(1.Civil and Environment Engineering School, University of Science and Technology Beijing,Beijing 100083, China 2.Solid Waste and Chemicals Management Center, Ministry of Environmental Protection, Beijing 100029, China)
Abstract:A gas exhausting simulation experimental device was designed and manufactured. In this system, UV was used to motivate the generation of active group from H2O2 so as to removal NO from gas by oxidation process. Different removal effects were studied, which were impacted by factors including concentration of H2O2, initial concentration of NO, concentration of O2, temperature of H2O2 solution, concentration of metal ionic catalyst, gas flow, etc. Orthogonal experiments were undertaken to obtain the best technological condition of this system. The analysis of the reaction product shows that the major constituent in the last reaction solution were NO-3、NO-2、Fe3+ and superfluous H2O2. Under the best technological condition, orthogonal experiments show that the removal effect of NO could reach 88.6% which exceeds that of the other technologies. The result of this study shows good application value.
赵荣志 梁宝瑞 陈瑛 宋存义 童震松 冷廷双. 基于过氧化氢-紫外体系对NO脱除的试验研究[J]. 中国冶金, 2014, 25(07): 55-59.
ZHAO Rong-zhi,LIANG Bao-rui,CHEN Ying,SONG Cun-yi,TONG Zhen-song,LENG Ting-shuang. Experimental Study on Removal of NO Based on H2O2/UV System. China Metallurgy, 2014, 25(07): 55-59.
2014, Vol. 25 
