排序方式: 共有25条查询结果,搜索用时 171 毫秒
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尝试利用KMnO4 光氧化C6F6 脱氟,获得较好的脱氟效果.研究表明,溶液的pH 值、激光脉冲次数、KMnO4 的初始浓度、C6F6 的初始浓度等因素均会影响F-的生成率.酸性条件更有利于KMnO4 光氧化C6F6 脱氟.F-生成率随激光脉冲数的增加而单调上升.受到消光系数的影响, KMnO4 的浓度达到3.0×10-4mol/L 时,脱氟效率达到最佳. pH 值为0.5 的2.0×10-4 mol/L C6F6 与6.0×10-4mol/L KMnO4 的混合溶液在接受脉冲激光照射9000 次后,F-生成率可达1.61mol/mol C6F6.C6F6 的降解与MnO4-受激后产生的Mn(V)过氧复合物有关. 相似文献
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采用高级氧化技术,以Co2+为催化剂分解单过氧硫酸氢钾(PMS)所产生的强氧化性硫酸根自由基(SO4·-)降解水中的二氯喹啉酸(QC).考察了PMS用量、Co(Ⅱ)/PMS比值和Cl-浓度以及QC初始浓度对该均相Co(Ⅱ)/PMS体系降解QC的影响.结果表明,QC的降解遵循准一级动力学过程.当QC初始浓度在0.02~0.2mmol/L时,QC的降解速率随着QC/PMS比值的降低而增大,但当QC/PMS比值小于1/100时,则相反.QC的降解速率随着PMS浓度升高而线性增大,当PMS浓度为32mmol/L时,4h内QC的降解率可达94%.增大Co(Ⅱ)/PMS的摩尔比能够促进QC的降解,而Cl-对QC的降解有一定的抑制作用.LC/MS分析结果表明,3,7-二氯-8-羟基喹啉和7-氯-8-喹啉甲醛为QC降解过程中两种主要的中间产物. 相似文献
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DING Yu MIAO Jin-lai LI Guang-you WANG Quan-fu KAN Guang-feng WANG Guo-dong 《环境科学学报(英文版)》2005,17(4):667-671
Glutathione(GSH) and GSH-related enzymes play a great role in protecting organisms from oxidative damage. The GSH level and GSH-related enzymes activities were investigated as well as the growth yield and malonyldialdehyde(MDA) content in the Antarctic ice microalga Chlamydomonas sp. ICE-L exposure to the different cadmium concentration in this paper. The results showed that the higher concentration Cd inhibited the growth of ICE-L significantly and Cd would induce formation of MDA. At the same time, it is clear that GSH level, glutathione peroxidases(GPx) activity and glutathione S-transferases(GST), activity were higher in ICE-L exposed to Cd than the control. But GR activity dropped notably when ICE-L were cultured in the medium containing Cd. Increase of GSH level, GPx and GST activities acclimate to oxidative stress induced by Cd and protect Antarctic ice microalga Chlamydomonas sp. ICE-L from toxicity caused by Cd exposure. These parameters may be used to assess the biological impact of Cd in the Antarctic pole region environment. 相似文献
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采用在线仪器监测分析2017年冬季天津气象铁塔220m观测平台大气中过氧乙酰硝酸酯(PAN)的体积浓度,并结合污染物资料、气象观测资料和后向轨迹分析造成PAN高值的影响因素.观测期间天津城区大气中PAN的体积浓度平均值为(0.57±0.54)×10-9,PAN体积浓度存在2个峰值,大体上对应着2次重污染过程.PAN与O3间不存在明显的相关性,但与PM2.5质量浓度相关性较好,表明光化学反应并非影响冬季PAN浓度的唯一因素,后向轨迹的聚类分析以及改进的静稳指数显示远距离输送和本地积累对PAN浓度的时空分布发挥了较大作用.对观测期间一次重污染天气过程中温度、相对湿度和风的垂直廓线,以及混合层厚度等气象条件的分析表明,PAN浓度上升既受到区域输送影响,也与静稳天气下的污染物积累有关. 相似文献