Modelling of the effect of electrode geometries on the corona discharge current-voltage characteristic for wire-plate electrostatic precipitators

2001 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.01CH37225) Pub Date : 2001-10-14 DOI:10.1109/CEIDP.2001.963637

D. Brocilo, J. Chang, R. Findlay, Y. Kawada, T. Ito

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引用次数: 7

Abstract

An electrostatic precipitator (ESP) operates on the principle of electrostatic separation of dust particles after charging, hence high ion density and electric fields are required. Therefore, the corona discharge current-voltage characteristic is very important and depends on several factors: discharge electrode shape, dimensions and surface condition, gas flow properties, dust particle loading and space charge, polarity of applied voltage, etc. We present a model for the prediction of the current-voltage characteristic and experimentally validate it for round, threaded, rectangular and rigid discharge electrodes in combination with plate type collecting electrodes. The experimental validation shows good agreement for the case of the round discharge electrode. The model predicts the effect of wire diameter, plate length and gas flow temperature. For the rigid discharge electrode, of the same electrode thickness as the diameter of the round electrode, much lower corona onset voltage was observed.

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电极几何形状对线板静电除尘器电晕放电电流-电压特性影响的建模

静电除尘器(ESP)是利用带电后粉尘微粒的静电分离原理工作的，因此需要较高的离子密度和电场。因此，电晕放电的电流-电压特性是非常重要的，它取决于几个因素:放电电极的形状、尺寸和表面状况、气体流动特性、粉尘颗粒负载和空间电荷、外加电压的极性等。我们提出了一个预测电流电压特性的模型，并通过实验验证了圆形、螺纹、矩形和刚性放电电极与板式集电电极的结合。实验验证表明，圆形放电电极的情况吻合较好。该模型预测了线材直径、板长和气流温度的影响。对于刚性放电电极，当电极厚度与圆形电极直径相同时，可以观察到较低的电晕起始电压。

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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2001 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.01CH37225)

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