For the process gases cleaning from dust in sinter production, different types and designs of apparatus are used. These are battery multicyclones and electrocyclones, bag filters, as well as electrostatic precipitators of various designs. However, only electrostatic precipitators have clear advantages. The purpose of this article is to improve the design of an electrostatic precipitator by increasing the efficiency of collecting dust, using electronic-ion technology with the combined movement of dusty gases and reducing the size. The improvement is based on the task of introducing a new architecture for constructing an electrostatic precipitator. The use of this improvement will contribute to the creation of lighter and more compact electrostatic precipitators, will make it possible to regulate the resistance of the apparatus, which affects the efficiency, depending on the dust load and the dispersion composition of the solid component. Computer modeling was carried out in order to establish the mechanism of the aerodynamic forces influence of the gas flow and to determine the dependence of the drift velocity and the direction of movement of charged dispersed particles on the velocity of the medium being purified during the combined course of gases in the electrostatic precipitator. The problem is solved by the fact that the electrostatic precipitator has a modular structure and consists of a voltage unit, a charging unit with a system of crown needle electrodes made in the form of needle plates 0.2... 0.5 m long and 0.020... 0.030 m wide, connected to the deposition unit, in which the deposition electrodes are installed perpendicular to the gas flow with the possibility of regulation and fixation at any angle to the direction of movement of the gas flow. The technical result is an increase in the density of the corona charge, the efficiency of the deposition process, a decrease in the overall dimensions of the electrostatic precipitator, and a decrease in the time of its manufacture, adjustment and installation. A gas cleaning apparatus of modular type “MV-2” has been developed, in which a new modular layout and technology of gas cleaning are applied. The device makes it possible to provide the required emission standards in a much smaller size in the range of 20... 50 mg/m3, depending on the parameters of the dust and gas flow entering for cleaning and the fractional composition of dust.
| Published in | American Journal of Mechanical and Materials Engineering (Volume 5, Issue 4) |
| DOI | 10.11648/j.ajmme.20210504.13 |
| Page(s) | 71-77 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2021. Published by Science Publishing Group |
Electrostatic Precipitator, Charging Unit, Deposition Unit, Precipitating Element, Module, Emission Standards
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APA Style
Kashcheev Mikhail Anatolievich, Vladi Valery Alexandrovich, Kashcheev Evgeny Mikhailovich, Manzenko Sergey Vyacheslavovich, Rudenko Nikolay Romanovich, et al. (2021). Electron-ion Technology Modular Fine Gas Cleaning Apparatus. American Journal of Mechanical and Materials Engineering, 5(4), 71-77. https://doi.org/10.11648/j.ajmme.20210504.13
ACS Style
Kashcheev Mikhail Anatolievich; Vladi Valery Alexandrovich; Kashcheev Evgeny Mikhailovich; Manzenko Sergey Vyacheslavovich; Rudenko Nikolay Romanovich, et al. Electron-ion Technology Modular Fine Gas Cleaning Apparatus. Am. J. Mech. Mater. Eng. 2021, 5(4), 71-77. doi: 10.11648/j.ajmme.20210504.13
AMA Style
Kashcheev Mikhail Anatolievich, Vladi Valery Alexandrovich, Kashcheev Evgeny Mikhailovich, Manzenko Sergey Vyacheslavovich, Rudenko Nikolay Romanovich, et al. Electron-ion Technology Modular Fine Gas Cleaning Apparatus. Am J Mech Mater Eng. 2021;5(4):71-77. doi: 10.11648/j.ajmme.20210504.13
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Download@article{10.11648/j.ajmme.20210504.13,
author = {Kashcheev Mikhail Anatolievich and Vladi Valery Alexandrovich and Kashcheev Evgeny Mikhailovich and Manzenko Sergey Vyacheslavovich and Rudenko Nikolay Romanovich and Kvashin Vladimir Anatolyevich},
title = {Electron-ion Technology Modular Fine Gas Cleaning Apparatus},
journal = {American Journal of Mechanical and Materials Engineering},
volume = {5},
number = {4},
pages = {71-77},
doi = {10.11648/j.ajmme.20210504.13},
url = {https://doi.org/10.11648/j.ajmme.20210504.13},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajmme.20210504.13},
