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Design Trends and Challenges in Hydrogen Direct Injection (H2DI) Internal Combustion Engines - A Review

Abstract

The hydrogen internal combustion engine (H2-ICE) is proposed as a robust and viable solution to decarbonise the heavy-duty on- and off-road, as well as the light-duty automotive, sectors of the transportation markets and is therefore the subject of rapidly growing research interest. With the potential for engine performance improvement by controlling the internal mixture formation and avoiding combustion anomalies, hydrogen direct injection (H2DI) is a promising combustion mode. Furthermore, the H2-ICE poses an attractive proposition for original equipment manufacturers (OEMs) and their suppliers since the fundamental base engine design, components, and manufacturing processes are largely unchanged. Nevertheless, to deliver the highest thermal efficiency and zero-harm levels of tailpipe emissions, moderate adaptations are needed to the engine control, air path, fuel injection, and ignition systems. Therefore, in this article, critical design features, fuel-air mixing, combustion regimes, and exhaust after-treatment systems (EATS) for H2DI engines are carefully assessed.

Funding source: This research was funded in whole or in part by an Engineering and Physical Sciences Research Council Prosperity Partnership, grant number EP/T005327/1.
Related subjects: Applications & Pathways
Countries: United Kingdom
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/content/journal6118
2024-09-04
2024-12-22
/content/journal6118
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