吸附膜去除砷的原理、进展和挑战

Rickson Jun Jay Chia, W. Lau, N. Yusof, H. Shokravi, A. Ismail
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引用次数: 1

摘要

在以地下水为唯一生存来源的国家,水源中的砷污染一直是一个反复出现的问题。虽然传统的压力驱动膜是水处理溶液的缩影,但它在除砷方面并非没有限制。因此,研究吸附膜,因为它们结合了吸附和超滤技术的积极特性,使它们能够有效地去除砷,同时提供有前途的通量。虽然有关于吸附膜在除砷中的作用的研究报道,但在吸附能力、再生潜力和稳定性方面,不同吸附膜的性能还有待发现。在这篇综述中,我们调查了各种纳米吸附剂的特性,重点介绍了不同溶液对吸附膜的除砷性能以及吸附膜的再生过程。在膜制造和操作过程中面临的关键挑战也被强调,为开发更坚固的吸附膜提供了更好的见解。希望通过本文的综述,能够启发研究人员开发出性能优异且性能稳定的吸附膜。图形抽象
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Adsorptive Membranes for Arsenic Removal – Principles, Progress and Challenges
ABSTRACT Arsenic pollution in water sources has been a recurring issue for the nations where groundwater is the sole source of survival. While conventional pressure-driven membrane is the epitome of a water treatment solution, it is not without limitations for arsenic removal. Thus, adsorptive membranes are studied since they combine positive features of adsorption and ultrafiltration technology that makes them able to remove arsenic effectively while offering promising flux. While there are studies reporting on the roles of adsorptive membranes for arsenic removal, there is much to discover on the performance of different adsorptive membranes in terms of adsorption capacity, regeneration potential, and stability. In this review, we survey the characteristics of a wide range of nanoadsorbents focussing on the membrane properties for arsenic removal as well as regeneration process of adsorptive membrane using different solutions. The key challenges faced during membrane fabrication and operation are also highlighted providing a better insight toward development of more robust adsorptive membranes. It is hoped that through this review, researchers will be inspired to develop more functional adsorptive membranes with not only outstanding performance but also stable performance for arsenic removal. Graphical Abstract
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