Affiliation:
1. Green and Sustainable Engineering Lab Department of Chemical Engineering IIT Delhi Hauz Khaz Delhi 110016 India
2. School of Chemical and Process Engineering University of Leeds Leeds LS29JT United Kingdom
3. Department of Chemical Engineering IIT Roorkee Roorkee 247667 India
Abstract
AbstractWaste PCBs the core of e‐waste is rich in copper, tin, zinc, iron, and nickel. Leaching base metals from PCB used to be done in toxic, corrosive acidic/alkali mediums. In this work, an environmentally friendly method for leaching metals from thermally treated PCBs (TPCBs) of mobile phones was proposed using choline chloride based deep eutectic solvents (DES). DES selectivity and solubility of metals from metal oxides were the main screening criteria. FA−ChCl had the maximum solubility of Cu, Fe, and Ni, while Urea−ChCl had high Zn selectivity and solubility. Oxalic acid has high selectivity for Sn. FA−ChCl extracted Cu and Fe best at 16 h, 100 °C, and 1/30 g/mL. Urea−ChCl extracted Zn (90.4±2.9 %) from TPCBs at 100 °C, 21 h, 1/20 g/mL, and 400 rpm. Oxalic acid (1 M) removed 92.3±2.1 % Sn from TPCBs in 1 h at 80 °C and 1/20 g/mL. The shrinking core model‐based kinetic investigation of FA−ChCl for Cu extraction showed a diffusion‐controlled process. The proposed method is greener than mineral acids utilized for metal extraction.
Subject
General Energy,General Materials Science,General Chemical Engineering,Environmental Chemistry
Reference84 articles.
1. G. Chauhan P. J. Kaur K. K. Pant K. D. P. Nigam Sustainable Metal Extraction from Waste StreamsWiley 2020.
2. V. B. Forti C. P. Kuehr G. R. Bel United Nations University (UNU)/United Nations Institute for Training and Research (UNITAR) International Telecommunication Union (ITU) & International Solid Waste Association (ISWA) Bonn/Geneva/Rotterdam 2020 p. 120.
3. Electronic waste generation, regulation and metal recovery: a review
4.