briggs , United Kingdom
Mohamad El Genk , USA
Y. Jaluria, USA
INTERNATIONAL SCIENTIFIC COMMITTEE
AUSTRALIA
Graham de Vahl Davis
KOREA
Joon Sik Lee
Sung Jin Kim
BRAZIL
Luiz Milanez
Helcio R.B. Orlande
Angela Nieckele
PORTUGAL
Pedro Jorge Martins Coelho
Victor A.F. Costa
CANADA
André Charette
Pat Oosthuizen
RUSSIA
Alexander Leontiev
Yuri V. Polezhaev
CHINA
Xing Zhang
Chong Fang Ma
SOUTH AFRICA
Jat du Toit
Josua Meyer
FRANCE
Denis Maillet
Jean Taine
SWITZERLAND
Dimos Poulikakos
John Richard Thome
GERMANY
Ulrich Gross
Stephan Kabelac
NETHERLANDS
Th. H. van der Meer
A.A.V. Steenhoven
INDIA
M.V. Krishnamurthy
S.Srinivasa Murthy
S.P.Venkateshan
UNITED KINGDOM
Adrian Briggs
Geoffrey Hewitt
ISRAEL
Neima Brauner
Gad Hetsroni
ITALY
Gian Piero Celata
Maurizio Cumo
USA
Avram Bar-Cohen
Yogesh Jaluria
AIChE
Mohamed El-Genk
SECRETARY
Jungho Kim
JAPAN
Isao Satoh
Toshio Miyauchi
104
Session Chairs/Co-Chairs
BIO HEAT TRANSFER
1-1 Bio Heat Transfer
Keunhan (Kay) Park, University of Rhode Island, Session Chair
Liang Zhu, University of Maryland Baltimore County, Session Co-Chair
BOILING HEAT TRANSFER
2-1 Bubbles and Nucleation
Gennady Ziskind, Ben-Gurion University, Session Chair
David Christopher, Tsinghua University, Session Co-Chair
2-2 Pool Boiling
Yogendra Joshi, Georgia Institute of Technology, Session Chair
Mohamed El-genk, Chemical & Nuclear Engineering Dept., Session Co-Chair
2-3 Flow Boiling I
Debjyoti Banerjee, Texas A&M University, Session Chair
Nagamangala Anand, Texas A&M University, Session Co-Chair
2-4 Flow Boiling II
Yoav Peles, Rensselaer Polytechnic Institute, Session Chair
D. Keith Hollingsworth, University of Houston, Session Co-Chair
COMBUSTION
3-1 Combustion 1
Kevin McGrattan, National Institute of Standards & Technology, Session Chair
3-2 Combustion 2
Chenn Q. Zhou, Purdue University Calumet, Session Chair
Sergei Sazhin, University of Brighton, Session Co-Chair
COMPUTATIONAL HEAT TRANSFER
4-1 Computation Fundamentals and Applications
Darrell Pepper, University of Nevada Las Vegas, Session Chair
Alexander Brown, Sandia Labs, Session Co-Chair
CONDENSATION
5-1 Condensation 1
Srinivas Garimella, Session Chair
Alfred Leipertz, Lehrstuhl für Technische Thermodynamik, Universität Erlangen-Nürnberg, Session Co-Chair
5-2 Condensation 2
Adrian Briggs, London University, Session Chair
Josua Meyer, University of Pretoria, Session Co-Chair
CONDUCTION
6-1 Conduction
Xing Zhang, Tsinghua University, Session Chair
Ashley Emery, University of Washington, Session Co-Chair
CONVECTION
7-1 Enhanced Convection
Scott Ormiston, University of Manitoba, Session Chair
Alfonso Niro, Politecnico di Milano, Session Co-Chair
7-2 Non-Newtonian Convection
Masaaki Motozawa, Tokyo University of Science, Session Chair
Igor Pioro, University of Ontario Institute of Technology, Session Co-Chair
7-3 Single Phase Convection 1
Akira Murata, Tokyo University of Agriculture and Technology, Session Chair
Josua Meyer, University of Pretoria, Session Co-Chair
7-4 Single Phase Convection 2
John Abraham, University of St. Thomas, Session Chair
H. R. B., Orlande, Federal University of Rio de Janeiro, Session Co-Chair
105
Session Chairs/Co-Chairs
ELECTRONIC COOLING
8-1 Electronic Cooling 1
Martin Cerza, US Naval Academy, Session Chair
Dimos Poulikakos, ETH Zurich - Laboratory of Thermodynamics in Emerging Technologies, Session Co-Chair
8-2 Electronic Cooling 2
Yoshiyuki Abe, AIST (National Research Institute of Advanced Industrial Science & Technollogy), Session Chair
EVAPORATION
