To the issue of increasing efficiency of VAR compensation
DOI:
https://doi.org/10.31498/2225-6733.30.2015.52737Keywords:
reactive power, VAR compensator, «dynamic capacitor»Abstract
This article describes the features of VAR compensation of variable loads. One of the most common non-symmetric non-linear power consumers are welding power sources. Time and duration of the work of these sources vary randomly. To compensate the consumption of reactive power on the basis of consumption data from the three-phase electricity meters is inefficient. Compensation devices power should be calculated taking into account the asymmetrical consumption/generation of reactive power per phase and changing consumption patterns. Thyristor-controlled reactor, thyristor-switched capacitors, hybrid VAR compensators, active compensators (STATCOMs), «dynamic capacitors» can be used as the VAR compensation devices. Thyristor-controlled reactors can provide smooth regulation of reactive power, but they have high weight and size parameters and are additional sources of higher harmonics. Thyristor-switched capacitors provide stepwise adjustment of reactive power and are subject to the current higher harmonics. Hybrid VAR compensators make it possible to isolate capacitors from the higher harmonics and ensure smooth regulation, which is achieved by active filter introduction to the reactive power compensation devices based on thyristor-switched capacitors. However, this increases the cost of a compensator and complicates its control system. STATCOMs provide smooth regulation of reactive power, but they are too expensive.Perspective direction in the development of effective VAR compensation devices is «dynamic capacitor». As a result of a feasibility study the prospects for further research of electrical grids power efficiency through the development of effective devices for VAR compensation have been establishedReferences
Правила пользования электрической энергией / Нацкомэлектроэнергетики. – Харьков: Форт, 2010. – 164 с.
Методика обчислення плати за перетікання реактивної електроенергії між електропередавальною організацією та її споживачами / Затверджено наказом Міністерства палива та енергетики України 17 січня 2002 р. N 19, Зареєстровано в Міністерстві юстиції України 1 лютого 2002 р. за N 93/6381.
Веприк Ю.Н. Выбор оптимальных мест установки компенсирующих устройств в электрических сетях / Ю.Н. Веприк // Вісник Національного технічного університету «Харківський політехнічний інститут» : Зб. наук. праць. Тематичний випуск: Енергетика: надійність та енергоефективність. – Харків: НТУ «ХПІ» – №41. – 2011. – С. 36-41.
Жежеленко И.В. Высшие гармоники в системах электроснабжения промпредприятий / И.В. Жежеленко. – Изд. 6-ое, перераб. и доп. – М.: Энергоатомиздат, 2010. – 375 с.
Жежеленко И.В. Качество электроэнергии на промышленных предприятиях / И.В. Жежеленко, Ю.Л. Саенко. – Изд. 4-е, перераб. и доп. – М.: Энергоатомиздат, 2005. – 261 с.
Голошубов В.І. Зварювальні джерела живлення: навчальний посібник / В.І. Голошубов. – К.: Арістей, 2005. – 448 с.
IEEE Standard Definitions for the Measurement of Electric Power Quantities Under Sinusoi-dal, Nonsinusoidal, Balanced, or Unbalanced Conditions, IEEE Standard 1459-2010, New York, 2010.
Reactive Power Compensation Technologies, State-of-the-Art Review / J.W. Dixon, L. Moran, J. Rodríguez, R. Domke // Proceedings of the IEEE. – 2005 – Vol.93, Dec. – № 12. – Рр. 2144-2164.
Давидов О.Ю. Аналіз засобів компенсації реактивної потужності в електротехнічних системах / О.Ю. Давидов, О.В. Бялобржеський // Вісник Кременчуцького національного університету імені Михайла Остроградського. – 2010. – Вип. 3(62). – С. 132-136.
Burlaka V.V. Hybrid VAR compensator with improved efficiency / V.V. Burlaka, S.V. Gu-lakov, S.K. Podnebennaya, O.S. Savenko // Вісник Приазовського державного технічного університету : Зб. наук. праць / ДВНЗ «ПДТУ». – Маріуполь, 2014. – Вип. 29. – С. 174-180.
Prasaj A. Control of Dynamic Capacitor / Anish Prasai, Deepak M. Divan // IEEE transactions on industry applications. – Vol. 47, № 1, January/February. – 2011. – Рp. 161-168.
Prasaj A. Dynamic Capacitor (D-CAP): An Integrated Approach to Reactive and Harmonic Compensation / Anish Prasai, Jyoti Sastry, Deepak M. Divan // IEEE transactions on industry applications. – Vol. 46, № 6, November/December. – 2010. – Рp. 2518-2525.
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