The effects of the corona wire distribution with triangular collecting plates on the characteristics of electrostatic precipitators

2022 International Conference on Diagnostics in Electrical Engineering (Diagnostika) Pub Date : 2022-09-06 DOI:10.1109/Diagnostika55131.2022.9905103

Mo’ath Bani Fayyad, A. A. González, T. Iváncsy

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引用次数: 4

Abstract

Electrostatic precipitators (ESPs) have evolved into one of the most primary technologies for eliminating hazardous particles from various industries. Because of the inherent advantages that come with the use of an ESP, much ongoing research in this subject is constantly improving. To enhance the performance of ESPs, several designs of collecting and discharge electrodes must be investigated. Many researchers are working on strengthening current models in a variety of ways. This research aims to examine the effects of corona wire distribution with triangular collecting plates on the properties of electrostatic precipitators. Six different types of ESPs were modeled. The triangular type results were compared to the flat plates (FPs) to evaluate the effect of corona discharge electrode distribution at different wire-wire distances on the electrical field distribution and space charge density distribution, and particle collection efficiency. The usage of the triangular type also enhances particle collecting efficiency when is compared to FPs

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带三角形集板的电晕线分布对静电除尘器特性的影响

静电除尘器(esp)已发展成为消除各行业有害颗粒的最主要技术之一。由于ESP的固有优势，这方面的研究也在不断改进。为了提高静电放电的性能，必须研究多种集、放电电极的设计。许多研究人员正致力于以各种方式加强现有的模型。本研究旨在探讨带三角形集板的电晕线分布对静电除尘器性能的影响。对六种不同类型的ESPs进行了建模。将三角型结果与平板(FPs)进行比较，评价不同导线距离下电晕放电电极分布对电场分布、空间电荷密度分布和粒子收集效率的影响。与FPs相比，三角形类型的使用也提高了颗粒收集效率

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2022 International Conference on Diagnostics in Electrical Engineering (Diagnostika)

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