Beneficial migration of sulfur element during scrap tire depolymerization with supercritical water: A molecular dynamics and DFT study
S Yan and DH Xia and XJ Liu, SCIENCE OF THE TOTAL ENVIRONMENT, 776, 145835 (2021).
DOI: 10.1016/j.scitotenv.2021.145835
Complete depolymerization of scrap tires (ST) to valuable oil products and fuel gas could be achieved by supercriticalwater (SCW) technology. For implementing this promising technology, migration mechanism of sulfur element during the entire ST-SCW depolymerization process was identified to reduce the sulfur pollutions. In the depolymerization process of ST, center dot OH radicals released from SCW molecules could enhance cleavage of C-S bonds, resulting sulfur-containing intermediates. The intermediates could be further oxidized by free center dot OH radicals and transformed into inorganic sulfur molecules mainly consisting of SO42-, S2O32-, SO32- and S2-. In this study, a combined ReaxFF-MD and DFT method was performed to study the detailed sulfur migration mechanism during ST depolymerization in the presence of SCW and provided a strategy to fix low-valent sulfur in aqueous solution for separation of sulfur fromthe oil & gas products. Thiswork provides a guidance to make ST-SCW technology cleaner and cheaper. (C) 2021 Elsevier B.V. All rights reserved.
Return to Publications page