Latest development in arsenic removal by membrane technology
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Publisher
Elsevier
Reference81 articles.
1. A novel MD-ZVI integrated approach for high arsenic groundwater decontamination and effluent immobilization;Abass;Process Safety and Environmental Protection,2016
2. Arsenic removal from drinking water by reverse osmosis: Minimization of costs and energy consumption;Abejón;Separation and Purification Technology,2015
3. Effect of foulants on arsenic rejection via polyacrylonitrile ultrafiltration (UF) membrane;Agarwal;Desalination,2013
4. Performance of nanofiltration membrane in a vibrating module (VSEP-NF) for arsenic removal;Ahmed;Desalination,2010
5. Determination of nanofiltration efficency in arsenic removal from drinking water;Akbari;Iranian Journal of Environmental Health Science and Engineering,2010
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