Experimental and numerical investigation of a direct injection spark ignition hydrogen engine for heavy-duty applications

Experimental and numerical investigation of a direct injection spark ignition hydrogen engine for heavy-duty applications

The H2 internal combustion engine is gaining increasing interest especially for commercial vehicles. Regarding the optimization of the combustion process, results of experimental investigations on a H2 heavy-duty single-cylinder engine in combination with numerical 3D-CFD investigations are presente...

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Published in:International journal of hydrogen energy Vol. 47; no. 67; pp. 29069 - 29084
Main Authors: Maio, G., Boberic, A., Giarracca, L., Aubagnac-Karkar, D., Colin, O., Duffour, F., Deppenkemper, K., Virnich, L., Pischinger, S.
Format: Journal Article
Language:English
Published: Elsevier Ltd 05-08-2022
Elsevier
Subjects:
Engineering Sciences
Environmental Sciences
hydrogen
Mechanics
spark ignition engines
turbulent combustion modeling
turbulent combustion modeling
spark ignition engines
hydrogen
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Abstract The H2 internal combustion engine is gaining increasing interest especially for commercial vehicles. Regarding the optimization of the combustion process, results of experimental investigations on a H2 heavy-duty single-cylinder engine in combination with numerical 3D-CFD investigations are presented. In addition to a Direct Injection (DI) Spark Ignited (SI) configuration, Port Fuel Injection (PFI) is explored to provide a reference with near homogeneous cylinder charge. The main objective is to assess a 3D-CFD-RANS framework based on ECFM and state-of-the art sub-models to describe the most important phenomena occurring in H2 spark ignition engines and to support the experimental analysis. Experimental results show that the PFI configuration provides efficiency and emissions benefits at the expense of volumetric efficiency. The proposed CFD model demonstrates the ability to successfully simulate different engine operating conditions for both PFI and DI systems. In particular, it is shown that the charge stratification typical for DI systems is not beneficial for the studied configuration as it increases wall heat losses and NOx formation.
AbstractList The H2 internal combustion engine is gaining increasing interest especially for commercial vehicles. Regarding the optimization of the combustion process, results of experimental investigations on a H2 heavy-duty single-cylinder engine in combination with numerical 3D-CFD investigations are presented. In addition to a Direct Injection (DI) Spark Ignited (SI) configuration, Port Fuel Injection (PFI) is explored to provide a reference with near homogeneous cylinder charge. The main objective is to assess a 3D-CFD-RANS framework based on ECFM and state-of-the art sub-models to describe the most important phenomena occurring in H2 spark ignition engines and to support the experimental analysis. Experimental results show that the PFI configuration provides efficiency and emissions benefits at the expense of volumetric efficiency. The proposed CFD model demonstrates the ability to successfully simulate different engine operating conditions for both PFI and DI systems. In particular, it is shown that the charge stratification typical for DI systems is not beneficial for the studied configuration as it increases wall heat losses and NOx formation.
Author Aubagnac-Karkar, D.
Maio, G.
Colin, O.
Pischinger, S.
Duffour, F.
Giarracca, L.
Deppenkemper, K.
Boberic, A.
Virnich, L.
Author_xml – sequence: 1
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  surname: Maio
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  surname: Boberic
  fullname: Boberic, A.
  email: boberic@tme.rwth-aachen.de
  organization: Chair of Thermodynamics of Mobile Energy Conversion Systems - RWTH Aachen, Forckenbeckstr. 4, 52074, Aachen, Germany
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  surname: Giarracca
  fullname: Giarracca, L.
  organization: IFP Energies nouvelles, 1 et 4 avenue de Bois-Préau, Institut Carnot IFPEN Transports, 92852, Rueil-Malmaison, France
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  surname: Colin
  fullname: Colin, O.
  organization: IFP Energies nouvelles, 1 et 4 avenue de Bois-Préau, Institut Carnot IFPEN Transports, 92852, Rueil-Malmaison, France
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  givenname: F.
  surname: Duffour
  fullname: Duffour, F.
  organization: IFP Energies nouvelles, 1 et 4 avenue de Bois-Préau, Institut Carnot IFPEN Transports, 92852, Rueil-Malmaison, France
– sequence: 7
  givenname: K.
  surname: Deppenkemper
  fullname: Deppenkemper, K.
  organization: FEV Europe GmbH, Neuenhofstr. 181, 52078, Aachen, Germany
– sequence: 8
  givenname: L.
  surname: Virnich
  fullname: Virnich, L.
  organization: FEV Europe GmbH, Neuenhofstr. 181, 52078, Aachen, Germany
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  givenname: S.
  surname: Pischinger
  fullname: Pischinger, S.
  organization: Chair of Thermodynamics of Mobile Energy Conversion Systems - RWTH Aachen, Forckenbeckstr. 4, 52074, Aachen, Germany
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hydrogen
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Snippet The H2 internal combustion engine is gaining increasing interest especially for commercial vehicles. Regarding the optimization of the combustion process,...
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SubjectTerms Engineering Sciences
Environmental Sciences
hydrogen
Mechanics
spark ignition engines
turbulent combustion modeling
Title Experimental and numerical investigation of a direct injection spark ignition hydrogen engine for heavy-duty applications
URI https://dx.doi.org/10.1016/j.ijhydene.2022.06.184
https://ifp.hal.science/hal-03853877
Volume 47
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