Abstract: In order to explore the influence of flow field and component concentration distribution on the denitrification efficiency and ammonia escape of SNCR device, and improve the denitrification performance of the device, a three-dimensional computational fluid dynamics model of the boiler denitrification system was established by computational fluid dynamics (CFD) simulation method, and numerical simulation was carried out. By simulating the selective non-catalytic reduction (SNCR) denitrification process of a circulating fluidized bed boiler of a 350MW unit in a plant, the effects of spray gun position, ammonia nitrogen ratio, ammonia spray angle and droplet size on SNCR denitrification effect were studied, and the SNCR denitrification system of the boiler was optimized. The results show that the denitrification efficiency increases with the increase of the molar ratio of ammonia to nitrogen after adjusting to the symmetrical spray gun arrangement. The increase of ammonia spraying speed and the increase of atomized particle size of reducing agent also have a certain impact on the denitrification efficiency and ammonia escape. After the optimization of the boiler SNCR system and operating parameters, the maximum denitrification efficiency reached 79.09%. The results of this study are helpful to improve the denitrification efficiency and provide an important reference for the actual transformation design.
李杰, 甘树坤. 基于Fluent循环流化床锅炉SNCR系统模拟及优化研究[J]. 吉林化工学院学报, 2024, 41(11): 47-53.
LI Jie, GAN Shukun. Simulation and Optimization of SNCR System based on Fluent Circulating Fluidized Bed Boiler. Journal of Jilin Institute of Chemical Technology, 2024, 41(11): 47-53.
