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Dr. Eng. Mohamed Sobhi Alagha
Lecturer
Room 523
Mechanical Engineering Dept.,
Faculty of Engineering, Kafrelsheikh University (
Map)
Kafrelsheikh - Egypt.
Phone: +20 1099 172 689
E-mail: mohamad_agha@eng.kfs.edu.eg
Website: http://www.kfs.edu.eg/Mohamed_Al-Agha.html
Qualifications:
PhD (Mechanical Engineering) - Faculty of Mechanical Engineering, Budapest University of Technology and Economics, Budapest, Hungary - December 2020.
MSc (Mechanical Power Engineering) - Faculty of Engineering, Minofiya University, Shebin Elkom, Egypt - July 2014.
BSc (Mechanical Power Engineering) - Faculty of Engineering, Kafrelsheikh University, Kafrelsheikh, Egypt - June 2010.
Research interests:
Applications of Fluid Mechanics; Fluidized Beds; Computational Fluid Dynamics (CFD); Two-Phase Flow; Gas-Solid Flow; Turbulence Models; Heat Transfer.
Teaching Experience:
Since 2012, I have been participating in teaching the following courses as a Teaching Assistant, then as a Lecturer at Faculty of Engineering, Kafrelsheikh University:
- Fluid Mechanics
- Engineering Drawing
- Measurements
- Thermal Power Stations
- Energy Plants
- Computer Applications in Mechanical Power Engineering
Publications:
- W.A. El-Askary, K.A. Ibrahim, S.M. El-Behery, Mofreh H. Hamed and M.S. Al-Agha, 2015, "Performance of Vertical Diffusers Carrying Gas-Solid Flow: Experimental and Numerical Studies", Powder Technology, Volume 273, Pages 19-32.
- K.A. Ibrahim, M.H. Hamed, W.A. El-Askary, S.M. El-Behery and M.S. Al-Agha, 2013, "Gas-Solid Two-Phase Flow through Vertical Diffuser", 11th Int. Conf. of Fluid Dynamics, Helnan Palestine Hotel, Alexandria, Egypt, Dec. 19-21.
- M. S. Alagha, and P. Szentannai. Comparative Study of Homogeneous and Sub-grid Drag Models in Simulation of Fluidized Beds Containing Geldart A & B Particles. in Innovative Fluidized Bed Conversion Technology for a Sustainable Development, B1-4:9 p, Seoul, Korea, 2018.
- M. S. Alagha, and P. Szentannai. CFD Simulations of Segregation in Binary Fluidized Beds Composed of Geldart B Particles. in Innovative Fluidized Bed Conversion Technology for a Sustainable Development,B8-1:10 p, Seoul, Korea, 2018.
- M. S. Alagha, and P. Szentannai. Study of Heat Transfer Mechanism in Granular Thermal Energy Storage. in Innovative Fluidized Bed Conversion Technology for a Sustainable Development, B5-2:10 p, Seoul, Korea, 2018.
- M. S. Alagha, and P. Szentannai. One dimensional numerical model for prediction of jetsam concentration in segregating fluidized beds. Therm. Sci., 23(2b):1173-1187, 2019.
- M. S. Alagha, and P. Szentannai. An Efficient Model for Predicting the Segregation Profile of Binary Fluidized Beds. Period. Polytech. Chem. Eng., 63(1):147-159, 2019.
- M. S. Alagha, and P. Szentannai. Approaches for Modeling Fluidized Beds of Energy Industrial Relevance: An Analytical Review. HEEP conference, M ?atraf ?ured, Hungary, 2019.
- M. S. Alagha, B. Szucs and P. Szentannai. Mixing of Solid Refused Fuel Particles in a Bubbling Fluidized Bed: Experimental and Numerical Studies. 2nd Journal of Thermal Analysis and Calorimetry Conference, Budapest, Hungary, 2019.
- M. S. Kamel, M. S. Al-agha, F. Lezsovits, O. Mahian. Simulation of pool boiling of nanofluids by using Eulerian multiphase model. Journal of Thermal Analysis and Calorimetry, 142: 493–505, 2020.
- M. S. Alagha , B. Szucs and P. Szentannai. Numerical study of mixing and heat transfer of SRF particles in a bubbling fluidized bed. Journal of Thermal Analysis and Calorimetry, 142:1087-1096, 2020.
- M. S. Alagha, and P. Szentannai. Analytical Review of Fluid-Dynamic and Thermal Modeling Aspects of Fluidized Beds for Energy Conversion Devices. International Journal of Heat and Mass Transfer, 147:118907, 2020.
- B. Szucs, M. S. Alagha, and P. Szentannai. Experimental Study of Entrainment and Mixing of Renewable Active Particles in Fluidized Beds. Applied Science, 10(12), 4268, 2020.
- M. S. Alagha, and P. Szentannai. A conservative macroscopic model for binary-mixture fluidized beds. Period. Polytech. Chem. Eng., 00(0):000-000, 2021.