带水冷系统的线筒静电除尘器电晕放电强化对流换热

IF 1.9 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Electrostatics Pub Date : 2023-09-01 DOI:10.1016/j.elstat.2023.103845
Hui Fu , Wenyi Xu , Shuran Li , Zhen Liu , Keping Yan
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引用次数: 0

摘要

针对目前的湿烟羽问题,我们提出了一种将静电除尘器(ESP)和换热器集成在一起的新技术,以同时提高换热效率、收集水和控制烟气中的颗粒物排放。与传统的电除尘器不同,本文使用了实验室规模的线筒式电除尘器,该电除尘器具有水冷却收集电极。我们的研究表明,电除尘器的传热系数随着气体速度的降低、外加电压的增加、电晕电流的增加或气体温度的升高而升高。在0.15m/s、80°C和16kV的负放电条件下,总传热系数最大提高了271%。此外,颗粒物质的存在可以使传热系数提高9%–16%。用电流体动力学数定量表示的离子风在改变气体流动模式从而提高热交换系数方面发挥着关键作用。为了降低总能耗,建议ESP应在低电压和高电流的特定模式下运行。
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Convective heat transfer enhancement by corona discharge in a wire–cylinder electrostatic precipitator with the water-cooling system

Aiming at the current wet plume problem, we present a novel technique to integrate electrostatic precipitator (ESP) and heat exchanger in order to simultaneously increase heat exchange efficiency, collect water and control particle emission from flue gases. Unlike the conventional ESP, a lab-scale wire–cylinder type ESP with the collection electrode cooling by water is used for investigations in this paper. Our research indicates that the heat transfer coefficient of the ESP rises with reducing gaseous velocity, increasing applied voltage, corona current or gas temperature. The maximum improvement of the total heat transfer coefficient of 271% was achieved at 0.15 m/s, 80 °C and 16 kV of the negative discharge. Moreover, the presence of Particle matters can enhance the heat transfer coefficient by 9%–16%. The ionic wind, which is quantitatively expressed by electro-hydrodynamic number, plays a key role in modifying the gas flow patterns and consequently improving the heat exchange coefficient. For lowering the overall energy consumption, it is suggested that the ESP should be operated at a specific mode of low voltage and high current.

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来源期刊
Journal of Electrostatics
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
81
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.
期刊最新文献
Uniform electric-field optimal design method using machine learning Numerical simulation of spiked electrode electrostatic precipitator Ionic wind produced by volume corona discharges and surface dielectric barrier discharges: What role do streamers play? Stress due to electric charge density distribution in a dielectric slab Electrostatic potential measurement of floating conductive objects: Some theoretical considerations and experimental results
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