Chapter 11. Applications of Engineered Nanomaterials in the Recovery of Metals from Wastewater

R. Crane, D. Sapsford, A. Aderibigbe
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引用次数: 2

Abstract

The occurrences of certain metal and metalloid (hereafter metal) ions in municipal and industrial wastewater are major concerns due to the adverse effects such metals can have on human health and the environment at relatively low concentrations. Given the fact that all metals are attained from finite deposits, their recovery from wastewater is essential in order to prevent loss of materials from the global supply loop. An intrinsic challenge, however, is that economically valuable metal ions are often present at relatively low concentrations and in highly complex chemical matrices and thus conventional extraction methods are often not economically or practically feasible. The use of engineered nanomaterials could overcome this issue due to their unique properties, including high specific surface area, colloidal behaviour and quantum size effects. This chapter will discuss the wide potential of engineered nanomaterials for the recovery of metal ions from wastewater, including their use as suspended colloids and as fixed bed reactors. Significant technical challenges remain, however, associated with (1) their synthesis cost and (2) the ecotoxicity of ‘unbound’ engineered nanomaterials, which if overcome, could give rise to the widespread adoption of engineered nanomaterials in the recovery of metals from wastewater.
第十一章。工程纳米材料在废水金属回收中的应用
在城市和工业废水中出现某些金属和类金属离子(以下简称金属)是令人关切的主要问题,因为这些金属在相对较低的浓度下可能对人类健康和环境产生不利影响。鉴于所有金属都是从有限的沉积物中获得的,因此从废水中回收金属对于防止全球供应循环中的材料损失至关重要。然而,一个内在的挑战是,具有经济价值的金属离子往往以相对较低的浓度和高度复杂的化学基质存在,因此传统的提取方法往往不经济或实际上可行。工程纳米材料的使用可以克服这个问题,因为它们具有独特的特性,包括高比表面积、胶体行为和量子尺寸效应。本章将讨论工程纳米材料在从废水中回收金属离子方面的广泛潜力,包括它们作为悬浮胶体和固定床反应器的用途。然而,重大的技术挑战仍然存在,这与(1)它们的合成成本和(2)“非结合”工程纳米材料的生态毒性有关,如果克服这些挑战,可能会导致工程纳米材料在废水中金属回收中的广泛采用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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