论文信息 - Preparation of cation exchange membrane as a separator for the all-vanadium redox flow battery

Preparation of cation exchange membrane as a separator for the all-vanadium redox flow battery

Chlorosulfonated homogeneous polyethylene (PE) dense film (PE-X) and asymmetric membrane (MH-X) were tested as separators for the all-vanadium redox flow battery. The membranes are prepared by the vapour phase chlorosulfonation of the PE film. The measured lowest resistivites equilibrated in 2 M KCl aqueous solution were 0.27 Ω cm2 and 0.96 Ω cm2, respectively, for PE-X (with thickness 20 μm) and for MH-X (with PE-layer 20 μm). The area resistivities of the membranes as separators in the all-vanadium redox flow battery were obtained. At a charge-discharge current density 633 A/m2, these values were 3.09 Ω cm2 and 3.46 Ω cm2, respectively, for charge and discharge PE-X, and were 3.26 Ω cm2 and 8.30 Ω cm2, respectively, for charge and discharge MH-X. The highest permeabilities of the four types of vanadium ions had PE-X, followed by Nafion 117, CMV, and MH-X. For the purpose to improve the durability of the membrane, the chlorosulfonated homogeneous membrane was cross-linked by accelerated electron radiation. The life of the cross-linked membrane which is determined by the oxidation degradation in acidic vanadium solution, was longer than it for non-cross-linked membrane and CMV.

Haruhiko Ohya | Gab-Jin Hwang | H. Ohya | Gabjin Hwang

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