Contact Dr Mohamed Morsy
Areas of expertise
- Conventional & Advanced Fuels
- Gas Turbines & Propulsion
Background
Dr Morsy is a Research Fellow in Hydrogen Combustion System Design and Testing at Cranfield University. He leads pioneering research initiatives focused on advancing the application and understanding of hydrogen combustion technologies. His work includes the design of hydrogen fuel supply systems for gas turbines and the development of DLE/DLN combustors running on 100% hydrogen, with an emphasis on efficiency, emissions reduction, and system performance across various operating conditions.
Dr Morsy began his professional journey as a Design Engineer at EWA-Company in August 2010, where he was responsible for providing technical advice and guidance, contributing to the process design of pressure vessels, steel structures, and pipelines. Over the years, he has developed extensive experience in experimental techniques, including Optical Engines, Combustion Vessels, and Burners, as well as optical diagnostics such as PIV, PLIF, and Schlieren photography.
In his current role, Dr Morsy is actively involved in the design, testing, and validation of hydrogen combustion systems for aerospace and power generation applications. He works on developing combustion technologies that support the transition to sustainable hydrogen-powered engines. His responsibilities also include leading experimental investigations to evaluate combustion performance, stability, and emissions, as well as contributing to the development of models and simulations for these systems.
Publications
Articles In Journals
- Zhang G, Xu H, Wu D, Yang J, Morsy ME, .... (2025). Relationship investigation between quantitative cellular information and self-acceleration of lean hydrogen-air spherical premixed flame. Energy, 325
- Li J, Xie Y, Elsayed Morsy M & Yang J. (2024). Laminar burning Velocities, Markstein numbers and cellular instability of spherically propagation Ethane/Hydrogen/Air premixed flames at elevated pressures. Fuel, 364
- Zhang G, Xu H, Wu D, Yang J, Morsy ME, .... (2024). Deep learning-driven analysis for cellular structure characteristics of spherical premixed hydrogen-air flames. International Journal of Hydrogen Energy, 68
- Zhang G, Xu H, Wu D, Yang J, Morsy ME, .... (2024). Quantitative three-dimensional reconstruction of cellular flame area for spherical hydrogen-air flames. Fuel, 375
- Xie Y, Lu A, Li J, Yang J, Zhang C, .... (2023). Laminar burning characteristics of coal-based naphtha. Combustion and Flame, 249(March)
- Xie Y, Elsayed Morsy M & Yang J. (2023). Self-Acceleration and global pulsation of unstable laminar Hydrogen-Air flames. Fuel, 353(December)
- AL-Khafaji M, Yang J, Tomlin AS, Thompson HM, de Boer G, .... (2023). Laminar burning velocities and Markstein numbers for pure hydrogen and methane/hydrogen/air mixtures at elevated pressures. Fuel, 354(December)
- Xie Y, Elsayed Morsy M, Li J & Yang J. (2022). Intrinsic cellular instabilities of hydrogen laminar outwardly propagating spherical flames. Fuel, 327(November)
- Morsy ME & Yang J. (2022). The instability of laminar methane/hydrogen/air flames: Correlation between small and large-scale explosions. International Journal of Hydrogen Energy, 47(69)
- Zhang W, Morsy ME, Ling Z & Yang J. (2022). Characterization of flame front wrinkling in a highly pressure-charged spark ignition engine. Experimental Thermal and Fluid Science, 132(April)
- Morsy ME & Yang J. (2021). Numerical and experimental study on turbulence statistics in a large fan-stirred combustion vessel. Experiments in Fluids, 62(5)
- Bradley D, Lawes M & Morsy ME. (2021). Combustion-induced turbulent flow fields in premixed flames. Fuel, 290
- Bradley D, Lawes M & Morsy ME. (2019). Flame speed and particle image velocimetry measurements of laminar burning velocities and Markstein numbers of some hydrocarbons. Fuel, 243
- Bradley D, Lawes M & Morsy ME. (2019). Measurement of turbulence characteristics in a large scale fan-stirred spherical vessel. Journal of Turbulence, 20(3)
- Radwan M, Abu-Elyazeed O, Attai Y & Morsy M. (2014). IGNITION DELAY OF JOJOBA BIO-DIESEL AND ITS BLENDS WITH GAS OIL. The International Conference on Applied Mechanics and Mechanical Engineering, 16(16)