Overview of hydrogen production technologies for fuel cell utilization

With rapidly depleting fossil fuels and growing environmental alarms due to their usage, hydrogen as an energy vector provides a clean and sustainable solution. However, the challenge lies in replacing mature fossil fuel technology with efficient and economical hydrogen production. This paper provid...

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Published in	Engineering science and technology, an international journal Vol. 43; p. 101452
Main Authors	Rahim Malik, Fawad, Yuan, Hai-Bo, Moran, James C., Tippayawong, Nakorn
Format	Journal Article
Language	English
Published	Elsevier B.V 01.07.2023 Elsevier
Subjects	Biomass gasification Clean energy Fuel cells Fuel reforming Solar hydrogen Solar hydrogen Biomass gasification Fuel cells Clean energy Fuel reforming
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Abstract	With rapidly depleting fossil fuels and growing environmental alarms due to their usage, hydrogen as an energy vector provides a clean and sustainable solution. However, the challenge lies in replacing mature fossil fuel technology with efficient and economical hydrogen production. This paper provides a techno-economic, and environmental overview of H2 production technologies. Reforming of fossil fuels is still considered as the backbone of large-scale H2 production. Whereas renewable hydrogen has technically advanced and improved, its cost remains an area of concern. Finding alternative catalytic materials would reduce such costs for renewable hydrogen production. Taking a mid-term timeframe, a viable scenario is replacing fossil fuels with solar hydrogen production integrated with water splitting methods, or from biomass gasification. Gasification of biomass is the preferred option as it is carbon neutral and cost-effective, producing hydrogen at 1.77 – 2.77 $/kg of H2. Among other uses of hydrogen in industrial applications, the most viable approach is to use it in hydrogen fuel cells for generating electricity. Commercialization of fuel cell technology is hindered by a lack of hydrogen infrastructure. Fuel cells and hydrogen production units should be integrated to achieve desired results. Case studies of different fuel cells and hydrogen production technologies are presented at the end of this paper, depicting a viable and environmentally acceptable approach compared with fossil fuels.
AbstractList	With rapidly depleting fossil fuels and growing environmental alarms due to their usage, hydrogen as an energy vector provides a clean and sustainable solution. However, the challenge lies in replacing mature fossil fuel technology with efficient and economical hydrogen production. This paper provides a techno-economic, and environmental overview of H2 production technologies. Reforming of fossil fuels is still considered as the backbone of large-scale H2 production. Whereas renewable hydrogen has technically advanced and improved, its cost remains an area of concern. Finding alternative catalytic materials would reduce such costs for renewable hydrogen production. Taking a mid-term timeframe, a viable scenario is replacing fossil fuels with solar hydrogen production integrated with water splitting methods, or from biomass gasification. Gasification of biomass is the preferred option as it is carbon neutral and cost-effective, producing hydrogen at 1.77 – 2.77 $/kg of H2. Among other uses of hydrogen in industrial applications, the most viable approach is to use it in hydrogen fuel cells for generating electricity. Commercialization of fuel cell technology is hindered by a lack of hydrogen infrastructure. Fuel cells and hydrogen production units should be integrated to achieve desired results. Case studies of different fuel cells and hydrogen production technologies are presented at the end of this paper, depicting a viable and environmentally acceptable approach compared with fossil fuels.
ArticleNumber	101452
Author	Rahim Malik, Fawad Moran, James C. Yuan, Hai-Bo Tippayawong, Nakorn
Author_xml	– sequence: 1 givenname: Fawad surname: Rahim Malik fullname: Rahim Malik, Fawad organization: Faculty of Engineering, Department of Mechanical Engineering, Chiang Mai University, Thailand – sequence: 2 givenname: Hai-Bo orcidid: 0000-0003-3277-672X surname: Yuan fullname: Yuan, Hai-Bo organization: Automotive Engineering Research Institute, Jiangsu University, Zhenjiang, PR China – sequence: 3 givenname: James C. surname: Moran fullname: Moran, James C. organization: Faculty of Engineering, Department of Mechanical Engineering, Chiang Mai University, Thailand – sequence: 4 givenname: Nakorn surname: Tippayawong fullname: Tippayawong, Nakorn email: n.tippayawong@yahoo.com organization: Faculty of Engineering, Department of Mechanical Engineering, Chiang Mai University, Thailand
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Keywords	Solar hydrogen Biomass gasification Fuel cells Clean energy Fuel reforming
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Snippet	With rapidly depleting fossil fuels and growing environmental alarms due to their usage, hydrogen as an energy vector provides a clean and sustainable...
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SubjectTerms	Biomass gasification Clean energy Fuel cells Fuel reforming Solar hydrogen
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Title	Overview of hydrogen production technologies for fuel cell utilization
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