Control System of High Voltage Electrostatic Precipitator Based on Fieldbus for Coalash

It is urgent to study a new control system for improving the efficiency of electrostatic precipitator. The System-on-a-Programmable-Chip (SOPC) development board, which belongs to the series of Cyclone of Altera Company, is used as the development platform. Analog Digital (AD) conversion module, voltage control module and overall control module of the electrostatic precipitator are designed and the simulation waveform of the system is analyzed, based on the programmable logic device EP1C12Q240C6 and Very-High-Speed Integrated Circuit Hardware Description Language (VHDL) programming language. The results show that: by using Field Programmable Gate Array (FPGA) as the control, transformation of AD is accurate and fast and high voltage power supply is stable, which leads to a certain value for generalization.

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A Complete Control System for a High Voltage Converter in an Electrostatic Precipitator

Electronics ◽

10.3390/electronics10131554 ◽

2021 ◽

Vol 10 (13) ◽

pp. 1554

Author(s):

Fernando Jesús García-Díaz ◽

Juan Díaz ◽

Jorge García ◽

Alberto M. Pernía ◽

Pedro J. Villegas

Keyword(s):

Control System ◽

Greenhouse Gases ◽

High Voltage ◽

Electrostatic Precipitator ◽

Operation Mode ◽

Voltage Converter ◽

Air Filters ◽

Complete Control ◽

Greenhouse Gases Emissions ◽

Chemical Washing

Nowadays, the emission of pollutant particles is a global problem in terms of limiting pollution in industries, as well as greenhouse gases emissions. There are different ways to filter undesired particles, such as carbon air filters, chemical washing, and so on. One of the most popular techniques is the use of electrostatic precipitators: The operation mode is based in attracting particles using electrostatic forces. In order to do that, it is necessary to use a high-voltage converter, with a relative complex control. This article deals with the design of a complete platform to control not only these kind of converters, but also those converters based on the full-bridge power topology.

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The Control of High Voltage Electrostatic Precipitator Based on EDA

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.910.336 ◽

2014 ◽

Vol 910 ◽

pp. 336-339

Author(s):

Zi Sheng Zhang ◽

Yi Wang ◽

Chun Sheng Wang ◽

Jin Cui ◽

Zhi Qiang Liu

Keyword(s):

Control System ◽

High Voltage ◽

Integrated Circuit ◽

Design Automation ◽

High Speed ◽

Electrostatic Precipitator ◽

Hardware Description Language ◽

Description Language ◽

Hardware Description ◽

Very High

In order to achieve the automatic control of electrostatic precipitator (ESP) more efficiently and accurately, an ESP system combining hardware and software is designed. According to the requirement of the ESP system,the Electronic Design Automation (EDA) is introduced to the ESP control system and the system is divided into four modules.These sub-modules are designed and the simulation waveform of the system is ananalyzed,based on the Very-High-Speed Integrated Circuit Hardware Description Language (VHDL) programming language and Quartus software.The results show that the security, flexibility and reliabity of the system is improved by using EDA as the control ,which is a great value for generalization.

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High Power Density, High-Voltage Parallel Resonant Converter Using Parasitic Capacitance on the Secondary Side of a Transformer

Electronics ◽

10.3390/electronics10141736 ◽

2021 ◽

Vol 10 (14) ◽

pp. 1736

Author(s):

Jaean Kwon ◽

Rae-Young Kim

Keyword(s):

Power Density ◽

High Voltage ◽

Electrostatic Precipitator ◽

Power Supplies ◽

Equivalent Model ◽

Resonant Converter ◽

High Voltage Power Supply ◽

Resonant Capacitor ◽

Parasitic Components ◽

Secondary Side

High-voltage DC power supplies are used in several applications, including X-ray, plasma, electrostatic precipitator, and capacitor charging. However, such a high-voltage power supply has problems, such as a decrease in reliability, owing to an increase in output ripple voltage, and a decrease in power density, owing to an increase in volume. Therefore, this study proposes a method for improving the power density of a parallel resonant converter using the parasitic capacitor of the secondary side of the transformer. Due to the fact that high-voltage power supplies have many turns on the secondary side, a significant number of parasitic capacitors are generated. In addition, in the case of a parallel resonant converter, because the transformer and the primary resonant capacitor are connected in parallel, the parasitic capacitor component generated on the secondary side of the transformer can be equalized and used. A parallel cap-less resonant converter structure developed using the parasitic components of such transformers is proposed. Primary side and secondary side equivalent model analyses are conducted in order to derive new equations and gain waveforms. Finally, the validity of the proposed structure is verified experimentally.

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Monitoring and Control System for High-Voltage Switching Devices of an Electrical Substation

2020 International Multi-Conference on Industrial Engineering and Modern Technologies (FarEastCon) ◽

10.1109/fareastcon50210.2020.9271306 ◽

2020 ◽

Author(s):

S. Sarry ◽

P.S. Kireev ◽

I. Trotsenko

Keyword(s):

Control System ◽

High Voltage ◽

Monitoring And Control ◽

Monitoring And Control System ◽

Electrical Substation ◽

And Control ◽

Voltage Switching ◽

Switching Devices

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DETERMINATION OF CONTROL SYSTEM INFORMATION COORDINATES OF HIGH VOLTAGE INSTALLATIONS FOR ELECTRODISCHARGE TREATMENT OF CARBON-CONTAINING GASES

Tekhnichna Elektrodynamika ◽

10.15407/techned2020.05.084 ◽

2020 ◽

Vol 2020 (5) ◽

pp. 84-87

Author(s):

D. Vinnychenko ◽

◽

I. Vinnychenko ◽

Keyword(s):

Control System ◽

High Voltage ◽

System Information ◽

Electrodischarge Treatment

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Design and application of synchronous control system model of high voltage and large capacity series parallel structure of a vacuum circuit breaker

2014 International Conference on Power System Technology ◽

10.1109/powercon.2014.6993496 ◽

2014 ◽

Author(s):

Qiu Jin ◽

Jiangbo Chen ◽

Tong Zhou

Keyword(s):

Control System ◽

High Voltage ◽

Circuit Breaker ◽

System Model ◽

Parallel Structure ◽

Large Capacity ◽

Synchronous Control ◽

Vacuum Circuit Breaker ◽

Control System Model ◽

Design And Application

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Fast True RMS Algorithm Using in the High-Voltage General Inverter

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.614-615.1244 ◽

2012 ◽

Vol 614-615 ◽

pp. 1244-1249

Author(s):

Zhi Fei Yu ◽

Bing Li ◽

Wei Wang ◽

Shi Bao Qian

Keyword(s):

Control System ◽

Real Time ◽

High Voltage ◽

Computation Time ◽

Current Signal ◽

Output Current ◽

Safe Operation ◽

Harmonic Current ◽

Overload Protection ◽

Mean Filter

The high-voltage general inverter which has the advantage of the structure， has become the key equipment to saving energy in recent years. The inverter output current is the key variable of overload protection, over current protection and V/F control compensation, so the real-time accurate measurement of its RMS is extremely important. In this paper, the output current signals preprocess by hardware filter firstly, and then find the RMS of the current signal in the period of the waveform. Meanwhile, this algorithm belong to true RMS algorithm category, which suitable for testing harmonic current signal, and can avoid mean filter to reduce the computation time. By using this algorithm, the inverter control system provides accurate reference for overload protection reduces the systematic disoperation rate and sets the more accurate security allowance to ensure the safe operation of equipment.

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