过氧二硫酸盐
硫酸盐
激进的
化学
氧气
光化学
离子
污染物
过程(计算)
无机化学
有机化学
催化作用
计算机科学
操作系统
作者
Guang Li,Yiqiao Zhang,Xue Zhang,Jian Zhang,Bo Sun
标识
DOI:10.1021/acs.est.4c06675
摘要
This study delves into the formation of ferryl ions (Fe(IV)) within the Fe(II)/peroxydisulfate (PDS) process, a pivotal reaction in advanced oxidation processes (AOPs) aimed at organic pollutant removal. Our findings challenge the conventional view that Fe(IV) predominantly forms through oxygen transfer from PDS to Fe(II), revealing that sulfate radicals (SO4•–) play a crucial role in Fe(IV) generation. By employing competitive kinetics, the second-order rate constant for Fe(III) oxidation by SO4•– was quantified as 4.58 × 108 M–1 s–1. Factors such as the probe compound concentration, chloride presence, and iron species influence Fe(IV) generation, all of which were systematically evaluated. Additionally, the study explores Fe(IV) formation in various Fe(II)-activated AOPs, demonstrating that precursors like peroxymonosulfate and H2O2 can also directly oxidize Fe(II) to Fe(IV). Through experimental data, kinetic modeling, and oxygen-18 labeling experiments, this research offers a comprehensive understanding of the Fe(II)/PDS system, facilitating the optimization of AOPs for pollutant degradation. Finally, introducing HSO3– was proposed to shift the Fe(II)/PDS process from Fe(IV)-dominated to SO4•–-dominated mechanisms, thereby enhancing pollutant removal efficiencies.
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