Comparative analysis of two plate-to-plate electrode configurations for dust resistivity measurement

IF 2.1 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Electrostatics Pub Date : 2025-09-18 DOI:10.1016/j.elstat.2025.104163

László Székely, István Kiss

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Abstract

Dust resistivity is a key parameter in the efficiency of electrostatic precipitators, yet its measurement is influenced by numerous environmental and methodological factors. In this study, the specific resistivity of coal, biomass, and mixed-fuel-derived dust samples was investigated using two plate-to-plate electrode arrangements under controlled temperature and humidity conditions. Arrangement #1 used square electrodes and vibratory compaction, while Arrangement #2 used cylindrical electrodes with weight-based compaction and a guarding ring to reduce edge effects. Measurements were performed across six temperature levels (30–180 °C) in both heating and cooling cycles, revealing temperature- and humidity-dependent shifts from surface to bulk conduction mechanisms. Time-dependent resistivity profiles were recorded at fixed intervals to capture polarization effects. Results indicated that Arrangement #2 generally produced lower resistivity values, likely due to enhanced compaction and increased surface contact. The experiments also highlighted discrepancies in repeatability and compaction sensitivity between arrangements. These findings contribute to a deeper understanding of dust conduction mechanisms and inform the design of future measurement protocols.

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灰尘电阻率测量两种板对板电极结构的比较分析

粉尘电阻率是影响静电除尘器效能的一个关键参数，其测量受多种环境和方法因素的影响。在本研究中，在控制温度和湿度的条件下，采用两种板对板电极布置，研究了煤、生物质和混合燃料衍生粉尘样品的比电阻率。排列1使用方形电极和振动压实，而排列2使用圆柱形电极与基于重量的压实和保护环，以减少边缘影响。在加热和冷却循环中进行了6个温度水平（30-180°C）的测量，揭示了从表面到体传导机制的温度和湿度依赖变化。以固定间隔记录随时间变化的电阻率曲线，以捕捉极化效应。结果表明，布置2通常产生较低的电阻率值，这可能是由于压实增强和表面接触增加所致。实验还强调了不同排列之间在可重复性和压实灵敏度上的差异。这些发现有助于更深入地了解粉尘传导机制，并为未来测量方案的设计提供信息。

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来源期刊

Journal of Electrostatics 工程技术-工程：电子与电气

CiteScore

4.00

自引率

11.10%

发文量

审稿时长

49 days

期刊介绍： The Journal of Electrostatics is the leading forum for publishing research findings that advance knowledge in the field of electrostatics. We invite submissions in the following areas: Electrostatic charge separation processes. Electrostatic manipulation of particles, droplets, and biological cells. Electrostatically driven or controlled fluid flow. Electrostatics in the gas phase.