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Abstract:
将离子交换膜耦合微滤膜开发出1种新型浸没式平板膜组件,以实现废水中NH4+-N富集以及COD的截留.通过改变电极间距及电极材料,考察电极条件对NH4+-N富集和COD截留效果的影响,并采用X荧光光谱、X射线衍射技术探讨电化学行为过程.结果表明,极板间距减小,NH4+-N富集率、COD截留率均随之增加;Fe电极下平均富集率可达94.17%,高于Al电极,悬浮絮体及滤饼层物相组成均为FeO(OH)、(CaMg)CO3和Fe2O3;Al电极下平均截留率为64.11%,高于Fe电极,胶状絮体及滤饼层均为γ-Al2O3、(CaMg)CO3和Al(OH)3.
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水处理技术
ISSN: 1000-3770
Year: 2017
Issue: 1
Volume: 43
Page: 40-45
Cited Count:
SCOPUS Cited Count:
ESI Highly Cited Papers on the List: 0 Unfold All
WanFang Cited Count: 1
Chinese Cited Count:
30 Days PV: 0
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