1st Progress Meeting
Professor Robin Smith,
Dr Igor Bulatov
Process Integration Limited
Veszprem 8 July 2011
Project Overview
8:00 am to 8:30 am: Arrival -Tea/Coffee
1. Opening (8:30)
2. Welcome/Introduction by Professor Ferenc Friedler, the Rector of
University of Pannonia (8:30 - 8:35)
3. Project Overview (progress, technical and financial issues)
 PIL (8:35 - 9:00)
4. SME Partners presentations
 CALGAVIN (9:00 - 9:15)
 SODRU (9:15 - 9:30)
 MAKATEC (9:30 - 9:45)
 OIKOS (9:45 - 10:00)
5. OTHER Partner presentation:
 EMBAFFLE B.V. (10:00 - 10:15)
6. RTD Partners presentations:
 The University of Manchester (10:15 - 10:45)
 Bath University (10:45 - 11:15)
 Paderborn University (11:15 - 11:45)
 University of Pannonia (11:45 - 12:15)
7. Buffet lunch and informal discussion (12:15 - 13:15)
8. Any other business (13:15 - 13:45)
9. Conclusions/Actions for the next phase of project (13:45 - 14:00)
10. Date/venue for next progress meeting (14:00)
Work Package Structure
Management
WP 7
Management
RTD
WP 1
Analysis of intensified heat
transfer under fouling
WP 2
WP 3
Combined tube-side and
shell-side heat exchanger
enhancement
Heat Exchangers made of
Plastic Materials
WP 4
Design, retrofit and control
of intensified heat recovery
networks
Exploitation
Demonstration
WP 6
WP 5
Technology transfer
Putting into practice
Project Overview and Deliverables
Report on technical review of fouling and its
impact on heat transfer
Project Overview and Deliverables
Project Overview
Project Overview and Deliverables
Project Overview and Deliverables
Project Overview and Deliverables
Number
Title
D1.1
Report on technical review
of fouling and its
impact on heat transfer
1
1
5
R
PU
Month 3
Report on experimental
fouling
investigation
and CFD research on
heat
transfer
enhancement
1
6
28
R
CO
Month 12
Report on state-of-art of
heat transfer
enhancement
technologies and their
benefits
2
2
2.5
R
PU
Month 6
2
2
10
R
CO
Month9
2
2
12
P
CO
Month18
D1.2
D2.1
D2.2.
D2.3
Report on tube side and
shell side
enhancement research
Mathematical models and
the software
implementation of
tube- and shell side
heat transfer
enhancement
WP
Partner
PM
Nature
Dissemin
ation
Date
Project Overview and Deliverables
D2.2. Report on tube side and shell side
enhancement research
Details of research and technical development on
the tube-side heat transfer enhancement which is
combined with the internal fin structures on
integrally-finned tubes. The systems will be
investigated to enhance both single and two-phase
flow applications, high and low viscosity fluids, with a
wide range of flow regimes. Also externally-finned
tubes with and without tube inserts will be evaluated.
Details of research and technical development on
the shell-side heat transfer enhancement using
expanded metal baffles, and associated impacts and
benefits.
Project Overview and Deliverables
Number
D3.1
D3.2
D4.1
D4.2
D4.3
Title
WP
Partner
PM
Nature
Dissemina
tion
Date
Report on of basic
configuration for plastic heat
exchanger units
3
5
8
R
PU
Month 4
Report on CFD modelling
frameworks and validation,
optimisation studies of the
geometry and operating
conditions for plastic heat
exchanger units
3
5
23
R
CO
Month 18
Report on design
methodology for new heat
exchanger networks using Pgraph and the ABB
(Accelerated Branch-andBound) optimisation algorithm
4
6
9
R
CO
Month 9
Report on retrofit procedure
for heat exchanger networks
prone to fouling deposition
4
6
12
R
CO
Month 14
Software tool for screening
and analysis design and
retrofit HEN options taking
into account the intensified
heat exchanger parameters
and software User Guide
4
6
20.5
P
CO
Month 24
Project Overview and Deliverables
D4.1 - Report on design methodology for new heat
exchanger networks using P-graph and the ABB
(Accelerated
Branch-and-Bound)
optimisation
algorithm (Month 10)
Description of an automated design procedure which is
able to integrate the networks of heat exchangers and
identify the optimal network design as well as operating
conditions. Optimisation frameworks includes modelling of
heat exchanger networks and optimisation search algorithm
based on P-graph and ABB method
Project Overview and Deliverables
Number
Title
D5.1
Application of spiral plastic
heat exchanger for cooling of
acids
5
1
16
D
PU
Month 24
Report on case studies with
achieved benefits
(Oil/petrochemical sector)
5
1
11
R
PU
Month 24
Report on case studies with
achieved benefits (Food
sector)
5
1
10
R
PU
Month 24
D5.2
D5.3
WP
Partner
PM
Nature
Disseminati
on
Date
Project Overview and Deliverables
Number
D6.1
Title
WP
Partner
PM
Training Workshop
6
Disseminati
on
PU
Date
Month 23
D6.2
Report on the performed
marketing activities and
commercialisation outcomes
6
9
2
R
PU
Month 24
6
9
4
O
PU
Month 8,
12, 18, 22
2
Nature
O
D6.3
Four dissemination events
D6.4
At least 4 conference
publications and 2 journal
publications
6
9
5
O
PU
Month 24
Training materials for the
methods and tools
developed
6
9
6
O
PU
Month 24
Project website with
management activities and
public section
7
1
6
O
PU/RE
Month 3-24
D6.5
D7.1
Deliverables reports should be
submitted on time!
