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The O3/H2O2 advanced oxidation process (AOP) was, for the first time, utilized for low-temperature NOX removal. The present method has a high NOX removal, which is 58% higher than the sum of that for single O3 and H2O2 method with O3/NO molar ratio of 0.5. Besides, much O3 consumption, together with operating costs will be saved. The improved activity in O3/H2O2 is due to the increased generation...
This study aimed at investigating the photocatalytic oxidation removal of NO from the flue gas of coal-fired boilers by H2O2/UV (UV is ultraviolet radiation) reaction over TiS catalyst. The effects of different catalysts and gas composition on the oxidation of NO were investigated. We found that the S doped titania (TiO2) catalyst could clearly improve the NO oxidation, compared with TiO2 and no catalyst...
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