Abstract
Hydrogen as carbon-free fuel is a very promising candidate for climate-neutral internal combustion engine operation. In comparison to other renewable fuels, hydrogen does obviously not produce CO2 emissions. In this work, two concepts of hydrogen internal combustion engines (H2-ICEs) are investigated experimentally. One approach is the modification of a state-of-the-art gasoline passenger car engine using hydrogen direct injection. It targets gasoline-like specific power output by mixture enrichment down to stoichiometric operation. Another approach is to use a heavy-duty diesel engine equipped with spark ignition and hydrogen port fuel injection. Here, a diesel-like indicated efficiency is targeted through constant lean-burn operation. The measurement results show that both approaches are applicable. For the gasoline engine-based concept, stoichiometric operation requires a three-way catalyst or a three-way NOX storage catalyst as the primary exhaust gas aftertreatment system. For the diesel engine-based concept, state-of-the-art selective catalytic reduction (SCR) catalysts can be used to reduce the NOx emissions, provided the engine calibration ensures sufficient exhaust gas temperature levels. In conclusion, while H2-ICEs present new challenges for the development of the exhaust gas aftertreatment systems, they are capable to realize zero-impact tailpipe emission operation.
Highlights
Sustainability is the key driver for the transformation of powertrains for mobile and stationary solutions
For the gasoline engine-based hydrogen combustion engine with lower compression ratio aiming at high specific power, the following conclusions are drawn: 1. Lean operation is limited by the boosting system
Highest specific power is reached with stoichiometric combustion, which is accompanied by relatively high nitrogen oxide (NOX) emissions
Summary
Sustainability is the key driver for the transformation of powertrains for mobile and stationary solutions It requires the reduction of both greenhouse gas emissions and pollutant emissions. In this regard, facing the mobility sector, internal combustion engines (ICE) need to compete with battery electric vehicles (BEVs) and fuel cell electric vehicles (FCEVs). The idea of zero-impact combustion engines are negligible tailpipe emissions, e.g., a pollutant contribution of traffic below a clean rural background. Addressing this challenge will bring down the propulsion system discussion from a political level to an efficiency-based, use-case specific evaluation
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