用膜电容去离子法净化碱法地浸含铀地下水试验研究
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摘要
本试验研究了用膜电容去离子法(MCDI)净化模拟含铀地下水的可行性,考察了电压、原水pH对产水回收率的影响,分析如何提高再生电压和预冲洗的再生效果。结果表明,在原水pH=7.58、工作电压1.1V条件下,模拟水中离子去除率(以电导率计)达96.02%,净水回收率为66.67%;采用反向通电结合定期稀酸冲洗方法,可有效去除膜电极上残留的铀离子。
The feasibility of purifying simulated uranium-bearing groundwater by membrane capacitive deionization(MCDI) was studied in this experiment. The effects of voltage and pH of raw water on water recovery were investigated.How to improve regeneration voltage and regeneration effect of pre-flushing was analyzed. The results show that under the conditions of raw water pH=7.58 and working voltage 1.1 V, the ion removal rate(measured by conductivity) in simulated water reaches 96.02% and the recovery rate of purified water is 66.67%. The residual uranium ion on membrane electrodes can be effectively removed by the method of reverse electrification combined with periodic dilute acid flushing.
The feasibility of purifying simulated uranium-bearing groundwater by membrane capacitive deionization(MCDI) was studied in this experiment. The effects of voltage and pH of raw water on water recovery were investigated.How to improve regeneration voltage and regeneration effect of pre-flushing was analyzed. The results show that under the conditions of raw water pH=7.58 and working voltage 1.1 V, the ion removal rate(measured by conductivity) in simulated water reaches 96.02% and the recovery rate of purified water is 66.67%. The residual uranium ion on membrane electrodes can be effectively removed by the method of reverse electrification combined with periodic dilute acid flushing.
引文
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5周贵忠,王兆丰,王绚,等.石墨-活性炭纤维复合电极电吸附处理含盐废水的研究[J].环境科学,2014,35(5):1832-1837.
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8黄伟.电容去离子法电极材料脱盐特性及处理提钒高盐废水研究[D].武汉:武汉理工大学,2014.
9李金鑫,孙文全,龙建,等.板式活性炭纤维电极电吸附除盐实验研究[J].水处理技术,2014,40(3):32-35.
10高湘,林小辉.活性炭纤维对于离子的电吸附选择性能研究[J].工业安全与环保,2015,41(4):41-44.
11韩丹,徐有林,赵贤广,等.活性炭纤维覆膜电极高电压电吸附处理含盐废水[J].工业水处理,2015,35(10):1832-1837.
12段小月,常立民,王昕瑶.活性炭电极对不同阳离子电吸附行为的研究[J].水处理技术,2010,36(4):32-40.
2黄勇强,朱艳,史凯,等.膜电容去离子复合电极处理自来水[J].环境工程学报,2015,9(2):807-811.
3刘海静,张鸿涛,孙晓慰.电吸附法去除地下水中离子的试验研究[J].中国给水排水,2003,19(11):36-38.
4陈乡,原渊,李宏星.电容去离子技术在地浸矿山铀水冶领域的研究方向探讨[J].铀矿冶,2019,38(1):34-41.
5周贵忠,王兆丰,王绚,等.石墨-活性炭纤维复合电极电吸附处理含盐废水的研究[J].环境科学,2014,35(5):1832-1837.
6韩丹,徐有林,赵贤广,等.活性炭纤维覆膜电极高电压电吸附处理含盐废水[J].工业水处理,2015,35(10):1832-1837.
7吴舢,王翠,李洪鑫,等.电导率与溶解性总固体相关关系探讨[J].天津科技,2017,44(7):44-48.
8黄伟.电容去离子法电极材料脱盐特性及处理提钒高盐废水研究[D].武汉:武汉理工大学,2014.
9李金鑫,孙文全,龙建,等.板式活性炭纤维电极电吸附除盐实验研究[J].水处理技术,2014,40(3):32-35.
10高湘,林小辉.活性炭纤维对于离子的电吸附选择性能研究[J].工业安全与环保,2015,41(4):41-44.
11韩丹,徐有林,赵贤广,等.活性炭纤维覆膜电极高电压电吸附处理含盐废水[J].工业水处理,2015,35(10):1832-1837.
12段小月,常立民,王昕瑶.活性炭电极对不同阳离子电吸附行为的研究[J].水处理技术,2010,36(4):32-40.
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