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W4220876611 abstract "Electrochemical separation offers an energy-efficient means to desalinate brackish water, a relatively untapped but increasingly utilized water source for freshwater supply. Several electrochemical techniques are being developed to enable low-energy desalination combined with energy storage. We report a new approach that produced a peak power density of 6.0 mW cm-2 from the energy stored in iron cyanide (Fe-CN) and iron citrate (Fe-Cit) redox couples during water desalination, using asymmetric redox flow batteries (RFBs). Desalination and the charging of the redox couples occurred in a four-channel RFB cell. The stored energy was extracted in a two-channel RFB cell. Desalination of model brackish water (2.9 g L-1) to freshwater (0.5 g L-1) was also studied in a symmetric system using the environmentally benign Fe-Cit. The process was characterized by low energy consumption (0.56 kW h m-3), high productivity (41.1 L freshwater m-2 area h-1, representing practical operating conditions for brackish water desalination), and high water recovery (91% product-to-intake water ratio, addressing the environmental and economic challenges of brine disposal). The low cell voltage (<0.5 V) required in the reported system is ideally suited for developing modular desalination systems powered by renewables, including solar energy. Collectively, water-based RFBs for desalination and power production would lead to sustainable water-energy infrastructure." @default.
W4220876611 created "2022-04-03" @default.
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W4220876611 date "2022-03-17" @default.
W4220876611 modified "2023-10-02" @default.
W4220876611 title "Asymmetric and Symmetric Redox Flow Batteries for Energy-Efficient, High-Recovery Water Desalination" @default.
W4220876611 cites W165650827 @default.
W4220876611 cites W1906455749 @default.
W4220876611 cites W1977549077 @default.
W4220876611 cites W1978297989 @default.
W4220876611 cites W1985715729 @default.
W4220876611 cites W2014559353 @default.
W4220876611 cites W2021858012 @default.
W4220876611 cites W2026775775 @default.
W4220876611 cites W2054724058 @default.
W4220876611 cites W2063404387 @default.
W4220876611 cites W2071971952 @default.
W4220876611 cites W2096623033 @default.
W4220876611 cites W2123368092 @default.
W4220876611 cites W2302686902 @default.
W4220876611 cites W2316740992 @default.
W4220876611 cites W2346650737 @default.
W4220876611 cites W2411235334 @default.
W4220876611 cites W2498142581 @default.
W4220876611 cites W2557084176 @default.
W4220876611 cites W2609290844 @default.
W4220876611 cites W2735170719 @default.
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W4220876611 cites W2757458735 @default.
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W4220876611 cites W2793421145 @default.
W4220876611 cites W2797094797 @default.
W4220876611 cites W2799326804 @default.
W4220876611 cites W2807915568 @default.
W4220876611 cites W2808941023 @default.
W4220876611 cites W2886745706 @default.
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W4220876611 cites W2899143536 @default.
W4220876611 cites W2900962987 @default.
W4220876611 cites W2908577003 @default.
W4220876611 cites W2915403665 @default.
W4220876611 cites W2946152825 @default.
W4220876611 cites W2946663336 @default.
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W4220876611 cites W2976299256 @default.
W4220876611 cites W2976986409 @default.
W4220876611 cites W2981072761 @default.
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W4220876611 cites W2996237317 @default.
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W4220876611 cites W3004897373 @default.
W4220876611 cites W3006119721 @default.
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W4220876611 cites W3007558910 @default.
W4220876611 cites W3018055740 @default.
W4220876611 cites W3019089410 @default.
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W4220876611 doi "https://doi.org/10.1021/acs.est.1c08609" @default.
W4220876611 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35297617" @default.
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