abstract = {For the process gases cleaning from dust in sinter production, different types and designs of apparatus are used. These are battery multicyclones and electrocyclones, bag filters, as well as electrostatic precipitators of various designs. However, only electrostatic precipitators have clear advantages. The purpose of this article is to improve the design of an electrostatic precipitator by increasing the efficiency of collecting dust, using electronic-ion technology with the combined movement of dusty gases and reducing the size. The improvement is based on the task of introducing a new architecture for constructing an electrostatic precipitator. The use of this improvement will contribute to the creation of lighter and more compact electrostatic precipitators, will make it possible to regulate the resistance of the apparatus, which affects the efficiency, depending on the dust load and the dispersion composition of the solid component. Computer modeling was carried out in order to establish the mechanism of the aerodynamic forces influence of the gas flow and to determine the dependence of the drift velocity and the direction of movement of charged dispersed particles on the velocity of the medium being purified during the combined course of gases in the electrostatic precipitator. The problem is solved by the fact that the electrostatic precipitator has a modular structure and consists of a voltage unit, a charging unit with a system of crown needle electrodes made in the form of needle plates 0.2... 0.5 m long and 0.020... 0.030 m wide, connected to the deposition unit, in which the deposition electrodes are installed perpendicular to the gas flow with the possibility of regulation and fixation at any angle to the direction of movement of the gas flow. The technical result is an increase in the density of the corona charge, the efficiency of the deposition process, a decrease in the overall dimensions of the electrostatic precipitator, and a decrease in the time of its manufacture, adjustment and installation. A gas cleaning apparatus of modular type “MV-2” has been developed, in which a new modular layout and technology of gas cleaning are applied. The device makes it possible to provide the required emission standards in a much smaller size in the range of 20... 50 mg/m3, depending on the parameters of the dust and gas flow entering for cleaning and the fractional composition of dust.},
year = {2021}
}
TY - JOUR T1 - Electron-ion Technology Modular Fine Gas Cleaning Apparatus AU - Kashcheev Mikhail Anatolievich AU - Vladi Valery Alexandrovich AU - Kashcheev Evgeny Mikhailovich AU - Manzenko Sergey Vyacheslavovich AU - Rudenko Nikolay Romanovich AU - Kvashin Vladimir Anatolyevich Y1 - 2021/12/24 PY - 2021 N1 - https://doi.org/10.11648/j.ajmme.20210504.13 DO - 10.11648/j.ajmme.20210504.13 T2 - American Journal of Mechanical and Materials Engineering JF - American Journal of Mechanical and Materials Engineering JO - American Journal of Mechanical and Materials Engineering SP - 71 EP - 77 PB - Science Publishing Group SN - 2639-9652 UR - https://doi.org/10.11648/j.ajmme.20210504.13 AB - For the process gases cleaning from dust in sinter production, different types and designs of apparatus are used. These are battery multicyclones and electrocyclones, bag filters, as well as electrostatic precipitators of various designs. However, only electrostatic precipitators have clear advantages. The purpose of this article is to improve the design of an electrostatic precipitator by increasing the efficiency of collecting dust, using electronic-ion technology with the combined movement of dusty gases and reducing the size. The improvement is based on the task of introducing a new architecture for constructing an electrostatic precipitator. The use of this improvement will contribute to the creation of lighter and more compact electrostatic precipitators, will make it possible to regulate the resistance of the apparatus, which affects the efficiency, depending on the dust load and the dispersion composition of the solid component. Computer modeling was carried out in order to establish the mechanism of the aerodynamic forces influence of the gas flow and to determine the dependence of the drift velocity and the direction of movement of charged dispersed particles on the velocity of the medium being purified during the combined course of gases in the electrostatic precipitator. The problem is solved by the fact that the electrostatic precipitator has a modular structure and consists of a voltage unit, a charging unit with a system of crown needle electrodes made in the form of needle plates 0.2... 0.5 m long and 0.020... 0.030 m wide, connected to the deposition unit, in which the deposition electrodes are installed perpendicular to the gas flow with the possibility of regulation and fixation at any angle to the direction of movement of the gas flow. The technical result is an increase in the density of the corona charge, the efficiency of the deposition process, a decrease in the overall dimensions of the electrostatic precipitator, and a decrease in the time of its manufacture, adjustment and installation. A gas cleaning apparatus of modular type “MV-2” has been developed, in which a new modular layout and technology of gas cleaning are applied. The device makes it possible to provide the required emission standards in a much smaller size in the range of 20... 50 mg/m3, depending on the parameters of the dust and gas flow entering for cleaning and the fractional composition of dust. VL - 5 IS - 4 ER -
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