Page 167 - 《中国电力》2026年第3期
P. 167
程伟等:新型冲击水浴与喷雾弦栅复合式水浴除尘器性能分析 2026 年第 3 期
[11] 毛锐, 刘根凡, 邓翔, 等. 布袋除尘器结构改进的数值模拟研究 [J]. [21] 李刚, 姜伯洋, 胡方强, 等. 基于矿井风流运动特征的逸散粉尘喷雾
环境工程, 2015, 33(3): 77–81, 91. 除尘研究 [J]. 矿业安全与环保, 2025, 52(3): 39–46, 55.
MAO Rui, LIU Genfan, DENG Xiang, et al. Numerical simulation LI Gang, JIANG Bai, BOYANG, et al. Study on spray dust removal
study on structural development of bag filter[J]. Environmental of separated powder based on the movement characteristics of mine
Engineering, 2015, 33(3): 77–81, 91. air flow[J]. Mining Safety & Environmental Protection, 2025, 52(3):
[12] 安连锁, 王金平, 郦建国, 等. 中国燃煤电厂电除尘技术发展及应用 39–46, 55.
综述 [J]. 中国电力, 2018, 51(4): 115–123. [22] WANG P F, HAN H, LIU R H, et al. Effect of outlet diameter on
AN Liansuo, WANG Jinping, LI Jianguo, et al. Development and
atomization characteristics and dust reduction performance of X-swirl
application overview of electrostatic precipitation technology for
pressure nozzle[J]. Process Safety and Environmental Protection,
coal-fired power plant in China[J]. Electric Power, 2018, 51(4):
2020, 137: 340–351.
115–123.
[23] 丁厚成, 薛亚芹, 邓权龙, 等. 复配型表面活性剂协同无机盐增效弦
[13] 荆有印, 孙洪斌, 陈海平. 改进型水膜除尘器的研究与设计 [J]. 中
栅水膜除尘 [J]. 化工进展, 2025, 44(6): 3651–3658.
国电力, 1993, 26(1): 64–65.
DING Houcheng, XUE Yaqin, DENG Quanlong, et al. Composite
[14] 武文华. 水浴除尘器在锅炉房应用中的问题及改进 [J]. 工业安全
surfactants synergistically enhance the efficiency of inorganic salts in
与环保, 2008, 34(2): 10–11.
chord grid water film dust removal[J]. Chemical Industry and
WU Wenhua. Problems existed in the application of water bath dust
Engineering Progress, 2025, 44(6): 3651–3658.
remover in boiler room and some improvements[J]. Industrial Safety
[24] 温智超. 水浴弦栅水膜复合除尘装置实验研究 [D]. 湘潭: 湖南科
and Environmental Protection, 2008, 34(2): 10–11.
技大学, 2022.
[15] 贾超, 靳悦淼, 孟兴智, 等. 除尘器在工业生产中的应用与发展 [J].
WEN Zhichao. Experimental study on water bath string grid water
盐科学与化工, 2021, 50(7): 1–4.
film composite dust removal device[D]. Xiangtan: Hunan University
JIA Chao, JIN Yuemiao, MENG Xingzhi, et al. Application and
of Science and Technology, 2022.
development of dust collector in industrial production[J]. Journal of
[25] 刘益龙, 温智超. 水浴弦栅水膜复合除尘装置性能实验研究 [J]. 科
Salt and Chemical Industry, 2021, 50(7): 1–4.
技与创新, 2023(13): 97–100.
[16] 朱能天, 陈旺生, 黄董平, 等. 多孔介质湿式除尘器收集细颗粒物性
[26] 胥良. 浅谈湿电两级除尘器在沿海火力发电厂输煤系统中的应用
能研究 [J]. 金属矿山, 2021(10): 204–208.
优势 [J]. 清洗世界, 2019, 35(2): 52–53.
ZHU Nengtian, CHEN Wangsheng, HUANG Dongping, et al.
[27] 秦胜伟. 精铸厂粉尘综合治理方案 (水浴除尘)[C]//2009 重庆市铸
Research on the performance of porous media wet dust collector for
造年会论文集. 重庆, 2009: 270.
collecting fine particles[J]. Metal Mine, 2021(10): 204–208.
[28] 邓权龙, 丁厚成, 徐远迪, 等. 表面活性雾滴联合金属网栅增效除
[17] 邓有凡, 王伟黎, 巫亮, 等. 湿式除尘器优化设计研究 [J]. 矿业安全
尘 [J]. 化工进展, 2023, 42(1): 546–552.
与环保, 2016, 43(6): 25–28.
DENG Quanlong, DING Houcheng, XU Yuandi, et al. Synergistic
DENG Youfan, WANG Weili, WU Liang, et al. Research on
dust removal performance of surfactant droplets combined with metal
optimization design of wet dust collector[J]. Mining Safety &
mesh grid[J]. Chemical Industry and Engineering Progress, 2023,
Environmental Protection, 2016, 43(6): 25–28.
[18] 何青平. 水浴冲击式除尘器的设计与应用 [J]. 江西电力职业技术 42(1): 546–552.
[29] 郭华. 风井湿式弦栅水膜除尘理论及应用研究 [D]. 湘潭: 湖南科
学院学报, 2006, 19(3): 19.
[19] 李迁威, 陈旺生, 李泽, 等. 喷淋水浴除尘器除尘性能实验研究 [J]. 技大学, 2021.
工业安全与环保, 2018, 44(2): 85–88. GUO Hua. Theoretical and application research of wet string grid
LI Qianwei, CHEN Wangsheng, LI Ze, et al. Research on dust film dust removal in air shaft[D]. Xiangtan: Hunan University of
removal property of spray and immersion dust collector[J]. Industrial Science and Technology, 2021.
Safety and Environmental Protection, 2018, 44(2): 85–88. [30] 丁厚成, 连志虚, 邓权龙, 等. 振弦栅与高压喷雾协同作用下除尘特
[20] SZCZAP J, JUNG S, PAN L. Understanding the microscopic 性研究 [J]. 中国安全科学学报, 2021, 31(6): 106–112.
mechanism of clogging of both fibrous and mesh filters in flooded- DING Houcheng, LIAN Zhixu, DENG Quanlong, et al. Research on
bed wet scrubbers[J]. Fuel, 2024, 355: 129381. dust removal characteristics under synergistic action of vibrating wire
163
