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Life Cycle Analysis of Hydrogen Production by Different Alkaline Electrolyser Technologies Sourced with Renewable Energy

Abstract

Green hydrogen has been considered a promising alternative to fossil fuels in chemical and energy applications. In this study, a life cycle analysis is conducted for green hydrogen production sourced with a mixture of renewable energy sources (50 % solar and 50 % wind energy). Two advanced technologies of alkaline electrolysis are selected and compared for hydrogen production: pressurised alkaline electrolyser and capillary-fed alkaline electrolyser. The different value chain stages were assessed in SimaPro, enabling the assessment of the environmental impacts of a green hydrogen production project with 60 MW capacity and 20 years lifetime. The results evaluate the environmental impacts depending on the components, construction and operation requirements. The results demonstrated that capillary-fed alkaline electrolyser technology has lower potential environmental impacts by around 17 % than pressurised alkaline electrolyser technology for all the process stages. The total global warming potential was found to be between 1.98 and 2.39 kg of carbon dioxide equivalent per kg of hydrogen. This study contributes to the electrolysers industry and the planning of green hydrogen projects for many applications towards decarbonization and sustainability.

Funding source: This work is developed as part of the M-ECO2 Project, contract nr. C632471917- 00467009, co-funded through the Resilience and Recovery Plan (PRR-IAPMEI) through the European Union under the Next Generation EU. The authors acknowledge the support of Fundaçao˜ para Fig. 10. Tornado chart for GWP environmental impact of the hydrogen production-based ALE-C technology. W. Ajeeb et al. Energy Conversion and Management 316 (2024) 118840 14 a Ciˆencia e Tecnologia through the project UIDB/50009/2020 - IST-ID. We are grateful to our Project partners from PRIO (PRIO Aveiro, Portugal), Cristiano Pereira Ramos, Cristina Borges Correia, and Rosario ´ Rocha, for their support and input to this study.
Related subjects: Production & Supply Chain
Countries: Portugal
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/content/journal6061
2024-07-29
2024-12-21
/content/journal6061
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