COMPUTATIONAL STUDY OF HYDROGEN BASED SCR TECHNOLOGY AS AN ALTERNATIVE TO UREA SCR IN HYDROGEN-FUELLED ENGINES

Air pollution from vehicle exhaust emissions is a growing issue in major cities around the world. Hydrogen is a clean and carbon-free fuel that presents a promising alternative to the fossil fuels. However, despite its environmental advantages, hydrogen internal combustion engines still produce some nitrogen oxides as a by-product due to high combustion temperatures. This study investigates the effectiveness of current exhaust after-treatment technologies designed to reduce NOx emissions in hydrogen-powered engines. A comparative analysis is conducted between the conventional urea-based selective catalytic reduction used in diesel engines and emerging hydrogen-based selective catalytic reduction technologies for hydrogen engines. The analysis is performed using CFD simulation in ANSYS Fluent, focusing on NOx reduction efficiency and other operational parameters. The results provide valuable insights into the feasibility and effectiveness of hydrogen SCR in achieving reduced NOx emissions, and this technology also eliminates the current urea storage and dosing arrangement, as vehicle-on-board available hydrogen can be used for NOx reduction in hydrogen-based SCR technology.