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   Optimization and Modeling of Cuox/Omwnt’S For Catalytic Reduction of Nitrogen Oxides By Response Surface Methodology  
نویسنده Pourkhalil Mahnaz
منبع Iranian Journal Of Oil And Gas Science And Technology - 2019 - دوره : 8 - شماره : 1 - صفحه:47 -59
چکیده    A series of copper oxide (cuox) catalysts supported by oxidized multi-walled carbon nanotubes (omwnt’s) were prepared by the wet impregnation method for the low temperature (200 °c) selective catalytic reduction of nitrogen oxides (nox) using nh3 as a reductant agent in the presence of excess oxygen. these catalysts were characterized by ftir, xrd, sem-eds, and h2-tpr methods. the response surface methodology was employed to model and optimize the effective parameters in the preparation of cuox/omwnt’s catalysts in nox removal by nh3-scr process. three experimental parameters, including calcination temperature, calcination time, and cuox loading were chosen as the independent variables. the central composite design was utilized to establish a quadratic model as a functional relationship between the conversion of nox as a response factor and independent variables. the anova results showed that the nox conversion is significantly affected by calcination temperature and cuox loading. at the optimal values of the studied parameters, the maximum conversion of nox, 86.3 %, was obtained at a calcination temperature of 318 °c, a calcination time of 3.4 hr., and cuox loading of 16.73 wt.%; the reaction conditions was as follows: t= 200 °c, p= 1 bar, no = nh3 = 900 ppm, o2 = 5 vol.%, and ghsv = 30,000 hr^−1. the regression analysis with an r² value of 0.9908 revealed a satisfactory correlation between the experimental data and the values predicted for the conversion of nox. the xrd and h2-tpr results of the best catalyst showed that the formation of cuo as the dominant phase of cuox is the key factor in low temperature selective catalytic reduction (scr) process.
کلیدواژه Cuox/Omwnt’S ,Selective Catalytic Reduction ,Nitrogen Oxides ,Response Surface Methodology ,Optimization
آدرس Research Institute Of The Petroleum Industry, Nanotechnology Research Center, Iran
پست الکترونیکی pourkhalilm@ripi.ir

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