Hydrogen electrolyser technologies and their modelling for sustainable energy production: A comprehensive review and suggestions

The advancement of hydrogen technology is driven by factors such as climate change, population growth, and the depletion of fossil fuels. Rather than focusing on the controversy surrounding the environmental friendliness of hydrogen production, the primary goal of the hydrogen economy is to introduc...

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Main Authors: Arsad A.Z., Hannan M.A., Al-Shetwi A.Q., Begum R.A., Hossain M.J., Ker P.J., Mahlia T.I.
Other Authors: 56926685200
Format: Review
Published: Elsevier Ltd 2024
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spelling my.uniten.dspace-341142024-10-14T11:18:01Z Hydrogen electrolyser technologies and their modelling for sustainable energy production: A comprehensive review and suggestions Arsad A.Z. Hannan M.A. Al-Shetwi A.Q. Begum R.A. Hossain M.J. Ker P.J. Mahlia T.I. 56926685200 7103014445 57004922700 14007780000 57209871691 37461740800 56997615100 Electrolysers Fuel cell Hydrogen production Modelling Renewable energy sources Water Climate change Costs Electric energy storage Electrolysis Energy efficiency Environmental impact Fossil fuels Fuel cells Hydrogen fuels Hydrogen storage Population statistics Renewable energy resources Sustainable development Capitals costs Electrolysers Energy productions Material utilization Modeling Renewable energy source Security implications Sustainable energy Water consumption Water electrolysis Hydrogen production The advancement of hydrogen technology is driven by factors such as climate change, population growth, and the depletion of fossil fuels. Rather than focusing on the controversy surrounding the environmental friendliness of hydrogen production, the primary goal of the hydrogen economy is to introduce hydrogen as an energy carrier alongside electricity. Water electrolysis is currently gaining popularity because of the rising demand for environmentally friendly hydrogen production. Water electrolysis provides a sustainable, eco-friendly, and high-purity technique to produce hydrogen. Hydrogen and oxygen produced by water electrolysis can be used directly for fuel cells and industrial purposes. The review is urgently needed to provide a comprehensive analysis of the current state of water electrolysis technology and its modelling using renewable energy sources. While individual methods have been well documented, there has not been a thorough investigation of these technologies. With the rising demand for environmentally friendly hydrogen production, the review will provide insights into the challenges and issues with electrolysis techniques, capital cost, water consumption, rare material utilization, electrolysis efficiency, environmental impact, and storage and security implications. The objective is to identify current control methods for efficiency improvement that can reduce costs, ensure demand, increase lifetime, and improve performance in a low-carbon energy system that can contribute to the provision of power, heat, industry, transportation, and energy storage. Issues and challenges with electrolysis techniques, capital cost, water consumption, rare material utilization, electrolysis efficiency, environmental impact, and storage and security implications have been discussed and analysed. The primary objective is to explicitly outline the present state of electrolysis technology and to provide a critical analysis of the modelling research that had been published in recent literatures. The outcome that emerges is one of qualified promise: hydrogen is well-established in particular areas, such as forklifts, and broader applications are imminent. This evaluation will bring more research improvements and a road map to aid in the commercialization of the water electrolyser for hydrogen production. All the insights revealed in this study will hopefully result in enhanced efforts in the direction of the development of advanced hydrogen electrolyser technologies towards clean, sustainable, and green energy. � 2023 Hydrogen Energy Publications LLC Final 2024-10-14T03:18:01Z 2024-10-14T03:18:01Z 2023 Review 10.1016/j.ijhydene.2023.04.014 2-s2.0-85153184219 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85153184219&doi=10.1016%2fj.ijhydene.2023.04.014&partnerID=40&md5=5236aee9371a68372cd2b79dcd7b86bb https://irepository.uniten.edu.my/handle/123456789/34114 48 72 27841 27871 Elsevier Ltd Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Electrolysers
Fuel cell
Hydrogen production
Modelling
Renewable energy sources
Water
Climate change
Costs
Electric energy storage
Electrolysis
Energy efficiency
Environmental impact
Fossil fuels
Fuel cells
Hydrogen fuels
Hydrogen storage
Population statistics
Renewable energy resources
Sustainable development
Capitals costs
Electrolysers
Energy productions
Material utilization
Modeling
Renewable energy source
Security implications
Sustainable energy
Water consumption
Water electrolysis
Hydrogen production
spellingShingle Electrolysers
Fuel cell
Hydrogen production
Modelling
Renewable energy sources
Water
Climate change
Costs
Electric energy storage
Electrolysis
Energy efficiency
Environmental impact
Fossil fuels
Fuel cells
Hydrogen fuels
Hydrogen storage
Population statistics
Renewable energy resources
Sustainable development
Capitals costs
Electrolysers
Energy productions
Material utilization
Modeling
Renewable energy source
Security implications
Sustainable energy
Water consumption
Water electrolysis
Hydrogen production
Arsad A.Z.
