Water Science and Technology (May 2022)

Degradation of methyl orange by pyrite activated persulfate oxidation: mechanism, pathway and influences of water substrates

  • Hui Liu,
  • Fenwu Liu,
  • Jian Zhang,
  • Jiaxing Zhou,
  • Wenlong Bi,
  • Junmei Qin,
  • Qingjie Hou,
  • Yue Ni,
  • Shaozu Xu,
  • Chen Yang

DOI
https://doi.org/10.2166/wst.2022.134
Journal volume & issue
Vol. 85, no. 10
pp. 2912 – 2927

Abstract

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Degradation mechanism of methyl orange (MO), a typical azo dye, with pyrite (FeS2) activated persulfate (PS) was explored. The results showed that when the initial concentration of MO was 0.1 mM, FeS2 was 1.6 g/L and PS was 1.0 mM, the removal rate of MO could reach 92.9% in 150 min, and the removal rate of total organic carbon could reach 14.1%. In addition, both pH ≤ 2 and pH ≥ 10 could have an inhibitory effect in the FeS2/PS system. Furthermore, Cl− and low concentrations of had little effect on the degradation of MO with FeS2/PS. However, and high concentrations of could inhibit the degradation of MO in the system. Besides, MO in river water and tap water were not degraded in FeS2/PS system, but acidification (pH = 4) would greatly promote the degradation. In addition, the removal rate of MO with FeS2/PS could still reach about 90% after five cycles of FeS2. Furthermore, the intermediates and possible degradation pathways were speculated by LC-MS, and the degradation mechanism of MO by FeS2/PS was that the cycle of Fe(III)/Fe(II) could continuously activate persulfate to produce . The results could provide technical support for azo dye degradation in the FeS2/PS system. HIGHLIGHTS FeS2/PS system could effectively remove methyl orange.; Acification (pH = 4) could promote the degradation of methyl orange in river water by a FeS2/PS system.; FeS2 could be recycled for activation of PS.;

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