负载式液膜处理含金属废水的研究进展

Goh Saik Su, N. Morad, Norli Ismail, M. Rafatullah
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引用次数: 13

摘要

水金属污染物的有害影响和循环利用的好处推动了废水处理和回收金属再利用的需要。负载液膜(SLM)分离是一种有潜力的选择性回收金属离子的节能技术,但要提高处理能力和SLM寿命,还需要提高传输速率和稳定性。许多关于SLM的实验室研究表明,SLM的金属去除效率在70%以上,传质系数在10 - 6 m/s范围内,但不同测试装置的SLM稳定性差异较大。最近,研究人员开始探索在构建SLM中使用绿色化学物质。本文综述了影响slm选择性、转运动力学和稳定性的因素。讨论了将SLM技术成熟为能够在工业规模上处理含金属废水的技术的改进策略。
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Developments in supported liquid membranes for treatment of metal-bearing wastewater
ABSTRACT Harmful effects of aqueous metal pollutants and benefits of recycling drive the need for wastewater treatment and recovering metals for reuse. Supported liquid membrane (SLM) separation is one of the potential energy-efficient techniques that can recover metal ions selectively, but improvements in transport rate and stability are needed to improve treatment capacity and SLM lifetime. Many lab studies on SLM could demonstrate metal removal efficiencies above 70% and mass transfer coefficient in the range of 10−6 m/s, but there is more variation in reported SLM stability for different setups tested. Recently, researchers started exploring the use of green chemicals in constructing SLM. In this review, factors affecting selectivity, transport kinetics, and stability of SLMs are presented. Improvement strategies for maturing SLM technique into a technology capable for treating metal-bearing wastewater on an industrial scale are discussed.
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