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Catalytic water phase processes as an environmental application is a relatively novel subject with tremendous potential in the near future. This review of 120 references presents the wide scale of heterogeneous water phase applications studied mainly within past five years. Both oxidation and hydrogenation processes are included as well as TiO2 assisted photocatalysis. According to the references, heterogeneous catalysis is developing rapidly. New bimetallic catalysts and supports with higher surface area have improved catalytic efficiency in both oxidation and hydrogenation processes. It also seems that study on use of some waste materials such as red mud as catalyst is a very progressive field. On the whole, the chemical aspects are pretty well known, but the catalyst durability, and in many cases activity as well, has to be improved. 相似文献
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超声-臭氧氧化处理硝基苯废水实验研究 总被引:12,自引:0,他引:12
在实验装置上对超声-臭氧氧化处理硝基苯废水进行了实验研究,主要考察了废水初始pH值、反应时间,臭氧通入量、超声功率等因素对硝基苯去除率的影响,实验结果表明,超声辐射可以在臭氧氧化过程中起加速反应的作用,而且随着超声功率的增大,加速反应的能力增强;废水初始pH值为11时硝基苯去除效果最佳;随着臭氧通入量的增大,反应时间的延长,硝基苯去除率不断增大;超声-臭氧处理硝基苯废水过程中硝基苯的降解规律为表现一级反应。 相似文献
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采用升流式厌氧污泥床—压力式好氧接触氧化工艺处理锦州九洋药业有限责任公司制药废水,该工艺技术成熟、处理效率高,运行稳定可靠。结果表明处理后的出水水质可以满足排放标准的要求。 相似文献
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Shunitz Tanaka Masayuki Kawai Yosuke Nakata Motoki Terashima Hideki Kuramitz Masami Fukushima 《毒物与环境化学》2013,95(4-6):95-102
The photo-Fenton reactions, which could yield hydroxyl radicals via the catalytic degradation of H2O2 by Fe(II), were focused as one of the abiotic degradation processes of bisphenol A (BPA) in surface waters. At pH 6, in the presence of H2O2 only, 32% of BPA was degraded after 120?min of irradiation. However, 97% of BPA was degraded in the presence of both H2O2 and Fe(II). Without light irradiation, no BPA degradation was observed even in the presence of Fe(II) and H2O2. These results show that photo-Fenton processes are effective in the natural attenuation of BPA in surface water. In addition, the presence of humic acids (HAs), which were of more aliphatic nature, resulted in enhancing BPA degradation via the photo-Fenton processes. Therefore, HAs can be one of the important factors in enhancing the degradation of BPA in surface water via the photo-Fenton processes. 相似文献