9-1 Evaporation Heat Transfer
Niro Nagai, University of Fukui, Session Chair
Evelyn Wang, Massachusetts Institute of Technology, Session Co-Chair
FUEL CELLS
10-1 Fuel Cells
Ranga Pitchumani, Virginia Tech, Session Chair
Shawn Litster, Carnegie Mellon University, Session Co-Chair
GAS TURBINES
11-1 Gas Turbines
Srinath Ekkad, Virginia Tech, Session Chair
Ibrahim Hassan, Concordia University, Session Co-Chair
HEAT PIPES
12-1 Heat Pipe Configuration and Wicks
Hongbin Ma, University of Missouri, Session Chair
Timothy S. Fisher, Purdue University, Session Co-Chair
12-2 Steady and Oscillating Heat Pipes
Suresh V. Garimella, Purdue University, Session Chair
Timothy S. Fisher, Purdue University, Session Co-Chair
HEAT TRANS MEAS TECH
13-1 Measurement Techniques
Minami Yoda, Georgia Institute of Technology, Session Chair
Srinath Ekkad, Virginia Tech, Session Co-Chair
HEAT TRANSFER EQUIPMENT
14-1 Heat Transfer Equipment 1
John Lienhard, Massachusetts Institute of Technology, Session Chair
Kyoungwoo Park, Dept. of Mechanical Engineering, Hoseo Univ., Session Co-Chair
14-2 Heat Transfer Equipment 2
Masahiro Kawaji, University of Toronto, Session Chair
Angela Nieckele, PUC-Rio, Session Co-Chair
14-3 Single Phase Heat Exchangers 1
Lizhi Zhang, South China University of Technology, Session Chair
Leandro Sphaier, Universidade Federal Fluminense, Session Co-Chair
14-4 Single Phase Heat Exchangers 2
Jader R. Barbosa Jr., Federal University of Santa Catarina, Session Chair
Stephan Kabelac, Helmut Schmidt University / University of the Federal Armed Forces Hamburg, Session Co-Chair
14-5 Two Phase Heat Exchangers
Xing Luo, Helmut Schmidt University, Session Chair
Giovanni A. Longo, University of Padova - DTG, Session Co-Chair
JET IMPINGEMENT
15-1 Single-Phase Jets
Ilai Sher, Cranfield University, Session Chair
Chanwoo Park, University of Nevada, Reno, Session Co-Chair
15-2 Two-Phase and Synthetic Jets
Sung Kim, KAIST, Session Chair
James Klausner, University of Florida, Session Co-Chair
106
Session Chairs/Co-Chairs
MELTING AND SOLIDIFICATION
16-1 Melting/Solidification
Vincent Sobotka, Polytech’Nantes - Laboratoire de Thermocinétique de Nantes, Session Chair
Youhei Takagi, Shizuoka University, Session Co-Chair
MICROCHANNELS
17-1 Microchannels 2
Anton A. van Steenhoven, Eindhoven University of Technology, Session Chair
Weilin Qu, University of Hawaii at Manoa, Session Co-Chair
17-2 Microchannels 1
Satish Kandlikar, Rochester Institute of Technology, Session Chair
J.L. Alvarado, Texas A&M University, Session Co-Chair
NANO
18-1 Nano Interfaces and Misc. Nano
Pamela Norris, University of Virginia, Session Chair
Wilson K. S. Chiu, University of Connecticut, Session Co-Chair
18-2 Phonon Transport and Thermal Conductivity
Debjyoti Banerjee, Texas A&M University, Session Chair
Laurent Pilon, University of California, Los Angeles, Session Co-Chair
NANOFLUIDS
19-1 Nanofluids
Andrew Sommers, Miami University, Session Chair
Yong Tae Kang, Kyung Hee University, Session Co-Chair
NATURAL CONVECTION
20-1 Natural Convection 1
Arcot R. Balakrishnan, Indian Institute of Technology Madras, Session Chair
Luiz Fernando Milanez, University of Campinas - UNICAMP, Session Co-Chair
20-2 Natural Convection 2
Luiz Fernando Milanez, University of Campinas - UNICAMP, Session Chair
NATURAL/MIXED CONVECTION
21-1 Mixed Convection
Patrick, H. Oosthuizen, Dept. of Mechanical and Materials Engineering, Queen’s University, Session Chair
Kevin Farrell, Heat Transfer Research, Inc., Session Co-Chair
NUCLEAR
