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A Dual-Cation Exchange Membrane Electrolyzer for Continuous H2 Production from Seawater.


ABSTRACT: Direct seawater splitting (DSS) offers an aspirational route toward green hydrogen (H2) production but remains challenging when operating in a practically continuous manner, mainly due to the difficulty in establishing the water supply-consumption balance under the interference from impurity ions. A DSS system is reported for continuous ampere-level H2 production by coupling a dual-cation exchange membrane (CEM) three-compartment architecture with a circulatory electrolyte design. Monovalent-selective CEMs decouple the transmembrane water migration from interferences of Mg2+, Ca2+, and Cl- ions while maintaining ionic neutrality during electrolysis; the self-loop concentrated alkaline electrolyte ensures the constant gradient of water chemical potential, allowing a specific water supply-consumption balance relationship in a seawater-electrolyte-H2 sequence to be built among an expanded current range. Even paired with commercialized Ni foams, this electrolyzer (model size: 2 × 2 cm2) continuously produces H2 from flowing seawater with a rate of 7.5 mL min-1 at an industrially relevant current of 1.0 A over 100 h. More importantly, the energy consumption can be further reduced by coupling more efficient NiMo/NiFe foams (≈6.2 kWh Nm-3 H2 at 1.0 A), demonstrating the potential to further optimize the continuous DSS electrolyzer for practical applications.

SUBMITTER: Ren Y 

PROVIDER: S-EPMC11220719 | biostudies-literature | 2024 Jul

REPOSITORIES: biostudies-literature

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A Dual-Cation Exchange Membrane Electrolyzer for Continuous H<sub>2</sub> Production from Seawater.

Ren Yongwen Y   Fan Faying F   Zhang Yaojian Y   Chen Lin L   Wang Zhe Z   Li Jiedong J   Zhao Jingwen J   Tang Bo B   Cui Guanglei G  

Advanced science (Weinheim, Baden-Wurttemberg, Germany) 20240403 25


Direct seawater splitting (DSS) offers an aspirational route toward green hydrogen (H<sub>2</sub>) production but remains challenging when operating in a practically continuous manner, mainly due to the difficulty in establishing the water supply-consumption balance under the interference from impurity ions. A DSS system is reported for continuous ampere-level H<sub>2</sub> production by coupling a dual-cation exchange membrane (CEM) three-compartment architecture with a circulatory electrolyte  ...[more]

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