Format for CV
Personal Information
Name
: Emad Ahmed Mahmoud Abdelgani
Permanent address
: Egypt-Minia-Minia University - Faculty of Engineering
Tel
Current address
(002) 0862319844
Nationality
: Royal Commission for Jubail and Yanbu, Yanbu
Industrial College (Yanbu Al-Sinaiyah), Kingdom of
Saudi Arabia. P.O. Box: 30346
Postal Code: 21477
Tel.: 04-3946111 Office: 04-3946325 Fax: 04-3920213
: Egyptian
e-mail:
: dr.eabdelghani@yahoo.com or mahmoude@rcyci.edu.sa
Date of Birth
: 15-12-1970
Phone Number
: Egypt (002) 869202273 or (KSA) (00966) 0596267823
Academic Qualification
Degree
B. Sc.
M.Sc.
Ph.D.
Year of Passing
1994
1998
2004
University/College/Institute
Minia University/Egypt
Minia University/Egypt
Gunma University/Japan
Professional Experience
Job Title
Instructor
Teaching assistant
Lecturer
Assistant Professor
From
1994
1998
2001
2008
To
1998
2001
2008
Now
Institute/ University
Minia University/Egypt
Minia University/Egypt
Minia University/Egypt
Yanbu Industrial College/KSA
Activities in the field of Quality Assurance and Accreditation:
 Membership of the following organization;
1. Egyptian council of chemical engineers
2. Saudi chapter of the AICHE
3. Japanese society of chemical engineers

Reviewer in the following international Journals
1.
2.
3.
4.
Powder technology, Elsevier
Journal of chemical engineering and technology, Elsevier
Canadian journal of chemical engineers, John Wiley
International journal of energy research, John Wiley

International training period in the following fields
1. Training of trainer, TOT (United Nations)
2. International computer driving license, ICDL (TOEFL 553 score)

1.
2.
3.
4.
5.
National training periods in the following fields as a trainer;
Time management
Thinking skills
Feasibility studies
Problem solving
Negotiation skills

1.
2.
3.
4.
Training periods as trainee in the KSA
Modern Teaching methods
Modern methods for development and assessment
Class room management
Active teaching
List of Publications:
Paper published in journal, international conferences and domestic meeting:
1. Emad Ahmed Mahmoud, Tsutomu Nakazato, Kazuyoshi Kohama and Kunio Kato; “Total
Solid Entrainment Rate in a Circulating Powder-Particle Fluidized Bed,” J. Chem. Eng.
Japan, 36(11), 1405-1409 (2003).
2. Emad Ahmed Mahmoud, Tsutomu Nakazato, Shinya Nakajima, Nobuyoshi Nakagawa and
Kunio Kato; “Separation Rate of Fine Powders from a Circulating Powder-Particle Fluidized
Bed (CPPFB),” Powder Technol., 146(1/2), 46-55 (2004).
3. Emad Ahmed Mahmoud, Tsutomu Nakazato, Noboyoshi Nakagawa and Kunio Kato;
“Evaluation of the Turnover Time of the Bed Particles and of the Fine Powders in a
Circulating Powder-Particle Fluidized Bed (CPPFB),” Powder Technol., 153, 81-89 (2005).
4. Emad Ahmed Mahmoud, Tsutomu Nakazato, Nobuyoshi Nakagawa and Kunio Kato; “Solid
circulation rate in a Circulating Fluidized Bed in Presence of Fine Powders,” Chem. Eng.
Sci., 61, 766-774 (2006).
5. Tsutomu Nakazato, Emad Ahmed Mahmoud, Nobuyoshi Nakagawa and Kunio Kato;
“Hydrodynamic Performance of a Circulating Powder-Particle Fluidized Bed,” Proceedings
of the 11th International Conference on Fluidization (U. Arena, R. Chirone, M. Miccio and P.