22-1 Nuclear
Hyun Sik Park, Korea Atomic Energy Research Institute, Session Chair
Chang Oh, Idaho National Laboratory, Session Co-Chair
PHASE CHANGE MATERIALS
23-1 Phase Change Materials
Peter Stephan, Technische Universität Darmstadt, Session Chair
Nicholas Jankowski, U.S. Army Research Laboratory, Session Co-Chair
POROUS MEDIA
24-1 Porous Media 1
Marcelo de Lemos, Instituto Tecnológico de Aeronáutica - ITA, Session Chair
Peter Vadasz, Northern Arizona University, Session Co-Chair
24-2 Porous Media 2
Ulrich Gross, Technische Universitaet Bergakademie Freiberg, Session Chair
Moran Wang, Los Alamos National Laboratory, Session Co-Chair
107
Session Chairs/Co-Chairs
RADIATION
25-1 Radiation 1
Leonid Dombrovsky, Joint Institute for High Temperatures, Session Chair
Pedro Coelho, Instituto Superior Tecnico, Technical University of Lisbon, Session Co-Chair
25-2 Radiation 2
Zhuomin Zhang, Georgia Institute of Technology, Session Chair
André Charette, Centre Universitaire de Recherche sur l’Aluminium, Session Co-Chair
SOLAR
26-1 Solar Energy
Sandra Boetcher, University of North Texas, Session Chair
Jane H. Davidson, University of Minnesota, Session Co-Chair
SPRAY COOLING
27-1 Spray Cooling
Jorge E Gonzalez, City College of New York, Session Chair
Denis Maillet, CNRS & Nancy-Université, Session Co-Chair
SUSTAINABLE ENVIRONMENT
28-1 Sustainable Environment
Yong-Xin Tao, Florida Intl Univ, Session Chair
THERMODYNAMIC FUNDAMENTALS AND SYSTEMS
29-1 Thermodynamic Fundamentals and Systems
Laurent Pilon, University of California, Los Angeles, Session Chair
Mingtian Xu, Shandong University, Session Co-Chair
THERMOELECTRICS
30-1 Thermoelectrics
Kyoung Joon Kim, Alcatel-Lucent, Session Chair
TWO-PHASE FLOW
31-1 Adiabatic Two-Phase Flows
Hassan M. Soliman, University of Manitoba, Session Chair
KEYNOTES
32-1 Keynote 1
Richard Goldstein, University of Minnesota, Session Chair
32-2 Keynote 2
Erich Hahne, Session Chair
32-3 Keynote 3
Yogesh Jaluria, Rutgers University, Session Chair
32-4 Keynote 4
Geoffrey F. Hewitt, Imperial College London, Session Chair
32-5 Keynote 5
Theo van der Meer, Twente University, Session Chair
32-6 Keynote 6
Leonid Dombrovsky, Joint Institute for High Temperatures, Session Chair
32-7 Keynote 7
Joon Sik Lee, Session Chair
32-8 Keynote 8
Stephan Kabelac, Helmut Schmidt University / University of the Federal Armed Forces Hamburg, Session Chair
32-9 Keynote 9
André Charette, Centre Universitaire de Recherche sur l’Aluminium, Session Chair
32-10 Keynote 10
Chang Oh, Idaho National Laboratory, Session Chair
32-11 Keynote 11
Neima Brauner, Tel-Aviv University, Session Chair
108
Session Chairs/Co-Chairs
32-13 Keynote 13
Mohamed El-genk, Chemical and Nuclear Engineering Dept., Session Chair
32-14 Keynote 14
Dimos Poulikakos, ETH Zurich - Laboratory of Thermodynamics in Emerging Technologies, Session Chair
32-15 Keynote 15
Pedro Coelho, Instituto Superior Tecnico, Technical University of Lisbon, Session Chair
32-16 Keynote 16
Avram Bar-Cohen, University of Maryland, Session Chair
32-17 Keynote 17
Masahiro Kawaji, University of Toronto, Session Chair
32-18 Keynote 18
Josua Meyer, University of Pretoria, Session Chair
32-19 Keynote 19
Graham de Vahl Davis, University of New South Wales, Session Chair
32-20 Keynote 20
Adrian Briggs, London University, Session Chair
32-21 Keynote 21
Luiz Fernando Milanez, University of Campinas - UNICAMP, Session Chair
32-22 Keynote 22
Gad Hestroni, Technion, Session Chair
32-23 Keynote 23
