Experimental and Numerical Investigation of Hydrogen Injection and its Preliminary Impact on High Performance Engines Development

Paltrinieri, Stefano; Olcuire, Mattia; Calia, Vito; Berni, Fabio; Medda, Massimo; Gullino, Fabrizio; Stapf, Karl Georg; Geiler, Jan; Jochmann, Paul; Boee, Matthias; Lippisch, Michael; Wundling, Claus

doi:10.4271/2023-01-0402

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Cited by 7 publications

References 29 publications

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Experimental Toolchain for Evaluation of Mixture Formation and Combustion in Hydrogen Engines for Light Duty Applications

Lejsek,

Seboldt,

Leick

et al. 2024

Proceedings

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Experimental Toolchain for Evaluation of Mixture Formation and Combustion in Hydrogen Engines for Light Duty Applications

Lejsek,

Seboldt,

Leick

et al. 2024

Proceedings

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Experimental investigation into the shift of GDI sprays towards nearby walls via the Coandă effect using detailed shadow imaging, particle and structure image velocimetry

Leick

Bartole

2023

Exp Fluids

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Effect of Start of Injection in a Hydrogen-Fueled DISI Engine: Experimental and Numerical Investigation

Mortellaro,

Silvestri,

Zaffino

et al. 2023

SAE Technical Paper Series

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<div class="section abstract"><div class="htmlview paragraph">Nowadays, hydrogen is one the most interesting candidates for fuel for internal combustion engines as an alternative to fossil fuels, in order to reduce GHG emissions.</div><div class="htmlview paragraph">In this paper, the authors have, firstly carried out an experimental investigation on a single-cylinder engine fueled with hydrogen and equipped with a high-pressure direct injector. The experimental campaign shows that the Start of Injection (SOI) has a remarkable effect on the mixture combustion characteristics.</div><div class="htmlview paragraph">Secondly, the software CONVERGE was used to set up a comprehensive 3D CFD model to investigate these engine operating conditions, starting from an injector validation in a constant volume vessel and then simulating the engine cycle including injection, combustion and knock modeling. The combustion model makes use of detailed chemistry to predict the laminar flame speed and auto-ignition delay of the mixture.</div><div class="htmlview paragraph">The simulations show a remarkable difference in terms of mixture homogeneity between the three cases. Moreover, the predicted pressure inside the cylinder during the combustion phase is in agreement with experimental pressure traces.</div></div>

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Experimental and Numerical Investigation of Hydrogen Injection and its Preliminary Impact on High Performance Engines Development

Cited by 7 publications

References 29 publications

Experimental Toolchain for Evaluation of Mixture Formation and Combustion in Hydrogen Engines for Light Duty Applications

Experimental Toolchain for Evaluation of Mixture Formation and Combustion in Hydrogen Engines for Light Duty Applications

Experimental investigation into the shift of GDI sprays towards nearby walls via the Coandă effect using detailed shadow imaging, particle and structure image velocimetry

Effect of Start of Injection in a Hydrogen-Fueled DISI Engine: Experimental and Numerical Investigation

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