Salatino Eds.), pp.347-354, Ischia (Naples), Italy (11 May, 2004, refereed).
6. Emad Ahmed Mahmoud, Tsutomu Nakazato, Nobuyoshi Nakagawa and Kunio Kato;
“Turnover Time of a Binary Powder-Particle Mixuture in a Circulating Fluidized Bed,” The
8th International Conference on Circulating Fluidized Bed, Hangzhou, P. R. China (10-15
May, 2004, refereed).
7. Mahmoud, E. A., T. Nakazato, N. Nakagawa and K. Kato; “Effect of Addition of Fine
Particles on the Performance of a Circulating Powder-Particle Fluidized Bed.” Proceedings
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
of the 8th China-Japan Symposium on Fluidization (the 9th SCEJ Symposium on
Fluidization), pp.93-100, Gifu-City, Japan (4 December, 2003).
Kato, K., E. A. Mahmoud, T. Nakazato, S. Nakajima and N. Nakagawa; “Entrainment of
Particles and Separation Rate of Fine Powder from a Circulating Powder Particle Fluidized
Bed,” The 2nd Asian Particle Technology Symposium 2003, Vol.2, pp.291-297, Penang,
Malaysia (17 December, 2003).
Mahmoud, E. A., T. Nakazato, N. Nakagawa and K. Kato; “Changes in Residence Time of
Fine Powders and Total Solid Entrainment Rate under Humidified Conditions in a
Circulating Powder-Particle Fluidized Bed,” The 10th Asian Pacific Confederation of
Chemical Engineering, 3P-09-027, Kitakyushu, Japan (20 October, 2004).
Nakazato, T., Y. Suzuki, E. A. Mahmoud and N. Nakagawa; “Effect of Size and Hold-Up of
Cohesive Fine Powders on Particulate Fluidization of Binary Powder Mixtures,” The 10th
Asian Pacific Confederation of Chemical Engineering, 3A-06, Kitakyushu, Japan (20
October, 2004).
E. A. Mahmoud, Tsutomu Nakazato, Kazuyoshi Kohama and Kunio Kato; “Entrainment of
Particles Using a Circulating Powder Particle Fluidized Bed (CPPFB) of the A-C Mixture,”
Proceedings of the 67th Annual Meeting of the Society of Chemical Engineers, Japan,
M207, Fukuoka (28 March, 2002).
E. A. Mahmoud, Tsutomu Nakazato, Kazuyoshi Kohama and Kunio Kato; “Separation of
fine particles from a circulating powder particle fluidized bed,” Proceedings of the 35th
Autumn Meeting of the Society of Chemical Engineers, Japan, V108, Kobe (18 September,
2002).
Emad Ahmed Mahmoud, Tsutomu Nakazato, Kazuyoshi Kohama, Nobuyoshi Nakagawa
and Kunio Kato; “Hydrodynamic Performance of a Circulating Powder-Particle Fluidized
Bed (CPPFB),” Proceedings of the 8th SCEJ Symposium on Fluidization, pp.350-357,
Kitakyushu (6 December, 2002).
Tsutomu Nakazato, E. A. Mahmoud, Nobuyoshi Nakagawa and Kunio Kato; “Critical
Particle Size of Fine Particles in Total Solid Entrainment Rate in a Circulating PowderParticle Fluidized Bed,” Proceedings of the 36th Autumn Meeting of the Society of
Chemical Engineers, Japan, Q2A01, Sendai (13 September, 2003).
E. A. Mahmoud, Tsutomu Nakazato, Nobuyoshi Nakagawa and Kunio Kato; “Maximum
Separation Rate of Fine Particles from a Circulating Powder-Particle Fluidized Bed,”
Proceedings of the 36th Autumn Meeting of the Society of Chemical Engineers, Japan,
Q2A02 (13 September, 2003).