C. G. (Jat) du Toit, North-West University, Session Chair
32-24 Keynote 24
Sung Jin Kim, KAIST, Daejeon, Korea, Session Chair
32-25 Keynote 25
Jungho Kim, University of Maryland, Session Chair
32-26 Keynote 26
John R. Thome, EPFL, Session Chair
32-27 Keynote 27
A. E. Bergles, Rensselaer Polytechnic Institute, Session Chair
32-28 Keynote 28
Yuri V. Polezhaev, Session Chair
32-29 Keynote 29
Ulrich Gross, Technische Universitaet Bergakademie Freiberg, Session Chair
32-30 Keynote 30
Patrick, H. Oosthuizen, Dept. of Mechanical and Materials Engineering, Queen’s University, Session Chair
32-31 Keynote 31
Satish Kandlikar, Rochester Institute of Technology, Session Chair
32-32 Keynote 32
Toshio Miyauchi, Tokyo Institute of Technology, Session Chair
32-33 Keynote 33
Denis Maillet, CNRS & Nancy-Université, Session Chair
32-34 Keynote 34
Michael Jensen, Rensselaer Polytechnic Institute, Session Chair
32-35 Keynote 35
Maurizio Cumo, University of Rome “La Sapienza”, Session Chair
32-36 Keynote 36
Nobuhide Kasagi, The University of Tokyo, Session Chair
32-37 Keynote 37
Wen-Quan Tao, Xi’an Jiaotong University, Session Chair
32-39 Keynote 39
H. R. B., Orlande, Federal University of Rio de Janeiro, Session Chair
32-40 Keynote 40
Jean Taine, Ecole Centrale Paris, Session Chair
109
Notes
110
Exhibitor Listings
Elsevier
Elsevier is a world-leading publisher of scientific, technical and healthcare information products
and services. Elsevier publishes more than 2,000 journals and 1,900 new books per year, in
addition to offering a suite of innovative electronic products, such as ScienceDirect, Scopus,
bibliographic databases, online reference works and subject specific portals. Elsevier publishes
the key journals : International Communications in Heat and Mass Transfer International
Journal of Heat and Mass Transfer.
Website: www.elsevier.com/engineering
Begell House
BEGELL DIGITAL LIBRARY, (BDL), is a comprehensive, full-text database providing the latest
research data and information across a broad spectrum of engineering and biomedical
sciences and applied works. BDL contains professional peer-reviewed journals, major
engineering references,International Centre for Heat & Mass Transfer conference proceedings,
eBooks and more. All information has been gathered from the most reliable sources in a given
field and has been peer-reviewed and indexed.
Tel: +1 (203) 938-1300
Fax: +1 (203) 938-1304
Website: www.dl.begellhouse.com
Trebor International, a Unit of IDEX Corporation
As devices heat and cool, internal forces can cause metal films applied to ceramic substrate to
delaminate or crack. Trebor’s patented Thin Film on ceramic technology overcomes the
Coefficient of Thermal Expansion (CTE) mismatch in heating elements. By controlling the
metallic thickness to be an order of magnitude less than the local topography, a thousand
bending points per unit area are created to absorb internal forces. Changing the resistivity of
the metal allows us to produce heaters in all-world voltages. Visit Trebor to learn how we can
apply our low cost, uniform heat source to your project or product.
Address: 8100 South 1300 West, West Jordan, Utah 84088
Tel: +1 (801) 561-0303
Website: www.treborintl.com
Decagon Devices, Inc.
Decagon Devices Inc. manufactures instrumentation for the measurement of thermal
conductivity specific heat and thermal diffusivity of solids, liquids and pastes. Come by the
booth to speak with Nick about the KD2 Pro.
Tel: +1 (800) 755-2751
Website: www.decagon.com
111
Floor Plan
112