Hydrogen Hybrid ICE Powertrains with Ultra-Low NO x Emissions in Non-Road Mobile Machinery

Thomas Aschauer; Sebastian Gerhard Roiser; Eberhard Schutting; Helmut Eichlseder; David Lindenthaler; Florian Falbesoner; Josef Markus Ratzinger; Ulrich Hammerle

doi:10.4271/2023-01-0471

Hydrogen Hybrid ICE Powertrains with Ultra-Low NO x Emissions in Non-Road Mobile Machinery

Thomas Aschauer, Sebastian Gerhard Roiser, Eberhard Schutting, Helmut Eichlseder, David Lindenthaler, Florian Falbesoner, Josef Markus Ratzinger, Ulrich Hammerle

Institut für Thermodynamik und nachhaltige Antriebssysteme (3130)

Publikation: Konferenzbeitrag › Paper › Begutachtung

Abstract

In this paper, we will show the potentials of reducing NOx emissions of an H2-ICE to an ultra-low level by hybridizing the H2-ICE in an NRMM powertrain. Real-world measurement data of NRMM together with a simulated hybrid powertrain and operating strategy form the input data for the H2-ICE on the test bench. We have modified a turbocharged four-cylinder in-line gasoline engine for use with directly injected hydrogen. Within several iteration loops, we obtained measurement data that shows that, depending on the operating strategy, ultra-low NOx emissions are reachable. The combination of hybridization, which implies the possibility of recuperation, and the CO2 emission-free H2-ICE leads to a highly efficient, robust, and economic drivetrain with the lowest emissions, perfectly suitable for Non-Road Machinery.
Additionally, we will discuss the overall coupled measurement and simulation setup and the reachable NOx emission levels in our tested setup. We will give an outlook for additional NOx emission reduction potentials with exhaust after-treatment systems and other methods of further reducing nitric oxides, which can take the H2-ICE to near zero NOx emissions.

Originalsprache	englisch
Seiten	2023-01-0471
DOIs	https://doi.org/10.4271/2023-01-0471
Publikationsstatus	Veröffentlicht - 11 Apr. 2023
Veranstaltung	SAE 2023 World Congress Experience: WCX 2023 - Detroit, USA / Vereinigte Staaten Dauer: 18 Apr. 2023 → 20 Apr. 2023

Konferenz

Konferenz	SAE 2023 World Congress Experience
Kurztitel	WCX 2023
Land/Gebiet	USA / Vereinigte Staaten
Ort	Detroit
Zeitraum	18/04/23 → 20/04/23

ASJC Scopus subject areas

Sicherheit, Risiko, Zuverlässigkeit und Qualität
Umweltverschmutzung
Wirtschaftsingenieurwesen und Fertigungstechnik
Fahrzeugbau

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title = "Hydrogen Hybrid ICE Powertrains with Ultra-Low NO x Emissions in Non-Road Mobile Machinery",

abstract = "In this paper, we will show the potentials of reducing NOx emissions of an H2-ICE to an ultra-low level by hybridizing the H2-ICE in an NRMM powertrain. Real-world measurement data of NRMM together with a simulated hybrid powertrain and operating strategy form the input data for the H2-ICE on the test bench. We have modified a turbocharged four-cylinder in-line gasoline engine for use with directly injected hydrogen. Within several iteration loops, we obtained measurement data that shows that, depending on the operating strategy, ultra-low NOx emissions are reachable. The combination of hybridization, which implies the possibility of recuperation, and the CO2 emission-free H2-ICE leads to a highly efficient, robust, and economic drivetrain with the lowest emissions, perfectly suitable for Non-Road Machinery.Additionally, we will discuss the overall coupled measurement and simulation setup and the reachable NOx emission levels in our tested setup. We will give an outlook for additional NOx emission reduction potentials with exhaust after-treatment systems and other methods of further reducing nitric oxides, which can take the H2-ICE to near zero NOx emissions.",

author = "Thomas Aschauer and Roiser, {Sebastian Gerhard} and Eberhard Schutting and Helmut Eichlseder and David Lindenthaler and Florian Falbesoner and Ratzinger, {Josef Markus} and Ulrich Hammerle",

year = "2023",

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doi = "10.4271/2023-01-0471",

language = "English",

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AU - Aschauer, Thomas

AU - Roiser, Sebastian Gerhard

AU - Schutting, Eberhard

AU - Eichlseder, Helmut

AU - Lindenthaler, David

AU - Falbesoner, Florian

AU - Ratzinger, Josef Markus

AU - Hammerle, Ulrich

PY - 2023/4/11

Y1 - 2023/4/11

N2 - In this paper, we will show the potentials of reducing NOx emissions of an H2-ICE to an ultra-low level by hybridizing the H2-ICE in an NRMM powertrain. Real-world measurement data of NRMM together with a simulated hybrid powertrain and operating strategy form the input data for the H2-ICE on the test bench. We have modified a turbocharged four-cylinder in-line gasoline engine for use with directly injected hydrogen. Within several iteration loops, we obtained measurement data that shows that, depending on the operating strategy, ultra-low NOx emissions are reachable. The combination of hybridization, which implies the possibility of recuperation, and the CO2 emission-free H2-ICE leads to a highly efficient, robust, and economic drivetrain with the lowest emissions, perfectly suitable for Non-Road Machinery.Additionally, we will discuss the overall coupled measurement and simulation setup and the reachable NOx emission levels in our tested setup. We will give an outlook for additional NOx emission reduction potentials with exhaust after-treatment systems and other methods of further reducing nitric oxides, which can take the H2-ICE to near zero NOx emissions.

AB - In this paper, we will show the potentials of reducing NOx emissions of an H2-ICE to an ultra-low level by hybridizing the H2-ICE in an NRMM powertrain. Real-world measurement data of NRMM together with a simulated hybrid powertrain and operating strategy form the input data for the H2-ICE on the test bench. We have modified a turbocharged four-cylinder in-line gasoline engine for use with directly injected hydrogen. Within several iteration loops, we obtained measurement data that shows that, depending on the operating strategy, ultra-low NOx emissions are reachable. The combination of hybridization, which implies the possibility of recuperation, and the CO2 emission-free H2-ICE leads to a highly efficient, robust, and economic drivetrain with the lowest emissions, perfectly suitable for Non-Road Machinery.Additionally, we will discuss the overall coupled measurement and simulation setup and the reachable NOx emission levels in our tested setup. We will give an outlook for additional NOx emission reduction potentials with exhaust after-treatment systems and other methods of further reducing nitric oxides, which can take the H2-ICE to near zero NOx emissions.

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Y2 - 18 April 2023 through 20 April 2023

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Hydrogen Hybrid ICE Powertrains with Ultra-Low NO x Emissions in Non-Road Mobile Machinery

Abstract

Konferenz

ASJC Scopus subject areas

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