本文对Fenton法与类Fenton法降解土壤中的二苯砷酸( diphenylarsinic acid,DPAA)进行了研究.考察了H2 O2投加量和催化剂种类( Fe2+/Fe3+)对红壤及黑土中DPAA降解效果的影响,并采用高效液相色谱?质谱联用法( HPLC?MS/MS)对降解中间产物进行了初步鉴定.结果显示,针对红壤与黑土分别采用类Fenton法与Fenton法,在H2 O2投加浓度为1 mol·L-1,含铁催化剂浓度为0.25 mol·L-1,土水比为1∶3,反应时间为1 h的条件下,红壤及黑土中DPAA的降解率均可达到65%以上. HPLC?MS/MS的分析结果表明,DPAA可脱苯环形成降解产物苯砷酸( phenylarsinic acid,PAA),而PAA进一步氧化生成无机砷,这可能是Fenton /类Fenton法降解DPAA的途径之一.
Degradation of diphenylarsinic acid ( DPAA) in soil by Fenton and Fenton?like reactions was studied in this paper. The influence of H2O2 dosage and catalyst species (i.e., Fe2+, Fe3+) on the degradation efficiency of DPAA in Acrisol and Phaeozem was investigated. High performance liquid chromatography coupled with tandem mass spectrometry ( HPLC?MS/MS) was employed to identify the degradation intermediates. The results showed that under the preparation conditions of initial H2O2 dosage of 1 mol·L-1, iron catalyst dosage of 0.25 mol·L-1, soil?water ratio of 1∶3 and reaction time of 1 h, more than 65% DPAA in Acrisol and Phaeozem were removed by Fenton?like oxidation and Fenton oxidation. HPLC?MS/MS analysis demonstrated that DPAA was degraded to phenylarsinic ( PAA ) by dephenylation, and subsequently partially oxidized to form inorganic arsenic, which may be one possible degradation pathway of DPAA during Fenton and Fenton?like reactions.
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