Camborne School of Mines, College of Engineering, Mathematics and Physical Sciences, University of Exeter, Penryn Campus, Penryn, Cornwall, TR10 9FE, United Kingdom.
School of Engineering, Cardiff University, Queen's Building, The Parade, Cardiff, CF24 3AA, United Kingdom.
J Hazard Mater. 2018 Apr 5;347:252-265. doi: 10.1016/j.jhazmat.2017.12.014. Epub 2017 Dec 18.
Nanoscale zerovalent iron (nZVI) has been investigated for the selective formation of Cu nanoparticles from acid mine drainage (AMD) taken from a legacy mine site in the UK. Batch experiments were conducted containing unbuffered (pH 2.67 at t = 0) and pH buffered (pH < 3.1) AMD which were exposed to nZVI at 0.1-2.0 g/L. Results demonstrate that nZVI is selective for Cu, Cd and Al removal (>99.9% removal of all metals within 1 h when nZVI ≥ 1.0 g/L) from unbuffered AMD despite the coexistent of numerous other metals in the AMD, namely: Na, Ca, Mg, K, Mn and Zn. An acidic pH buffer enabled similarly high Cu removal but maximum removal of only <1.5% and <0.5% Cd and Al respectively. HRTEM-EDS confirmed the formation of discrete spherical nanoparticles comprised of up to 68% wt. Cu, with a relatively narrow size distribution (typically 20-100 nm diameter). XPS confirmed such nanoparticles as containing Cu°, with the Cu removal mechanism therefore likely via cementation with Fe°. Overall the results demonstrate nZVI as effective for the one-pot and selective formation of Cu°-bearing nanoparticles from acidic wastewater, with the technique therefore potentially highly useful for the selective upcycling of dissolved Cu in wastewater into high value nanomaterials.
纳米零价铁(nZVI)已被研究用于从英国一个遗留矿山的酸性矿山排水(AMD)中选择性地形成铜纳米颗粒。进行了批处理实验,其中含有未缓冲(t=0 时 pH 为 2.67)和 pH 缓冲(pH<3.1)的 AMD,将其暴露于 0.1-2.0 g/L 的 nZVI 下。结果表明,尽管 AMD 中存在许多其他金属,例如:Na、Ca、Mg、K、Mn 和 Zn,但 nZVI 对 Cu、Cd 和 Al 的去除具有选择性(当 nZVI≥1.0 g/L 时,所有金属在 1 h 内的去除率均>99.9%)。酸性 pH 缓冲剂可实现类似的高 Cu 去除率,但 Cd 和 Al 的最大去除率分别仅为<1.5%和<0.5%。HRTEM-EDS 证实形成了离散的球形纳米颗粒,其中 Cu 的重量百分比高达 68%,具有相对较窄的尺寸分布(通常为 20-100nm 直径)。XPS 证实了这些纳米颗粒中含有 Cu°,因此 Cu 的去除机制可能是通过与 Fe°的胶结。总体而言,结果表明 nZVI 可有效用于从酸性废水中一锅法和选择性地形成含 Cu°的纳米颗粒,因此该技术对于选择性地将废水中溶解的 Cu 升级为高价值纳米材料具有潜在的重要用途。
