摘要
燃煤机组为实现超净排放,通常会进行除雾和除尘等设备的改造,致使烟道总阻力升高超出原引风机的工作范围。采用计算流体力学(CFD)数值模拟的方法对烟道阻力进行计算并对其优化改进,结果表明:机组负荷为600 MW工况下,空气预热器出口至引风机入口烟道A侧改造后阻力可下降262.0 Pa,B侧烟道段改造后阻力可下降276.4 Pa。且在机组变工况运行时,烟道改造的降阻效果依然较为显著。
In order to achieve ultra-clean emissions,the transformation of defogging and dust removal equipment in coal-fired units is usually carried out,which causes that the total resistance of the flue gas rises and exceeds the working range of the original induced draft fan.The computational fluid dynamics(CFD)numerical simulation method is adopted to calculate and to optimize the flue gas resistance,and the optimized results show that:under the load of 600 MW,the side A resistance of the flue gas duct(between the air preheater and the draft fan)decreases by 262.0 Pa,and the side B resistance of the flue gas duct decrease by 276.4 Pa.And in the off-design conditions,the optimization is also effective.
作者
蒋华
蒲万里
陈欣
JIANG Hua;PU Wanli;CHEN Xin(CPI Shentou Electric Co. , Ltd. , Shuozhou 036800, China;Power China Turbo Technologies Co. , Ltd. , Chengdu 610045, China)
出处
《锅炉技术》
北大核心
2021年第4期16-19,共4页
Boiler Technology
关键词
火电厂
烟气管道
阻力特性优化
数值模拟
CFD
power plant
flue gas duct
optimization of resistance characteristics
numerical simulation
CFD
作者简介
蒋华(1975-),男,高级工程师,主要从事火电厂工程管理与生产管理及行业标准审查等工作。