Mahmoud, E. A., T. Nakazato, N. Nakagawa and K. Kato; “Effect of Water Content of
Coarse Particles on the Separation Rate of Fine Powders from a Circulating Powder-Particle
Fluidized Bed,” Proceedings of the 69th Annual Meeting of the Society of Chemical
Engineers, Japan, B204, Osaka (3 April, 2004).
Emad Ahmed Mahmoud, Tsutomu Nakazato, Nobuyoshi Nakagawa and Kunio Kato;
“Turnover Time of Fine Powders in a Circulating Powder-Particle Fluidized Bed,”
18.
19.
20.
21.
Proceedings of the 10th SCEJ Symposium on Fluidization, pp.86-93, Tokyo (7 December,
2004).
Barakat N.M., Farrag T.E., Abdelmonem R. M., and Mahmoud E.A.; “Choosing Calibration
Curve in a Case of Splitting the Data Set,” Alexanderia Engineering J., 46, 5 (2007).
Ali Al-Shawabkeh, E. P. Jagadeesh, Emad AbdelGhany, and Krishna Prasad; “Heat
Insulator From Jordanian Oil Shale Ash Discharged From a Laboratory-Scale Fluidized Bed
Reactor, “ Proceeding of 8TH international conference and exhibition on chemistry in
industry, pp. 216-219, Kingdom of Bahrain (18-20 October, 2010) (refereed).
E. Abdelghani, E. El-Qada, Y. Magdy; ” Discharge rates of micro-size fine powders from a
semi-batch circulating fluidized bed of binary particles under different humidification
conditions” Powder Technol., 244, (2013) 1-8.
E. Abdelghany, T. Farrag, and N. Barakat, “Study on fluidization of 0.5 μm ultrafine and
8.0 μm superfine powders in a binary mixture circulating fluidized bed,” Submitted to
International journal of energy research., International Journal of Energy Research 38
(2014) 683-688.
22. El-Qada, E., Abdelghany, E. and Magdy, Y. Utilization of Activated Carbon for the
Removal of Basic Dyes in Fixed-Bed Micro Column. International Journal of Energy and
Environment. 4 (5), (2013), 815-824.
23. Nasser A.M. Barakat, Moaaed Motlak, Ahemd A. Elzatahry, Khalil A. Khalil, Abdelrazek
Khalil, Emad A.M. Abdelghani, NixCo1-x Alloy Nanoparticle-doped Carbon nanofibers as
Effective Non-PreciousCatalyst for Ethanol Oxidation. International Journal of Hydrogen
Energy, Volume 39, Issue 1, 2 January 2014, Pages 305–316.
24. Emad A.M.. Abdelghani, Nasser A.M. Barakat, Enas T. Sayed, “Effect of humidification
conditions and adding 3 m-size superfine powders on circulation rates of binary Geldart A–
C mixtures in a semi-batch circulating fluidized bed ” Powder Technology 256 (2014) 25–32.
25. Emad. A.M. Abdelghany, Mohammad A. Abdelkareem, Ibrahim H. Mahmoud, Ultrafine
versus superfine powders` behaviour in a binary-mixture semi-batch circulating
fluidized bed, Chemical Engineering & Technology 37 (2014) 723–729.
Research Interests:
Particle technology, specifically fluidization engineering of ultrafine and superfine powders, is
the current research field of interest. The circulating systems including submicron (superfine and
ultrafine) powders are fluidized in a new circulating fluidized bed with coarse particles as a
turbulent promoter in a circulating powder-particle fluidized bed, this system is very useful in the
field of petrochemicals and catalytic cracking systems. I am interested in tribo-electrification and
electrostatic generation in fluidized beds. Recently, oil-shale studies and solid grindability is
under research. Besides, modeling, simulation and optimization of gas-liquid reactors, especially
in the field of natural gas treating and sweetening processes where acid gases (carbon dioxide,
sulfur dioxide, and hydrogen sulfide) are removed by alkaline solutions (caustic soda, lime
solutions and alkanolamines).