Key Factors Affecting the Corona Onset Voltage of Electrostatic Precipitator Electrodes

2021 IEEE 16th Conference on Industrial Electronics and Applications (ICIEA) Pub Date : 2021-08-01 DOI:10.1109/ICIEA51954.2021.9516427

Xin Cao, Chang-yun Li, Hongwei Yan, Qingtao Hou, Jiahua Dong, W. Wang

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Abstract

In this paper, based on COMSOL simulation,a simulation model of corona initiation for angular electrodes with different number of tips (quadrangular, hexagonal, octagonal), tip thickness (0.3 cm, 0.5 cm, 0.8 cm), and angle (10.72°, 16°, 20.72°) is established to investigate the effect of changes in the geometry of angular electrodes. The effect of the change of the angle electrode geometry on the corona onset voltage is investigated. By introducing the concept of equivalent radius, the effect of geometric variations in the number of tips, thickness and angle on the corona onset voltage was quantified. It was found that as the number of tips, tip thickness and angle of the angular electrode decreased, the equivalent radius of the angular electrode gradually decreased and the corona onset voltage gradually decreased; variations in the number, thickness, and angle of the unit tip had differences in the degree of influence on the corona voltage, with rates of 3.279%, 2.846%, and 0.678%, respectively.

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影响静电除尘器电极电晕起电压的关键因素

本文基于COMSOL仿真，建立了不同针尖数(四角形、六角形、八角形)、针尖厚度(0.3 cm、0.5 cm、0.8 cm)和针尖角度(10.72°、16°、20.72°)的角电极的电晕起爆仿真模型，研究了针尖几何形状变化对电晕起爆的影响。研究了电极角度几何形状的变化对电晕起始电压的影响。通过引入等效半径的概念，量化了针尖数、厚度和角度几何变化对电晕起始电压的影响。结果表明:随着角电极尖头数、尖头厚度和角度的减小，角电极的等效半径逐渐减小，电晕起始电压逐渐降低;单位尖端数量、厚度和角度的变化对电晕电压的影响程度不同，分别为3.279%、2.846%和0.678%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE 16th Conference on Industrial Electronics and Applications (ICIEA)

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