Electromagnetic Compatibility of Compensating Devices and Converters of an Adjustable Electric Drive in Electrical Networks of Industrial Enterprises

Q3 Energy

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Pub Date : 2022-02-02 DOI:10.21122/1029-7448-2022-65-1-37-51

V. P. Schasny, A. Zhukouski

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引用次数: 1

Abstract

The problems of reactive power compensation and improving the quality of electrical energy in the power supply systems of industrial enterprises are inseparable. Their relevance is due to the widespread use of electric receivers that consume reactive power and distort the quality of electrical energy in the network, as well as the implementation of new technologies, systems and equipment into production that make increased demands on the quality of electrical energy consumed. An important characteristic of the quality of electrical energy rationed by GOST 32144–2013 is the non-sinusoidal voltage. The main reason for the non-sinusoidal voltage in the electrical networks of industrial enterprises is the use of electrical equipment with a nonlinear voltage characteristic, which is a source of conductive electromagnetic interference, in particular: adjustable DC and AC electric drives, uninterruptible power supplies of electric receivers, electric welding equipment, electric arc furnaces, induction heating installations, gas-discharge radiation sources. Due to the nonlinearity of the current-voltage characteristics, the above devices consume a non-sinusoidal current from the network, which causes harmonic distortion of the supply voltage, including the fundamental harmonic component and higher harmonic components that are multiples of the fundamental frequency. Non-sinusoidal voltage, in turn, causes additional losses of power and energy in the elements of the electrical network, causes overheating and accelerated aging of the insulation of electrical equipment, reducing its operational reliability and reducing service life, worsens the accuracy of electrical measurements, causes malfunctions in automation systems, telemechanics, relay protection, electronic systems and communications. Non-sinusoidal voltage significantly complicates the compensation of reactive power in the electrical network. Compensating devices are made on the basis of capacitors, whose electrical parameters (resistance, power, current) depend on both the magnitude of the supply voltage and its harmonic composition. The present article identifies problems and proposes solutions in terms of reactive power compensation and improving the quality of electrical energy in electrical networks containing thyristor voltage converters and frequency converters used in adjustable electric drive installations of industrial enterprises.

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工业企业电网中可调电驱动补偿装置和变换器的电磁兼容性

工业企业供电系统中的无功补偿问题与提高电能质量问题是密不可分的。它们的相关性是由于广泛使用消耗无功功率并扭曲网络中电能质量的电子接收器，以及在生产中实施新技术，系统和设备，对所消耗的电能质量提出了更高的要求。GOST 32144-2013规定的电能质量的一个重要特征是非正弦电压。工业企业电网中出现非正弦电压的主要原因是使用了具有非线性电压特性的电气设备，这是导电电磁干扰的来源，特别是:可调直流和交流电力驱动器，电气接收器的不间断电源，电焊设备，电弧炉，感应加热装置，气体放电辐射源。由于电流-电压特性的非线性，上述器件消耗来自电网的非正弦电流，导致电源电压谐波失真，包括基频谐波分量和倍于基频的高谐波分量。反过来，非正弦电压会导致电网中电力和能量的额外损耗，导致电气设备的过热和加速绝缘老化，降低其运行可靠性和缩短使用寿命，降低电气测量的准确性，导致自动化系统、远程机械、继电保护、电子系统和通信的故障。非正弦电压使电网无功补偿变得十分复杂。补偿装置是在电容器的基础上制造的，电容器的电气参数(电阻、功率、电流)取决于电源电压的大小及其谐波成分。本文从工业企业可控硅电压变换器和变频器可调电力驱动装置的电网无功补偿和改善电能质量的角度，找出问题并提出解决办法。

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来源期刊

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Energy-Nuclear Energy and Engineering

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： The most important objectives of the journal are the generalization of scientific and practical achievements in the field of power engineering, increase scientific and practical skills as researchers and industry representatives. Scientific concept publications include the publication of a modern national and international research and achievements in areas such as general energetic, electricity, thermal energy, construction, environmental issues energy, energy economy, etc. The journal publishes the results of basic research and the advanced achievements of practices aimed at improving the efficiency of the functioning of the energy sector, reduction of losses in electricity and heat networks, improving the reliability of electrical protection systems, the stability of the energetic complex, literature reviews on a wide range of energy issues.