Oxidation of Benzene by Persulfate in the Presence of Fe(III)- and Mn(IV)-Containing Oxides: Stoichiometric Efficiency and Transformation Products
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- 作者:Haizhou Liu ; Thomas A. Bruton ; Wei Li ; Jean Van Buren ; Carsten Prasse ; Fiona M. Doyle ; David L. Sedlak
- 刊名:Environmental Science & Technology
- 出版年:2016
- 出版时间:January 19, 2016
- 年:2016
- 卷:50
- 期:2
- 页码:890-898
- 全文大小:511K
- ISSN:1520-5851
文摘
Sulfate radical (SO4?-) is a strong, short-lived oxidant that is produced when persulfate (S2O82–) reacts with transition metal oxides during in situ chemical oxidation (ISCO) of contaminated groundwater. Although engineers are aware of the ability of transition metal oxides to activate persulfate, the operation of ISCO remediation systems is hampered by an inadequate understanding of the factors that control SO4?– production and the overall efficiency of the process. To address these shortcomings, we assessed the stoichiometric efficiency and products of transition metal-catalyzed persulfate oxidation of benzene with pure iron- and manganese-containing minerals, clays, and aquifer solids. For most metal-containing solids, the stoichiometric efficiency, as determined by the loss of benzene relative to the loss of persulfate, approached the theoretical maximum. Rates of production of SO4?– or hydroxyl radical (HO?) generated from radical chain reactions were affected by the concentration of benzene, with rates of S2O82– decomposition increasing as the benzene concentration increased. Under conditions selected to minimize the loss of initial transformation products through reaction with radicals, the production of phenol only accounted for 30%–60% of the benzene lost in the presence of O2. The remaining products included a ring-cleavage product that appeared to contain an α,β-unsaturated aldehyde functional group. In the absence of O2, the concentration of the ring-cleavage product increased relative to phenol. The formation of the ring-cleavage product warrants further studies of its toxicity and persistence in the subsurface.