TL;DR: A novel decomplexation method was developed using discharge plasma oxidation, which was followed by alkaline precipitation to treat water containing heavy metal-organic complex, that is, Cu-ethylenediaminetetraacetic acid (Cu-EDTA).

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Abstract: Strong complexation between heavy metals and organic complexing agents makes the heavy metals difficult to be removed by classical chemical precipitation. In this study, a novel decomplexation method was developed using discharge plasma oxidation, which was followed by alkaline precipitation to treat water containing heavy metal–organic complex, that is, Cu–ethylenediaminetetraacetic acid (Cu–EDTA). The decomplexation efficiency of Cu complex reached up to nearly 100% after 60 min’s oxidation by discharge plasma, which was accompanied by 82.1% of total organic carbon removal and energy efficiency of 0.62 g kWh–1. Presence of free Cu2+ favored Cu–EDTA decomplexation, whereas the presence of excessive EDTA depressed this process. Cu–EDTA decomplexation was mainly driven by the produced 1O2, O2•–, O3, and •OH by discharge plasma. Cu–EDTA decomplexation process was characterized by UV–vis, ATR–FTIR, total organic carbon, and three-dimensional fluorescence diagnosis. The main intermediates including Cu–EDDA, C...

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172 citations

Journal Article•10.1016/J.WATRES.2015.09.025•

A new combined process for efficient removal of Cu(II) organic complexes from wastewater: Fe(III) displacement/UV degradation/alkaline precipitation.

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Zhe Xu¹, Guandao Gao², Bingcai Pan¹, Weiming Zhang¹, Lu Lv¹ - Show less +1 more•Institutions (2)

Nanjing University¹, Nankai University²

15 Dec 2015-Water Research

TL;DR: A novel combined process, i.e., Fe( III)-displacement/UV degradation/alkaline precipitation was developed to remove copper-organic complexes from synthetic solution and real electroplating effluent, and other processes including alkaline precipitation, Fe(III)/OH, UV/OH were employed for comparison.

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156 citations

Journal Article•10.1016/0502-8205(54)90006-4•

Report on precipitation

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H.K. Hardy, T.J. Heal

01 Jan 1954-Progress in Metal Physics

143 citations

Journal Article•10.1016/J.JHAZMAT.2016.05.021•

Chromium speciation in tannery effluent after alkaline precipitation: Isolation and characterization.

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Dandan Wang¹, Shiya He¹, Chao Shan¹, Yuxuan Ye¹, Hongrui Ma², Xiaolin Zhang¹, Weiming Zhang¹, Bingcai Pan¹ - Show less +4 more•Institutions (2)

Nanjing University¹, Shaanxi University of Science and Technology²

05 Oct 2016-Journal of Hazardous Materials

TL;DR: Results showed that the residual Cr(III) mostly located in two size ranges, i.e. the 13-100nm fraction and the <4nm fraction, while polyoxyethylene ether was abundantly present, it was responsible for the complexation of Cr( III) in neither fraction.

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140 citations

Journal Article•10.1016/J.CEJ.2019.01.061•

Decomplexation of EDTA-chelated copper and removal of copper ions by non-thermal plasma oxidation/alkaline precipitation

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Yang Cao¹, Xuecong Qian¹, Yuxuan Zhang¹, Guangzhou Qu¹, Tianjiao Xia¹, Xuetao Guo¹, Hanzhong Jia¹, Tiecheng Wang¹ - Show less +4 more•Institutions (1)

Virginia Tech College of Natural Resources and Environment¹

15 Apr 2019-Chemical Engineering Journal

TL;DR: In this article, a non-thermal plasma (NTP) oxidation/alkaline precipitation strategy was developed to remove the EDTA-chelated metals, which are difficult to remove by traditional chemical precipitation because of the strong complexation between EDTA and heavy metal ions.

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126 citations