Selective Chelating Resin for Copper Removal and Recovery in Aqueous Acidic Solution Generated from Synthetic Copper-Citrate Complexes from Bioleaching of E-waste

IF 2.8 4区 工程技术 Q2 CHEMISTRY, APPLIED
K. Suwannahong, Jiyapa Sripirom, Chadrudee Sirilamduan, Vanlop Thathong, Torpong Kreetachart, Piyapat Panmuang, A. Deepatana, Suphot Punbut, S. Wongcharee
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引用次数: 8

Abstract

This research focused on batch experiment using a new generation of chelating resins via an ion exchange process to describe the metabolic adsorption and desorption capacity onto iminodiacetic acid/Chelex 100, bis-pyridylmethyl amine/Dowex m4195, and aminomethyl phosphonic/Lewatit TP260 functional groups in bioleaching. The results showed that Dowex m4195 had the highest performance of adsorption capacity for copper removal in both H+-form and Na+-form. Results for Lewatit TP260 and Chelex 100 revealed lower adsorption performance than results for Dowex m4195. The investigation of desorption from chelating resins was carried out, and it was found that 2 M ammonium hydroxide concentration provided the best desorption capacity of about 64.86% for the H+-form Dowex m4195 followed by 52.55% with 2 M sulfuric acid. Lewatit with 2 M hydrochloric acid gave the best desorption performance in Na+-form while Chelex 100 using hydrochloric at 1 M and 2 M provided similar results in terms of the H+-form and Na+-form. As aspects of the selective chelating resins for copper (II) ions in aqueous acidic solution generated from synthetic copper-citrate complexes from bioleaching of e-waste were considered, H+-form Dowex m4195 was a good performer in adsorption using ammonium hydroxide for the desorption. However, chelating resins used were subsequently reused for more than five cycles with an acidic and basic solution. It can be concluded from these results that selective chelating resins could be used as an alternative for the treatment of copper (II) ions contained in e-waste or application to other divalent metals in wastewater for sustainable water and adsorbent reuse as circular economy.
电子废物生物浸出合成柠檬酸铜配合物酸性水溶液中的选择性螯合树脂除铜回收
本研究重点是使用新一代螯合树脂通过离子交换过程进行批量实验,以描述生物浸出中亚氨基二乙酸/Chelex 100、双吡啶甲基胺/Doex m4195和氨基甲基膦酸/Lewatit TP260官能团的代谢吸附和解吸能力。结果表明,Dowex m4195对H+-形态和Na+-形态的铜具有最高的吸附性能。Lewatit TP260和Chelex 100的结果显示吸附性能低于Dowex m4195的结果。对螯合树脂的解吸进行了研究,发现2 M氢氧化铵浓度对H+形式的Dowex m4195提供了约64.86%的最佳解吸能力,其次是52.55%的2 M硫酸。Lewatit与2 M盐酸在Na+-形式下表现出最佳的解吸性能,而使用盐酸的Chelex 100在1 M和2 M在H+-形式和Na+-形式方面提供了类似的结果。考虑到对电子废物生物浸出合成柠檬酸铜络合物产生的酸性水溶液中铜(II)离子的选择性螯合树脂,H+-型Dowex m4195在使用氢氧化铵进行解吸的吸附中表现良好。然而,所使用的螯合树脂随后在酸性和碱性溶液中重复使用超过五个循环。从这些结果可以得出结论,选择性螯合树脂可以作为处理电子废物中所含铜(II)离子的替代品,或应用于废水中的其他二价金属,以实现可持续的水和吸附剂的循环经济再利用。
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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来源期刊
Adsorption Science & Technology
Adsorption Science & Technology 工程技术-工程:化工
CiteScore
5.00
自引率
10.30%
发文量
181
审稿时长
4.5 months
期刊介绍: Adsorption Science & Technology is a peer-reviewed, open access journal devoted to studies of adsorption and desorption phenomena, which publishes original research papers and critical review articles, with occasional special issues relating to particular topics and symposia.
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