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Structure optimization of vessel SCR based on CFD and RSM

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ã€Authorã€‘ Fu Yihua;Chen Xi;Zhong Wenqi;Zhan Jincheng;Key Laboratory of Energy Thermal Conversion and Control of Ministry of Education, Southeast University;School of Energy and Environment, Southeast University;

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ã€Abstractã€‘ It is crucial to optimize the vessel selective catalytic reductionï¼ˆSCRï¼‰ structure to meet compact ship space. In the current study, a marine SCR system was studied based on computational fluid dynamicsï¼ˆCFDï¼‰ and response surface methodï¼ˆRSMï¼‰. The effects of the catalyst size and the distance between mixing chamber and nozzle on de-NO_x efficiency, and the ammonia slip was studied in detail. CFD data were used as samples for the response function fitting, and the structure of SCR was miniaturized by determining the extreme value of the response function. Simulation results indicate that the mixing chamber can enhance the mixture of urea and exhaust gas. The denitrification efficiency and the ammonia slip increase and decrease with the decrease of SCR catalyst size. The size of the catalyst after RSM optimization can be reduced by 15.9% to 45.2%, the most suitable mixing chamber position is 1.70 to 2.39 m from the nozzle. Under this circumstance, the de-NO_x efficiency is over 90%, and the ammonia slip mass is less than 5Ã—10^-6.æ›´å¤š è¿˜åŽŸ