Effectively weakening the bond strength of Zn-S in S-Zn-S on ZnS is of great significance to the improvement of its performance for the urgent disposal of liquid Hg0 leakage indoors. In this work, ZnS was loaded on three common supports (i.e., TiO2, SiO2, and Al2O3) to further improve its performance for capturing high concentrations of Hg0 indoors. After being loaded on TiO2, the S-Zn-O bond was present on ZnS, and the bond strength of Zn-S in S-Zn-O was significantly weaker than that in S-Zn-S because Zn2+ preferred to O2- than S2-. Hence, physically adsorbed Hg0 was much easier to bond with S in S-Zn-O than that in S-Zn-S to form HgS. Therefore, TiO2 showed a novel support effect on ZnS for Hg0 capture, and the Hg0 capture performance of ZnS/TiO2 was greatly better than those of ZnS, ZnS/SiO2, and ZnS/Al2O3. Moreover, the promotion mechanism of ZnO loading on Hg0 adsorption onto TiO2-S was discovered after comparing the Hg0 adsorption kinetic parameters of TiO2-S and ZnS/TiO2. The promotion of ZnO loading was primarily related to the notable increase in the content of S2- that can bond with physically adsorbed Hg0, which predominantly resulted from the strong interaction of ZnO/TiO2 with H2S.
Keywords: Adsorption kinetics; Hg(0) capture; Liquid Hg(0) leakage indoors; Novel support effect; ZnS/TiO(2).
Copyright © 2020 Elsevier B.V. All rights reserved.