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针对湿式静电除尘器在实际工程中存在内部烟气偏流的问题,利用Ansys fluent软件对某电厂300 MW机组侧出湿式静电除尘器(以下简称除尘器)内部流场分布特性进行模拟,对导致烟气偏流的关键因素进行预测,以入口烟气分布均匀性和维持系统压损为优化标准,对除尘器入口导流装置进行结构调整,并通过工程案例进行可行性验证。结果表明,在常规圆环形均流板上方铺设板条进行封堵,能够有效改善烟气偏流现象,提高烟气分布均匀性,阳极管束区域速度分布偏差系数CV由0.31降低至0.18,整体除尘效率由86.2%提高至92.4%。
Abstract:Aiming at the problem of internal flue gas bias flow of wet electrostatic precipitators in practical engineering, the Ansys fluent software is used to simulate the flow field distribution characteristics in the side-outlet wet electrostatic precipitator(hereinafter referred to as precipitator) of a 300 MW unit in a power plant. The key factors causing flue gas deviation are predicted, and the inlet guide device of the precipitator is adjusted based on the optimization criteria of inlet flue gas distribution uniformity and maintaining system pressure loss, and the feasibility verification is conducted through engineering cases. The results show that laying flat noodles above the conventional annular flow equalizer for plugging can effectively improve the flue gas bias and improve the uniformity of flue gas distribution. The deviation coefficient CVof velocity distribution in the anode tube bundle area is reduced from 0.31 to 0.18, and the overall dust removal efficiency is increased from 86.2% to 92.4%.
[1]贺建华.湿式静电除尘技术的发展及应用探讨[J].低碳世界,2020,10(7):30,32.HE Jianhua.Discussion on Development and Application of Wet Electrostatic precipitator Technology[J].Low Carbon World,2020,10(7):30,32.
[2]王润芳,马大卫,姜少毅,等.超低排放改造后燃煤电厂细颗粒物排放特征[J].环境科学,2020,41(1):98-105.WANG Runfang,MA Dawei,JIANG Shaoyi,et al.Fine Particulate Emission Characteristics of an Ultra-Low Emission Coal-Fired Power Plant[J].Environmental Sciencem,2020,41(1):98-105.
[3]高正来,周国山,沈东,等.湿式电除尘器与氨法脱硫协同脱除多种污染物效果研究[J].综合智慧能源,2020,42(1):25-28,40.GAO Zhenglai,ZHOU Guoshan,SHEN Dong,et al.Study on synergistic removal effect on multiple pollutants made by WESPand ammonia desulfurization system[J].Integrated Intelligent Energy,2020,42(1):25-28,40.
[4]陈坚,郑庄明,徐林,等.实现烟气超低排放标准的技术应用分析[J].应用能源技术,2019(5):39-40.CHEN Jian,ZHENG Zhuangming,XU Lin,et al.Technical Application Analysis of Ultra-Low Emission Standard of Flue Gas[J].Applied Energy Technology,2019(5):39-40.
[5]段守保,刘彩霞,王军.600 MW CFB锅炉大气污染物超低排放改造技术研究[J].东北电力技术,2020,41(5):18-24.DUAN Shoubao,LIU Caixia,WANG Jun.Research on Technical Route of Air Pollutants Ultra Low Emission Modification for 600 MW CFB Boiler[J].Northeast Electric Power Technology,2020,41(5):18-24.
[6]赵海宝,周冰,章永玮,等.超低排放燃煤电厂电除尘器运行性能分析[J].浙江电力,2019,38(9):38-42.ZHAO Haibao,ZHOU Bing,ZHANG Yongwei,et al.Operation Performance Analysis of Electrostatic Precipitators for Ultra-low Emission Coal-fired Power Plants[J].Zhejiang Electric Power,2019,38(9):38-42.
[7]王海舰.探究影响静电除尘器除尘效率的关键因素[J].科学技术创新,2020(4):171-172.
[8]黄杰,邹丽蓉.影响静电除尘器除尘效率的关键因素探究[J].电气技术与经济,2019(3):52-54.
[9]杨智慧,杨晓磊,胡志俊,等.新型水平式湿式静电除尘器中试研究[J].工程技术研究,2023,8(15):43-45.YANG Zhihui,YANG Xiaolei,HU Zhijun,et al.Research on the Pilotscale Experiment of the New Horizontal Wet Electrostatic Precipitator[J].Engineering and Technological Research,2023,8(15):43-45.
[10]吴华,郇庆超,杨春振,等.湿式电除尘器阴极线的仿真与优化研究[J].中国环保产业,2020(1):40-43.WU Hua,HUAN Qingchao,YANG Chunzhen,et al.Study on Simulation and Optimization of Cathode Line of Wet Electrostatic Precipitator[J].China Environmental Protection Industry,2020(1):40-43.
[11]赵亮,刘平元.烟气流速对湿式静电除尘器脱除PM10的影响[J].发电设备,2019,33(4):248-251.ZHAO Liang,LIU Pingyuan.Effects of Flue Gas Velocity on PM10 Removal by Wet Electrostatic Ptrcipitator[J].Power Equipment,2019,33(4):248-251.
[12]杨振民,黄超,王佳豪,等.表面活性剂对湿式静电除尘器工作性能影响[J/OL].环境工程:1-10[2021-09-23].http://kns.cnki.net/kcms/detail/11.2097.X.20201124.1749.010.html.
