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The potential of hydrogen internal combustion engines for heavy-duty applications

Turner, James W. ; Verhelst, Sebastian LU orcid and Marquez, Manuel E. (2024) p.606-637
Abstract
In the context of a decarbonized future where stringent carbon dioxide (CO2) emissions constraints are imposed on vehicles, hydrogen emerges as a promising solution to address emissions directly at the point of use. This chapter explores the potential of using hydrogen to power vehicles, particularly in the context of heavy-duty (HD) internal combustion engine (ICE) applications. Hydrogen vehicles offer rapid refueling and can be configured to carry more energy than is possible for battery electric vehicles (BEVs), which helps extend their driving range. Various practical hydrogen storage technologies exist, with pressurized and liquid storage being the most advanced. Hydrogen’s advantage becomes evident when rapid refueling is essential.... (More)
In the context of a decarbonized future where stringent carbon dioxide (CO2) emissions constraints are imposed on vehicles, hydrogen emerges as a promising solution to address emissions directly at the point of use. This chapter explores the potential of using hydrogen to power vehicles, particularly in the context of heavy-duty (HD) internal combustion engine (ICE) applications. Hydrogen vehicles offer rapid refueling and can be configured to carry more energy than is possible for battery electric vehicles (BEVs), which helps extend their driving range. Various practical hydrogen storage technologies exist, with pressurized and liquid storage being the most advanced. Hydrogen’s advantage becomes evident when rapid refueling is essential. Additionally, hydrogen excels in terms of energy storage capacity in a given vehicle platform, especially for HD applications. Despite lower powertrain efficiency compared to electric propulsion, hydrogen’s ability to transfer energy quickly is crucial for commercial and HD applications, where high vehicle utilization rates are essential.

The chapter also discusses the use of hydrogen in ICEs versus fuel cells (FCs) and explores the potential for ICEs to compete with FCs in terms of energy efficiency, particularly in HD vehicles.

In conclusion, hydrogen’s characteristics make it a compelling option for long-distance transport, outperforming BEVs in terms of energy storage capacity and rapid refueling. To fully realize hydrogen’s potential, optimizing ICEs for hydrogen use and addressing operational challenges will be essential, especially in HD applications. Some concepts that may achieve this are also discussed. (Less)
Please use this url to cite or link to this publication:
author
; and
organization
publishing date
type
Chapter in Book/Report/Conference proceeding
publication status
published
subject
host publication
The Clean Hydrogen Economy and Saudi Arabia : Domestic Developments and International Opportunities - Domestic Developments and International Opportunities
pages
32 pages
publisher
Taylor & Francis
external identifiers
  • scopus:85193076151
ISBN
9781040029947
9781032278315
DOI
10.4324/9781003294290-26
language
English
LU publication?
yes
id
21ea395a-d047-456c-ad25-40093111a2da
date added to LUP
2024-05-23 11:28:58
date last changed
2024-06-06 12:27:13
@inbook{21ea395a-d047-456c-ad25-40093111a2da,
  abstract     = {{In the context of a decarbonized future where stringent carbon dioxide (CO2) emissions constraints are imposed on vehicles, hydrogen emerges as a promising solution to address emissions directly at the point of use. This chapter explores the potential of using hydrogen to power vehicles, particularly in the context of heavy-duty (HD) internal combustion engine (ICE) applications. Hydrogen vehicles offer rapid refueling and can be configured to carry more energy than is possible for battery electric vehicles (BEVs), which helps extend their driving range. Various practical hydrogen storage technologies exist, with pressurized and liquid storage being the most advanced. Hydrogen’s advantage becomes evident when rapid refueling is essential. Additionally, hydrogen excels in terms of energy storage capacity in a given vehicle platform, especially for HD applications. Despite lower powertrain efficiency compared to electric propulsion, hydrogen’s ability to transfer energy quickly is crucial for commercial and HD applications, where high vehicle utilization rates are essential.<br/><br/>The chapter also discusses the use of hydrogen in ICEs versus fuel cells (FCs) and explores the potential for ICEs to compete with FCs in terms of energy efficiency, particularly in HD vehicles.<br/><br/>In conclusion, hydrogen’s characteristics make it a compelling option for long-distance transport, outperforming BEVs in terms of energy storage capacity and rapid refueling. To fully realize hydrogen’s potential, optimizing ICEs for hydrogen use and addressing operational challenges will be essential, especially in HD applications. Some concepts that may achieve this are also discussed.}},
  author       = {{Turner, James W. and Verhelst, Sebastian and Marquez, Manuel E.}},
  booktitle    = {{The Clean Hydrogen Economy and Saudi Arabia : Domestic Developments and International Opportunities}},
  isbn         = {{9781040029947}},
  language     = {{eng}},
  month        = {{04}},
  pages        = {{606--637}},
  publisher    = {{Taylor & Francis}},
  title        = {{The potential of hydrogen internal combustion engines for heavy-duty applications}},
  url          = {{http://dx.doi.org/10.4324/9781003294290-26}},
  doi          = {{10.4324/9781003294290-26}},
  year         = {{2024}},
}