期刊
ENERGY & ENVIRONMENTAL SCIENCE
卷 14, 期 9, 页码 4831-4839出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1ee00870f
关键词
-
资金
- Canada First Excellence Research Fund (CFREF) at the University of Calgary
As the price of renewable electricity drops, water electrolysis for hydrogen production is being considered for decarbonization. However, there is currently limited economic and environmental incentive for further research and development in direct seawater electrolysis technology.
As the price of renewable electricity continues to plummet, hydrogen (H-2) production via water electrolysis is gaining momentum globally as a route to decarbonize our energy systems. The requirement of high purity water for electrolysis and the widespread availability of seawater have led to significant research efforts in developing direct seawater electrolysis technology for H-2 production. In this perspective, we critically assess the broad-brush arguments on the research and development (R&D) needs for direct seawater electrolysis from energy, cost and environmental aspects. We focus in particular on a process consisting of seawater reverse osmosis (SWRO) coupled to proton exchange membrane (PEM) electrolysis. Our analysis reveals there are limited economic and environmental incentives of pursuing R&D on today's nascent direct seawater electrolysis technology. As commercial water electrolysis requires a significant amount of energy compared to SWRO, the capital and operating costs of SWRO are found to be negligible. This leads to an insignificant increase in levelized cost of H-2 (<0.1 $ per kg H-2) and CO2 emissions (<0.1%) from a SWRO-PEM coupled process. Our analysis poses the questions: what is the future promise of direct seawater electrolysis? With an urgent need to decarbonize our energy systems, should we consider realigning our research investments? We conclude with a forward-looking perspective on future R&D priorities in desalination and electrolysis technologies.
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