A novel modified method for the efficient removal of Pb and Cd from wastewater by biochar: Enhanced the ion exchange and precipitation capacity

The purpose of this research was to improve the sorption ability of Pb and Cd by promoting the ion exchange and precipitation capacity of biochar. The adsorption performance and mechanisms of Pb and Cd in wastewater using coconut shell biochar modified with magnesium were investigated. After modification, the total adsorption capacity (Q(t)) of Pb and Cd on Mg-coated biochar (MgBC400) increased by 20 and 30 times compared with the unmodified biochar (BC400), respectively. The removal of Pb and Cd to biochar was attributed to ion exchange (Q(e)), mineral precipitation (Qp), interaction with oxygen functional groups (OFGs) [(Q(f))], and metal-pi electron coordination (Q(pi)). Compared with the BC400, the adsorption capacity of the four fractions of MgBC400 increased especially the ion exchange and precipitation. The Q(e) values of MgBC400 were almost 49 and 59 times that of BC400 in the adsorption of Pb and Cd, respectively. The Q(p) values of MgBC400 increased by 214.4 and 81.7 mg/g, respectively. Ion exchange and mineral precipitation dominated the adsorption of Pb and Cd by MgBC400 (C) 2020 Elsevier B.V. All rights reserved.

Automated summary

The study aimed to enhance the sorption ability of Pb and Cd by promoting ion exchange and precipitation capacities of biochar. Modification with magnesium significantly increased the adsorption capacity of Mg-coated biochar for Pb and Cd, dominantly through ion exchange and mineral precipitation mechanisms.