In this study, ice and water samples were collected from seven sites along the Baotou section of the Yellow River during winter 2013. Total polycyclic aromatic hydrocarbon (PAH) concentrations in the ice and in the water under the ice ranged from 21.3 to 59.4 ng L-1, and from 38.3 to 222.4 ng L-1, respectively. The average concentration in water under the ice was approximately 2.5 times greater than the average concentration in the ice phase. Four-ring PAHs dominated and accounted for 68.2 and 76.0 % of the total PAHs in ice and water, respectively. PAH concentrations were highest at sampling site S2 and were also relatively high at sites S4 and S5. PAH sources in ice and in water under the ice were similar. Three components were selected to represent the coal-combustion sources of PAHs. Because it was the main pollutant, and its concentrations were the highest, we examined the photodegradation behavior of fluoranthene and investigated the effects of light-sensitive materials (H2O2, acetone, and sediment) on fluoranthene photodegradation in the ice phase. Results showed that low H2O2 concentrations promoted photoconversion in the initial stage of the reaction and that degradation rates decreased later in the reaction. Likewise, high H2O2 concentrations promoted photoconversion. As acetone concentrations increased, the rates of fluoranthene-degradation decreased. Sediments may also have decreased the degradation rate of fluoranthene.
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机译:在这项研究中,2013年冬季从黄河包头段的七个地点采集了冰和水样本。冰中和冰下水中的多环芳烃(PAH)总浓度范围为21.3至59.4 ng L -1和3-1到222.4 ng L-1。冰下水中的平均浓度约为冰相中平均浓度的2.5倍。在冰和水中,四环PAH占主导地位,分别占总PAH的68.2%和76.0%。 PAH浓度在采样点S2最高,在采样点S4和S5也相对较高。冰中和冰下水中的PAH来源相似。选择了三个成分来代表多环芳烃的燃煤来源。因为它是主要污染物,并且其浓度最高,所以我们研究了荧蒽的光降解行为,并研究了感光材料(H2O2,丙酮和沉积物)对冰相中荧蒽的光降解的影响。结果表明,低浓度的H2O2在反应的初始阶段促进了光转化,而降解速率在反应的后期下降。同样,高H2O2浓度促进了光转化。随着丙酮浓度的增加,荧蒽的降解速率降低。沉积物也可能降低了荧蒽的降解速率。
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