Energies, Vol. 18, Pages 5972: Optical Analysis of a Hydrogen Direct-Injection-Spark-Ignition-Engine Using Lateral or Central Injection

on 13.11.2025

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Energies, Vol. 18, Pages 5972: Optical Analysis of a Hydrogen Direct-Injection-Spark-Ignition-Engine Using Lateral or Central Injection

Energies doi: 10.3390/en18225972

Authors:
Hermann Sebastian Rottengruber
Dmitrij Wintergoller
Maikel Ebert
Aristidis Dafis

This paper investigates the abnormal combustion behavior&mdash;specifically knock and pre-ignition&mdash;of a hydrogen direct-injection (H2-DI) engine operated under stoichiometric conditions. Two different cylinder head configurations with central and lateral injector placement are analyzed using thermodynamic measurements, CFD simulations, and the optical diagnostic system VISIOLution&reg;. The results show that combustion stability and knock tendency are significantly influenced by injector positioning, injection pressure, and ignition timing. Controlled mixture formation and high turbulence during the compression phase are key to achieving both high power density and thermal efficiency in hydrogen-fueled engines.

Energies, Vol. 18, Pages 5972: Optical Analysis of a Hydrogen Direct-Injection-Spark-Ignition-Engine Using Lateral or Central Injection

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