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Luo Yinfei Xiao Yong Hao Qichen Zhang Yunhui Zhao Zhen Wang Shengbin Dong Gaofeng 《Environmental science and pollution research international》2021,28(35):48312-48329
Environmental Science and Pollution Research - Groundwater resource is significantly important for sustainable development of the world, especially for arid endorheic watersheds. A total of 28... 相似文献
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Cu–Mn, Cu–Mn–Ce, and Cu–Ce mixed-oxide catalysts were prepared by a citric acid sol–gel method and then characterized by XRD, BET, H2-TPR and XPS analyses. Their catalytic properties were investigated in the toluene combustion reaction. Results showed that the Cu–Mn–Ce ternary mixed-oxide catalyst with 1:2:4 mole ratios had the highest catalytic activity, and 99% toluene conversion was achieved at temperatures below 220°C. In the Cu–Mn–Ce catalyst, a portion of Cu and Mn species entered into the CeO2 fluorite lattice, which led to the formation of a ceria-based solid solution. Excess Cu and Mn oxides existed on the surface of the ceria-based solid solution. The coexistence of Cu–Mn mixed oxides and the ceria-based solid solution resulted in a better synergetic interaction than the Cu–Mn and Cu–Ce catalysts, which promoted catalyst reducibility, increased oxygen mobility, and enhanced the formation of abundant active oxygen species. 相似文献
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Cu–Mn, Cu–Mn–Ce, and Cu–Ce mixed-oxide catalysts were prepared by a citric acid sol–gel method and then characterized by XRD, BET, H_2-TPR and XPS analyses. Their catalytic properties were investigated in the toluene combustion reaction. Results showed that the Cu–Mn–Ce ternary mixed-oxide catalyst with 1:2:4 mole ratios had the highest catalytic activity, and 99% toluene conversion was achieved at temperatures below 220°C. In the Cu–Mn–Ce catalyst, a portion of Cu and Mn species entered into the Ce O_2 fluorite lattice, which led to the formation of a ceria-based solid solution. Excess Cu and Mn oxides existed on the surface of the ceria-based solid solution. The coexistence of Cu–Mn mixed oxides and the ceria-based solid solution resulted in a better synergetic interaction than the Cu–Mn and Cu–Ce catalysts, which promoted catalyst reducibility, increased oxygen mobility, and enhanced the formation of abundant active oxygen species. 相似文献
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水蒸气对改性椰壳活性炭吸附VOCs的影响 总被引:1,自引:0,他引:1
选取甲苯、甲基丙烯酸甲酯、吡啶3种不同极性的有机物作为吸附质,改性椰壳活性炭作为吸附剂,使用穿透曲线法研究了水蒸气对这3种VOCs在活性炭上吸附行为的影响,并同时讨论了水蒸气预处理对活性炭吸附的影响。结果表明,改性椰壳活性炭对3种有机废气均具有良好的吸附性能,但水蒸气的存在对极性小的甲苯吸附影响较大,尤其当甲苯浓度较低时,水分子易与甲苯产生竞争吸附。在对活性炭吸湿预处理后发现,吡啶、甲基丙烯酸甲酯分子可以置换出活性炭预先吸附的水分子,并且通过低温水蒸气加热再生法可以方便地完成活性炭再生过程,重复再生率可以维持在85%。 相似文献
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催化氧化-还原吸收法脱除工业含湿废气中NOx 总被引:4,自引:1,他引:3
基于精细化工、制药行业排出 NOx 废气氧化度低、氧气含量高的特点,提出以改性活性炭(MAC)为催化剂的催化氧化-还原吸收脱除 NOx 的方法.考察了相对湿度、氧化温度、氧化时间对 NO 催化氧化以及还原液种类对 NOx 吸收的影响.结果表明,随着相对湿度的增加 NO 转化率急剧下降,但随着氧化时间的延长有所提高;干气条件下,随着温度升高,NO 转化率下降;湿气条件下,NO 氧化反应最佳反应温度范围为 50~70℃,实验条件下的 NO 最高转化率可达 51%;还原液种类中以尿素-碱液对 NOx 和 NO 的吸收效果最好,亚硫酸铵-碱液对 NOx 的吸收效果最好.通过催化氧化-还原吸收的多级组合可实现 NOx 的有效脱除与达标排放. 相似文献
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全硅β分子筛催化氧化NO性能研究 总被引:1,自引:0,他引:1
针对NO氧化催化剂抗水汽性差、活性温度高等问题,本研究采用疏水型全硅β分子筛为催化剂,在NO进口浓度为0.05%(体积分数)、O2浓度为20.7%(体积分数)条件下,考察了反应温度(20~60℃)、相对湿度(0%~100%)、空速(360 h-1~20 000 h-1)等因素对NO催化氧化的影响。研究结果表明,随着反应温度升高,干气和湿气下NO氧化率都下降,低温有利于NO氧化;在20℃,空速为20 000 h-1条件下,相对湿度从0%增大到100%时,NO氧化率从49%下降到34%。反应温度升高会抑制水汽对NO氧化的影响。240 h催化剂稳定性实验结果表明,在30℃,NO进口浓度为0.05%,空速为7 200 h-1时,干气和饱和水汽下的NO氧化率分别能稳定地维持在67%和56%水平,说明全硅β分子筛即使在饱和水汽下也具有良好的稳定性及抗水汽性。 相似文献
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