Professor
Mechanical Engineering (ME), College of Engineering
Engineering Bldg, 428 S Shaw Ln Room 2442
Development of Supercritical CO2 Power Generation; Experimental Thermo-fluids; Turbomachinery Flow Analysis and Design; Design and Testing of Centrifugal and Regenerative Flow Compressors, Radial Turbines and Pumps; Gas Turbine Aerodynamics; Design and Testing of Very Low Head Turbines
Research Area:
Supercritical CO2 Power Generation, Design and Testing of Centrifugal and Regenerative Compressors,
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Radial Turbines and Pumps, Very Low Head Turbines
Ph.D., Mechanical Engineering, University of Hannover, Germany 1987
M.Sc., Mechanical Engineering, University of Manchester (UMIST), England 1974
B.Sc., Mechanical Engineering, University of Brighton, England 1973
Fellow, American Society of Mechanical Engineers
ASME Fluid Machinery Award & Medal
Fulbright Senior Global Award
Twice Best Journal Paper Award
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Jinbo Chen and Abraham Engeda, "Standard module hydraulic technology: A novel geometrical design methodology and analysis for a low-head hydraulic turbine system, part II: Turbine stator-blade and runner-blade geometry, and off-design considerations", Journal of Energy, Volume 214, 2021, 118982, ISSN 0360-5442
Alshahrani, S., and Engeda, A. (September 4, 2020). "Performance Analysis of a Solar–Biogas Hybrid Micro Gas Turbine for Power Generation." ASME Journal Sol. Energy Eng. April 2021; 143(2): 021007
Engeda, A., Hegazy, A., and Yousef, K. (May 19, 2020). "A New Vacuum System for Steam Plant Condenser." ASME. Journal Thermal Sci. Eng. Appl. August 2020; 12(4): 041027
Jinbo Chen, Abraham Engeda,” Standard module hydraulic technology: A novel geometrical design methodology and analysis for a low-head hydraulic turbine system, Part I: General design methodology and basic geometry considerations”, Journal of Energy, Volume 196, 2020,117151, ISSN 0360-5442
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