新型移动式除霾器芒刺-芒刺模型设计
New type prick-prick model design applied to mobile haze eliminator
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摘要: 大部分传统除霾器体积大,需高压电源供电,可移动性差。因此,基于经典法设计了一种新型移动式静电除霾器。在拟定集霾板尺寸的前提下,对于除霾效率为90%的除霾器计算出其荷电电场强度E0约为18.95 kV·m-1。为了使用低压电源得到该高强度电场,建立了芒刺-芒刺移动静电除霾器模型,并利用Ansoft软件对其空间电场分布进行仿真分析。理论分析及仿真结果表明,在使用30 V的直流电源供电时,模型空间场强分布高于18.95 kV·m-1的区域达90%以上,满足雾霾颗粒极化和吸附的条件。同时,制作实物模型并进行除霾实验,实验结果可知实际除霾效率达到88.31%,达到预期效果。所设计的移动式静电除霾器对于清除雾霾具有明显效果,为雾霾清除开创了一种全新的模式,具有重大的工程应用价值。Abstract: To reduce the large size, high voltage requirement, and immobility of most traditional haze eliminators, this study, through the classical method, designed a new type of movable equipment to eliminate haze.With a predetermined size and an efficiency of haze elimination of 90%, charged electric field intensity, E0, was calculated as 18.95 kV·m-1.For the creation of E0 by a low voltage source, this study designed a prick-prick model and then simulated the distribution of an electric field in space on the Ansoft.Theoretical analysis and simulation results found that, when supplied by a 30 V DC power supply, the electric field exceeds an area of 18.95 kV·m-1 and accounts for 90% of the volume of the model.Thus, the requirements are met for the electric field to achieve polarization and adsorption of the haze particles.Based on the model, we constructed a haze eliminator with an efficiency of haze elimination over 88.31% that meets the presupposing.In this study, the movable haze eliminator obviously eliminated haze, thus providing an entirely new means of haze elimination.In addition, it offers a great value in terms of engineering applications.
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Key words:
- haze eliminator /
- mobility /
- tip effect /
- prick-prick model
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[1] 郭新彪,魏红英.大气PM2.5对健康影响的研究进展[J].科学通报,2013,58(13):1171-1177 [2] 李二欣,段琳琳.基于静电除尘器本体完整性降低PM2.5排放的改造技术研究[C].第15届中国电除尘学术会议论文集,2013:98-101 [3] 苏美先.空气净化器的研究和设计[D].广州:广州工业大学,2014 [4] 张东阳,孟力军,杜继石.一种利用声波消除雾霾的方法,中国:CN201410089188.1[P].2014.06.25 [5] 赵华,吕清,陈嘉兴,等.利用大功率微波电磁波消除雾霾的装置,中国:201510127056[P].2015.03.23 [6] 向晓东.现代除尘理论与技术[M].武汉:冶金工业出版社,2002:217 [7] 郝吉明,贺克斌,晁红勋,等.电除尘器电场分布特性的模拟计算[J].环境科学学报,1988,8(4):480-487 [8] 张建平,杜玉颖,戴咏夏,等.静电除尘器粉尘运动轨迹的数值模拟与分析[J].环境工程,2011,29(2):78-81 [9] 孟祥英.电除尘高压电源改造技术探讨[J].应用能源技术,2012(2):34-36 [10] 郭尹亮.双极芒刺电除尘机理与应用技术研究[D].沈阳:东北大学,2010:5-13 [11] 包可宏,方辉.保证移动电极静电除尘器稳定运行的设计关键[C].中国硅酸盐学会环保学术年会论文集,2012 [12] JAWOREK A, KRUPA A, CZECH T.Modern electrostatic devices and methods for exhaust gas cleaning:A brief review[J].Journal of Electrostatics,2007,65(3):133-155 [13] 魏文深.电除尘高压电源效能分析[C].中国硅酸盐学会环保学术年会论文集,2012 [14] 李卓函.高效电除尘器高压电源设计及节能优化控制[D].大连:大连理工大学,2014:20-22 [15] ZHU J B, ZHAO Q X, YAO Y P, et al.Effects of high-voltage power sources on fine particle collection efficiency with an industrial electrostatic precipitator[J].Journal of Electrostatics,2012,70(3):285-291 -
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