Apr 2022
Abstract:
Internal combustion engines (ICEs) are essential for the welfare of today’s human civilization yet they contribute to almost 10% of the global CO2 emissions. Reducing the carbon footprint of the ICEs can be achieved by either increasing the engine efficiency to reduce fuel consumption or the utilization of carbon-neutral fuels. This dissertation aims to investigate both approaches by studying the effect of the oxidizer composition on the efficiency and performance of the homogeneous charge compression ignition (HCCI) engine. Also, it aims to study the behavior of hydrogen in HCCI engines. The experiments are conducted using a cooperative fuel research (CFR) engine. The study also involves using chemical kinetics simulations to estimate the ignition delay time of hydrogen which is relevant to the HCCI mode of combustion. The results suggest that the specific heat ratio of the oxidizer does not significantly affect the HCCI engine efficiency. On the fuel side, hydrogen showed high sensitivity to engine running conditions due to the lack of negative temperature coefficient (NTC).
Bio:
Abdulrahman Magdy is a Ph.D. candidate in professor Mani Sarathy group, in the Mechanical Engineering (ME) program in PSE division. He obtained his bachelor degree from King Fahd University of Petroleum and Minerals in 2017. He then joined KAUST as a master student where he got his degree in 2018. His research focuses on novel combustion engine concepts and the utilization of next generation fuels such as hydrogen and ammonia.