[13]闫东杰,庄倩,玉亚,等.烟气温度对电除尘器性能影响的数值模拟[J].中国环境科学,2021,41(6):2577-2585.YAN Dongjie,ZHUANG Qian,YU Ya,et al.Numerical Simulation of the effect of temperature on the performance of electrostatic precipitator[J].China Environmental Science,2021,41(6):2577-2585.
[14]王佳豪.电除尘器电极对流场和除尘效率的影响研究[D].天津:河北工业大学,2021.
[15]Ye X,Wang S,Zhang H,et al.Process simulation and optimization of flow field in wet electrostatic precipitator[J].Journal of Central South University,2020,27(1):132-143.
[16]石旭.300 MW发电机组湿式静电除尘技术SO3排放控制研究[J].综合智慧能源,2019,41(2):78-80.SHI Xu.Research on SO3emission control of 300MW generators by WESP technology[J].Integrated Intelligent Energy,2019,41(2):78-80.
[17]商振强.燃煤机组电除尘器入口烟道优化的仿真分析[J].煤质技术,2021,36(5):37-42.SHANG Zhenqiang.Numerical simulation of electric precipitator inlet flue for coal-fired boiler[J].Coal Quality Technology,2021,36(5):37-42.
[18]熊远南,汪永威,陈英武.电除尘器进口烟箱结构设计对气流分布的影响及数值模拟优化[J].综合智慧能源,2019,41(9):6-11.XIONG Yuannan,WANG Yongwei,CHEN Yingwu.Effect of smoke box structure at ESP inlet on gas flow distribution and optimization based on numerical simulation[J].Integrated Intelligent Energy,2019,41(9):6-11.
[19]莫伟军,刘行,邓红博,等.湿电除尘器优化设计及应用[J].节能与环保,2020(5):84-85.MO Weijun,LIU Hang,DENG Hongbo,et al.Optimum Design and Application of Wet Electrostatic Precipitator[J].Energy Conservation&Environmental Protection,2020(5):84-85.
[20]时超林,尹俊,郭士义,等.高烟气流速下湿式静电除尘器脱除细颗粒物的研究[J].上海电力学院学报,2019,35(1):72-76.SHI Chaolin,YIN Jun,GUO Shiyi,et al.Study on Removing Fine Particles of Wet Electrostatic Precipitator at High Gas Velocity[J].Journal of Shanghai University of Electric Power,2019,35(1):72-76.
[21]孙光玉,刘晓冰,周波,等.湿式静电除尘器CFD流场模拟及设计优化[J].江苏航运职业技术学院学报,2021,20(4):59-65.SUN Guangyu,LIU Xiaobing,ZHOU Bo,et al.CFD Flow Field Simulation and Design Optimization of Wet Electrostatic Precipitator[J].Journal of Jiangsu Shipping College,2021,20(4):59-65.
[22]马修元,孙尊强.燃煤机组电除尘器入口烟道流场优化数值模拟研究[J].环境工程技术学报,2023,13(3):965-972.MA Xiuyuan,SUN Zunqiang.Numerical simulation study on flow field optimization of electrostatic precipitator inlet flue duct in coal-fired units[J].Journal of Environmental Engineering Technology,2023,13(3):965-972.
[23]蒋华,蒲万里,陈欣.燃煤电站锅炉尾部烟道阻力特性数值模拟和优化研究[J].锅炉技术,2021,52(4):16-19.JIANG Hua,PU Wanli,CHEN Xin.Numerical Simulation and Optimization on Resistance Characteristics of Boiler Flue Gas Ducts in Coal Fired Power Plant[J].Boiler Technology,2021,52(4):16-19.
[24]叶兴联,王帅,张浩,等.湿式静电除尘器流场的过程模拟及优化[J].中南大学学报,2020,27(1):132-143.YE Xinglian,WANG Shuai,ZHANG Hao,et al.Process simulation and optimization of flow field in wet electrostatic precipitator[J].Journal of Central South University,2020,27(1):132-143.
[25]殷东.燃煤电厂静电除尘器除尘效率降低的原因分析以及解决措施研究[J].节能,2021,40(4):71-73.
[26]闫鑫.掺烧准东煤火电厂湿式电除尘器的技术改造研究[D].哈尔滨:哈尔滨工业大学,2022.
[27]王羽.大型燃煤电站锅炉空预器至脱硫塔段烟道流场优化研究[D].南京:东南大学,2020.
[28]申哲巍.火电机组调峰负荷分配研究[D].北京:华北电力大学,2013.
[29]杨昱,李旭凯,张雪飞,等.燃煤电厂电除尘器提效优化研究[J].节能,2022,41(8):14-17.
[30]何鹏飞,任凯,屈荷叶.湿式电除尘器在改造项目中的合理性设计[J].中国环保产业,2019(12):38-41.HE Pengfei,REN Kai,QU Heye.Rationality Design of Wet Electrostatic Precipitator in Reform Project[J].China Environmental Protection Industry,2019(12):38-41.
基本信息:
DOI:10.19929/j.cnki.nmgdljs.2023.0083
中图分类号:X773
引用信息:
[1]吴一帆,郭涵,张竣清等.侧出湿式静电除尘器流场优化研究[J].内蒙古电力技术,2023,41(06):43-49.DOI:10.19929/j.cnki.nmgdljs.2023.0083.
基金信息: