One-step rejuvenation for prolonging running lifespan of nanofiltration membranes

Guoyuan Pan , Muhua Zhao , Ying Wan , Guoke Zhao , Hao Yu , Gongqing Tang , Yang Zhang , Yiqun Liu
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Abstract

Commercial nanofiltration (NF) membranes based on polyamides may experience a decline in permeation performance after prolonged operation. The short lifespan of NF membranes will lead to waste and additional carbon emissions. Thus, rejuvenating membranes and extending their lifespan seem more meaningful than investigating new materials. In this paper, polyamide NF membranes were modified with various polyphenol monomers to improve their permeation performance. The effects of different polyphenols on pore size, surface morphology, and permeation performance of the NF membranes were thoroughly investigated. After modification with tannic acid, the NF membrane exhibits improved salt rejection while experiencing an acceptable decrease in water flux. It should be noted that the commercial NF membrane element fabricated by Koch can recover its Na2SO4 rejection from 83.0% to 94.2% and demonstrate long-term stability after rejuvenation with tannic acid. Combined with the environmental friendliness of polyphenols, this straightforward modification method has the potential for prolonging the operational lifespan of industrial NF membrane products.

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延长纳滤膜运行寿命的一步再生法
基于聚酰胺的商用纳滤膜在长时间运行后,渗透性能可能会下降。纳滤膜的短寿命将导致浪费和额外的碳排放。因此,使膜年轻化并延长其使用寿命似乎比研究新材料更有意义。本文用不同的多酚单体对聚酰胺 NF 膜进行改性,以提高其渗透性能。本文深入研究了不同多酚对 NF 膜孔径、表面形态和渗透性能的影响。经单宁酸改性后,NF 膜的盐排斥性能得到改善,同时水通量的下降幅度也在可接受范围内。值得注意的是,Koch 制造的商用 NF 膜元件的 Na2SO4 排盐率可从 83.0% 提高到 94.2%,并在使用单宁酸进行年轻化后表现出长期稳定性。结合多酚的环境友好性,这种简单的改性方法有望延长工业 NF 膜产品的运行寿命。
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百灵威 Tannic acid
¥18.00~¥40812.78
百灵威 protocatechuic acid
¥18.00~¥9196.00
百灵威 tea polyphenols
¥15.00~¥8252.00
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