Numerical Study of the Influence of Using Semicircular Corrugated Collecting Plate and Inverted Semicircular Corrugated on the Electrostatic Precipitator

Q3 Computer Science

Periodica polytechnica Electrical engineering and computer science Pub Date : 2024-02-27 DOI:10.3311/ppee.22592

Moath Bani Fayyad, T. Iváncsy

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引用次数: 0

Abstract

Electrostatic precipitators (ESPs) play a crucial role in removing harmful particles in various industries. Ongoing studies continuously strive to improve their performance and efficiency, leveraging the inherent advantages of ESPs. Researchers are exploring various types of collecting and discharge electrodes to achieve this. This study specifically focuses on comparing two types of collecting electrodes, Semicircular Corrugated Plates (SCPs) and inverted Semicircular Corrugated Plates (InvSCPs), against Flat Plates (FPs) as a reference case. Three distinct forms of ESPs were simulated, and the SCP and InvSCP designs were evaluated against the FPs, specifically assessing the impact of modifying the collecting electrode design on key electrostatic precipitator characteristics, such as electrical field distribution, space charge density distribution, particle trajectories, and particle collection efficiency. Notably, the study found that using SCP resulted in the highest particle collection efficiency compared to InvSCP and FP for the same range of particles.

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使用半圆形波纹收集板和倒置半圆形波纹对静电沉淀器影响的数值研究

静电除尘器（ESP）在各行各业清除有害颗粒方面发挥着至关重要的作用。正在进行的研究利用静电除尘器的固有优势，不断努力提高其性能和效率。为此，研究人员正在探索各种类型的收集和放电电极。本研究特别侧重于将半圆波纹板（SCP）和倒置半圆波纹板（InvSCP）这两种收集电极与平板（FP）作为参考案例进行比较。模拟了三种不同形式的静电除尘器，并将 SCP 和 InvSCP 设计与 FP 进行了对比评估，特别是评估了修改收集电极设计对电场分布、空间电荷密度分布、颗粒轨迹和颗粒收集效率等关键静电除尘器特性的影响。值得注意的是，研究发现，与 InvSCP 和 FP 相比，在相同的颗粒范围内，使用 SCP 的颗粒收集效率最高。

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来源期刊

Periodica polytechnica Electrical engineering and computer science Engineering-Electrical and Electronic Engineering

CiteScore

2.60

自引率

0.00%

发文量

期刊介绍： The main scope of the journal is to publish original research articles in the wide field of electrical engineering and informatics fitting into one of the following five Sections of the Journal: (i) Communication systems, networks and technology, (ii) Computer science and information theory, (iii) Control, signal processing and signal analysis, medical applications, (iv) Components, Microelectronics and Material Sciences, (v) Power engineering and mechatronics, (vi) Mobile Software, Internet of Things and Wearable Devices, (vii) Solid-state lighting and (viii) Vehicular Technology (land, airborne, and maritime mobile services; automotive, radar systems; antennas and radio wave propagation).