Hannan M.A.
Al-Shetwi A.Q.
Begum R.A.
Hossain M.J.
Ker P.J.
Mahlia T.I.
Hydrogen electrolyser technologies and their modelling for sustainable energy production: A comprehensive review and suggestions
description The advancement of hydrogen technology is driven by factors such as climate change, population growth, and the depletion of fossil fuels. Rather than focusing on the controversy surrounding the environmental friendliness of hydrogen production, the primary goal of the hydrogen economy is to introduce hydrogen as an energy carrier alongside electricity. Water electrolysis is currently gaining popularity because of the rising demand for environmentally friendly hydrogen production. Water electrolysis provides a sustainable, eco-friendly, and high-purity technique to produce hydrogen. Hydrogen and oxygen produced by water electrolysis can be used directly for fuel cells and industrial purposes. The review is urgently needed to provide a comprehensive analysis of the current state of water electrolysis technology and its modelling using renewable energy sources. While individual methods have been well documented, there has not been a thorough investigation of these technologies. With the rising demand for environmentally friendly hydrogen production, the review will provide insights into the challenges and issues with electrolysis techniques, capital cost, water consumption, rare material utilization, electrolysis efficiency, environmental impact, and storage and security implications. The objective is to identify current control methods for efficiency improvement that can reduce costs, ensure demand, increase lifetime, and improve performance in a low-carbon energy system that can contribute to the provision of power, heat, industry, transportation, and energy storage. Issues and challenges with electrolysis techniques, capital cost, water consumption, rare material utilization, electrolysis efficiency, environmental impact, and storage and security implications have been discussed and analysed. The primary objective is to explicitly outline the present state of electrolysis technology and to provide a critical analysis of the modelling research that had been published in recent literatures. The outcome that emerges is one of qualified promise: hydrogen is well-established in particular areas, such as forklifts, and broader applications are imminent. This evaluation will bring more research improvements and a road map to aid in the commercialization of the water electrolyser for hydrogen production. All the insights revealed in this study will hopefully result in enhanced efforts in the direction of the development of advanced hydrogen electrolyser technologies towards clean, sustainable, and green energy. � 2023 Hydrogen Energy Publications LLC
author2 56926685200
author_facet 56926685200
Arsad A.Z.
Hannan M.A.
Al-Shetwi A.Q.
Begum R.A.
Hossain M.J.
Ker P.J.
Mahlia T.I.
format Review
author Arsad A.Z.
Hannan M.A.
Al-Shetwi A.Q.
Begum R.A.
Hossain M.J.
Ker P.J.
Mahlia T.I.
author_sort Arsad A.Z.
title Hydrogen electrolyser technologies and their modelling for sustainable energy production: A comprehensive review and suggestions
title_short Hydrogen electrolyser technologies and their modelling for sustainable energy production: A comprehensive review and suggestions
title_full Hydrogen electrolyser technologies and their modelling for sustainable energy production: A comprehensive review and suggestions
title_fullStr Hydrogen electrolyser technologies and their modelling for sustainable energy production: A comprehensive review and suggestions
title_full_unstemmed Hydrogen electrolyser technologies and their modelling for sustainable energy production: A comprehensive review and suggestions
title_sort hydrogen electrolyser technologies and their modelling for sustainable energy production: a comprehensive review and suggestions
publisher Elsevier Ltd
publishDate 2024
_version_ 1814061041720492032
score 13.214268