Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system

The drive towards the integration of hydrogen in the global primary energy mix to achieve a carbon-neutral and sustainable society requires both minor and major technological modifications in current energy systems. In this study, the viability of green hydrogen as a combustion fuel and its economic...

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Main Authors: Zun, Moe Thiri, Ahmad, Muhammad Shakeel, Fayaz, H., Selvaraj, Jeyraj, Ahmed, Waqar, Wang, Yanru, Ben Khedher, Nidhal, Silitonga, A. S., Elfasakhany, Ashraf, Kalam, M. A., Rashid, Bushra
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Published: Elsevier 2023
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Online Access:http://eprints.um.edu.my/38868/
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spelling my.um.eprints.388682024-11-04T02:26:53Z http://eprints.um.edu.my/38868/ Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system Zun, Moe Thiri Ahmad, Muhammad Shakeel Fayaz, H. Selvaraj, Jeyraj Ahmed, Waqar Wang, Yanru Ben Khedher, Nidhal Silitonga, A. S. Elfasakhany, Ashraf Kalam, M. A. Rashid, Bushra T Technology (General) TK Electrical engineering. Electronics Nuclear engineering The drive towards the integration of hydrogen in the global primary energy mix to achieve a carbon-neutral and sustainable society requires both minor and major technological modifications in current energy systems. In this study, the viability of green hydrogen as a combustion fuel and its economics have been investigated for an absorption-desorption-based cooling system. Specially designed burners have been retrofitted with the portable ammonia-water-based cooling system (cooling area: 1.4 ft3). Furthermore, the effect of hydrogen flow and the distance from the burner has been investigated and optimized. The system has been compared with both elec-trical resistive heating using a 12 V DC power supply and propane gas. An increase in hydrogen flow rate leads to high cooling rates. Furthermore, the reduction in the distance between flame and heating surface improves the heat transfer rate. The system running on hydrogen exhibited highest performance compared to both electricity and propane at optimum flow rate and distance. The optimum flow rate and distance was observed to be 29.2l/h and 2 cm respectively. System running on optimum hydrogen conditions consumed 77.37Wh energy with is 9.10% less compared system running on electric resistance heating and 29% less compared to system running on propane. In terms of carbon-neutral economics, 1 kg of hydrogen can potentially replace 3.28 kg of propane (costing around 3.60 to 4.30 USD). Whereas, 8-9 kg of CO2 reduction can be achieved per kg of hydrogen being used. The 3.30 to 4.30 USD/kg may be considered a competitive cost of green hydrogen in comparison to propane as a combustion fuel for the portable refrigeration sector. These results are the first time, highlighting the efficient use of hydrogen in space cooling. Elsevier 2023-03 Article PeerReviewed Zun, Moe Thiri and Ahmad, Muhammad Shakeel and Fayaz, H. and Selvaraj, Jeyraj and Ahmed, Waqar and Wang, Yanru and Ben Khedher, Nidhal and Silitonga, A. S. and Elfasakhany, Ashraf and Kalam, M. A. and Rashid, Bushra (2023) Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system. Sustainable Energy Technologies and Assessments, 56. ISSN 2213-1388, DOI https://doi.org/10.1016/j.seta.2022.103007 <https://doi.org/10.1016/j.seta.2022.103007>. 10.1016/j.seta.2022.103007
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic T Technology (General)
TK Electrical engineering. Electronics Nuclear engineering
spellingShingle T Technology (General)
TK Electrical engineering. Electronics Nuclear engineering
Zun, Moe Thiri
Ahmad, Muhammad Shakeel
Fayaz, H.
Selvaraj, Jeyraj
Ahmed, Waqar
Wang, Yanru
Ben Khedher, Nidhal
Silitonga, A. S.
Elfasakhany, Ashraf
Kalam, M. A.
Rashid, Bushra
Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system
description The drive towards the integration of hydrogen in the global primary energy mix to achieve a carbon-neutral and sustainable society requires both minor and major technological modifications in current energy systems. In this study, the viability of green hydrogen as a combustion fuel and its economics have been investigated for an absorption-desorption-based cooling system. Specially designed burners have been retrofitted with the portable ammonia-water-based cooling system (cooling area: 1.4 ft3). Furthermore, the effect of hydrogen flow and the distance from the burner has been investigated and optimized. The system has been compared with both elec-trical resistive heating using a 12 V DC power supply and propane gas. An increase in hydrogen flow rate leads to high cooling rates. Furthermore, the reduction in the distance between flame and heating surface improves the heat transfer rate. The system running on hydrogen exhibited highest performance compared to both electricity and propane at optimum flow rate and distance. The optimum flow rate and distance was observed to be 29.2l/h and 2 cm respectively. System running on optimum hydrogen conditions consumed 77.37Wh energy with is 9.10% less compared system running on electric resistance heating and 29% less compared to system running on propane. In terms of carbon-neutral economics, 1 kg of hydrogen can potentially replace 3.28 kg of propane (costing around 3.60 to 4.30 USD). Whereas, 8-9 kg of CO2 reduction can be achieved per kg of hydrogen being used. The 3.30 to 4.30 USD/kg may be considered a competitive cost of green hydrogen in comparison to propane as a combustion fuel for the portable refrigeration sector. These results are the first time, highlighting the efficient use of hydrogen in space cooling.
format Article
author Zun, Moe Thiri
Ahmad, Muhammad Shakeel
Fayaz, H.
Selvaraj, Jeyraj
Ahmed, Waqar
Wang, Yanru
Ben Khedher, Nidhal
Silitonga, A. S.
Elfasakhany, Ashraf
Kalam, M. A.
Rashid, Bushra
author_facet Zun, Moe Thiri
Ahmad, Muhammad Shakeel
Fayaz, H.
Selvaraj, Jeyraj
Ahmed, Waqar
Wang, Yanru
Ben Khedher, Nidhal
Silitonga, A. S.
Elfasakhany, Ashraf
Kalam, M. A.
Rashid, Bushra
author_sort Zun, Moe Thiri
title Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system
title_short Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system
title_full Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system
title_fullStr Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system
title_full_unstemmed Towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system
title_sort towards techno-economics of green hydrogen as a primary combustion fuel for recreational vehicle vapor absorption refrigeration system
publisher Elsevier
publishDate 2023
url http://eprints.um.edu.my/38868/
_version_ 1814933223203930112
score 13.214268