Publications
• Arsenyeva O, Tovazhnyansky L, Kapustenko P, Khavin G, Optimal
design of plate-and-fram heat exchangers for efficient heat recovery
in process industries, Energy (IF: 3.565), 2011,
doi:10.1016/j.energy.2011.03.022.
• Yang M, Crittenden B, Fouling thresholds in bare tubes and tubes
fitted with inserts, Applied Energy (IF: 3.888), 2011, doi:
10.1016/j.apenergy.2001.01.038.
• Yang M, Young A, Nietkalieyev A, Crittenden B, Modelling of fouling
induction period, manuscript submitted to Journal of Thermal Sciences, 2011
• Yang M, O’Meara A, Crittenden B, Determination of crude oil fouling
thresholds, proceedings of The International Conference on Heat
Exchanger Fouling and Cleaning 2011, Crete, Greece, June 5-10 2011
• Yang M, Crittenden B, Effect of inserts on crude oil fouling conditions,
proceedings of The International Conference on Heat Exchanger Fouling
and Cleaning 2011, Crete, Greece, June 5-10 2011
Publications
• Varbanov P, Klemes J, Friedler F, Cell-based dynamic heat exchanger
models – Direct determination of the cell number and size,
Computers&Chemical Engineering (IF: 2.072), in press,
doi:10.1016/j.compchemeng.2011.01.033
• Nemet A, Varbanov P, Klemes J, Waste-to-energy technologies
performance evaluation techniques, Chemical Engineering
Transactions, v.25, 2011, doi: 10.3303/CET1125086
• Wang Y, Pan M, Bulatov I, Smith R, Kim JK , Application of
intensified heat transfer for the retrofit of heat exchanger network,
Apply Energy (IF: 3.888), (2011) In press, doi:
10.1016/j.apenergy.2001.03.019
• Pan M, Bulatov I, Smith R, Kim JK, Improving energy recovery in
heat exchanger network with intensified tube-side heat transfer,
Chemical Engineering Transactions, 25 (2011) 375-380, doi:
10.3303/CET1125063
Publications
• Pan M, Bulatov I, Smith R, Kim JK, Novel optimization method for
retrofitting heat exchanger networks with intensified heat transfer,
Computer Aided Chemical Engineering, 29 (2011) 1864-1868,
• Pan M, Smith R, Kim JK, Bulatov I, Mathematical optimization for
large scale heat exchanger network retrofit with intensified heat
transfer, proceedings of SusTEM2011 conference, (2011)
Any publications missing?
All Partners should send copies of
their INTHEAT acknowledged
publications to the Coordinator!
Subcontracting Agreements
PIL
Cal Gavin
UNIMAN
MAKATEC
UNIBATH
SODRU
UPB
OIKOS
UNIPAN
Finance
Total prefinancing received = EUR 635,250
Finance
To
UNIMAN
Participant
To
UNIBATH
To
UNIPAN
To UPB
Total to
RTD
Balance for
SME
Transferred
from PIL so
far
117700
0
0
0
117700
17380
[135080]
54747.55
77802.45
0
0
132550
7700
140250
Sodrugestvo-T
0
54747.55
0
65152.45
119900
7700
7700
MAKATEC
0
0
113850
0
113850
7700
121550
277.2
26442.9
45299.1
21480.8
93500
3850
97350
577500
44330
PIL
CALGAVIN
OIKOS
UNIMAN
172724.75
UNIBATH
158992.9
UPB
159149.1
UNIPAN
86633.25
3740
3740
2420
2420
(+54747.55)
2420
2420
4840
4840
(+65152.45)
EMBAFFLE
TOTAL RTD
577500
13420
Total prefinancing = 44330 + 577500 + 13420 = EUR 635250
Contract specific terms
Review
number
1
2
Tentative timing
Mid-term review meeting to
be done after Month 11
Final review meeting within
Month 26
Planned
venue of
review
Comments, if any
Brussels
RP1 (Month 9) + 75 days
Go/No-go decisions will be based on the
performance of the developed materials by
Month 9
 Overall project review
 Monitoring WP progress and collaboration
 Risk analysis/contingency measures
 Corrective actions if needed
WPs involved: WP1, WP2, WP3, WP6, WP7
Manchester
Fine tuning of draft final reports (submitted in
advance - 10 days berore) will be discussed
 Overall project review
 WP outcome (research, dissemination)
review
 Exploitation
WPs involved: WP4, WP5, WP6, WP7
Future Meetings Planning
• Mid-term review meeting to be done after
Month 11 (November/December 2011) –
Brussels. Please be available!!!
• June 2012 – your suggestions?
• November 2012 – your suggestions?
Thank you