Dynamic characteristics research of electric output in the curcuit with thyristor voltage regulator supplying the synchronous motor

Authors

  • R. A. Khoroshko Kremenchuk Mykhailo Ostohradskyi National University, Kremenchuk, Ukraine
  • B. A. Tenitsky Kremenchuk Mykhailo Ostohradskyi National University, Kremenchuk, Ukraine
  • O. V. Bialobrzeski Kremenchuk Mykhailo Ostohradskyi National University, Kremenchuk, Ukraine

DOI:

https://doi.org/10.31498/2225-6733.36.2018.142548

Keywords:

power components, synchronous motor

Abstract

Societal development is followed by increasing consumption of electrical energy. Sharp increase of energy consumption is conditioned by escalation of production and technological advancement. The number of industrial consumers is rising, most of which are non-linear, non-symmetrical and ever-changing. Primarily they are semiconductor converters of high power capacity. These are thyristor converters and thyristor regulators. Thyristor voltage regulators are widespread in different production spheres. Mostly they are used as soft start devices for synchronous and asynchronous machines. Thyristor transducers and thyristor voltage regulators are used to control the modes of electrical installations as well. Higher harmonics emerge during thyristor converter’s operation. These upper harmonics can cause overheating and breakdown of neutral conductors, false starts of fuses and automatic switches, accelerated aging of wires and cables, additional power losses in transformers, distortion of voltage sine wave, premature wear and failure of capacitors in power compensation installations, failures of computer and telecommunication hardware, lower power factor of electrical installations and incorrect metering. Proper evaluation of electrical energy quality is one of the most important problems for industrial enterprises in the conditions of modern technological advancement. The up-to-date standard which declares the order of evaluating electrical power components is IEEE 1459-2010 standard. The standard provides the definitions used for measuring electric power quantities under sinusoidal, non-sinusoidal, balanced, or unbalanced conditions. The mathematical expressions used in the past are listed, as well as the new expressions, and the explanations of the new definitions features

Author Biographies

R. A. Khoroshko, Kremenchuk Mykhailo Ostohradskyi National University, Kremenchuk

Студент

B. A. Tenitsky, Kremenchuk Mykhailo Ostohradskyi National University, Kremenchuk

Студент

O. V. Bialobrzeski, Kremenchuk Mykhailo Ostohradskyi National University, Kremenchuk

Кандидат технічних наук, доцент

References

Список використаних джерел (ГОСТ):

Жежеленко И.В. Качество электрической энергии на промышленных предприятиях / И.В. Жежеленко. – 6-е изд., перераб. и доп. – М. : Энергоатомиздат, 1981. – 161 с.

IEEE 1459-2010 Standard Definition for the measurement of Electric Power Quantities under sinusoidal, nousinusoidal, balanced or unbalanced conditions. – IEEE Power and Energy Society. – Introduced 19-03-2010. – New York, 2010. – 40 p.

Willems, J.L. The Apparent Power Conceptand the IEEE standard 1459-2000 / J.L. Willems, J.A. Ghijselen, A.E. Emanuel // IEEE Transactions on Power Delivery. – 2005. – Vol. 20, is-sue 2. – Pp. 876-884.

Лавріненко Ю.М. Основи електроприводу / Ю.М. Лавріненко, О.Ю. Синявський, В.В. Савченко. – Київ, 2010. – 161 с.

Карлик Є.П. Дослідження споживання електричної енергії електродвигунами змінного і постійного струмів з електричними перетворювачами / Є.П. Карлик, О.В. Бялобржеський // Електромеханічні і енергозберігаючі системи. – 2011. – Вип. 2 – С. 50-53.

Особливості регулювання електродвигунів пристроями силової перетворювальної техніки промислового електроприводу / І.В. Пантєлєєва [та ін.] // Комунальне господарство міст. – 2012. – № 112. – С. 61-65.

Терёхин В.В. Основы моделирования в MATLAB: в 2 ч. / В.В. Терёхин. – Новокузнецк : Кузбассвузиздат, 2004. – 2 ч. – 212 с. – (Simulink).

Моделювання електромеханічних систем / О.П. Чорний, А.В. Луговий, Д.Й. Родькін, Г.Ю. Сисюк, О.В. Садовий. – Кременчук, 2001. – 410 с.

References:

Zhezhelenko I.V. Kachestvo elektrycheskoi enerhyy na promyshlennykh predpryiatyiakh [Quality of electric energy at industrial enterprises]. Moscow, Energoatomizdat Publ., 1981. 161 p. (Rus.)

IEEE 1459-2010 Standard Definition for the measurement of Electric Power Quantities under sinusoidal, nousinusoidal, balanced or unbalanced conditions. IEEE Power and Energy Society. New York, 2010. 40 p.

Willems J.L., Ghijselen J.A., Emanuel A.E. The Apparent Power Conceptand the IEEE standard 1459-2000. IEEE Transactions on Power Delivery, 2005, vol. 20, iss. 2, pp. 876-884.

LavrInenko Y.M. Osnovi elektroprivodu [The basics of the electric drive]. Kiev, 2010. 161 p. (Ukr.)

Karlik E.Р., Byalobrzheskyi A.V. Doslіdzhennia spozhivannia elektrichnoї energії elektrodvigunami zmіnnogo і postіinogo strumіv z elektrichnimi peretvoriuvachami [Research electricity consumption aс and dс motors with electrically converters]. Elektromekhanіchnі і energozberіgaiuchі sistemi – Electromechanical and energy saving systems, 2011, no. 2, pp. 50-53. (Ukr.)

Pantyleeva I.V. Osoblivosti regulyuvannya elektrodviguniv pristroyami silovoyi peretvoryuvalnoyi tehniki promislovogo elektroprivodu [Peculiarities of regulation of electric motors by devices of power transforming technology of an industrial electric drive]. Komunalne gospodarstvo mist – Municipal economy of cities, 2012, no. 112, pp. 61-65. (Ukr.)

Teryohin V.V. Osnovyi modelirovaniya v MATLAB. Chast 2. Simulink [Fundamentals of modeling in MATLAB. Part 2. Simulink]. Novokuznetsk, Kuzbassvuzizdat Publ., 2004. 212 p. (Rus.)

Chorniy O.P. Modelyuvannya elektromehanIchnih sistem [Modeling of electromechanical systems], Kremenchuk, 2001. 410 p. (Ukr.)

Downloads

How to Cite

Khoroshko, R. A., Tenitsky, B. A., & Bialobrzeski, O. V. (2018). Dynamic characteristics research of electric output in the curcuit with thyristor voltage regulator supplying the synchronous motor. Reporter of the Priazovskyi State Technical University. Section: Technical Sciences, (36), 194–200. https://doi.org/10.31498/2225-6733.36.2018.142548

Issue

No. 36 (2018): Reporter of the Priazovskyi State Technical University. Section: Technical sciences

Section

Electrical engineering and power engineering

License

The journal «Reporter of the Priazovskyi State Technical University. Section: Technical sciences» is published under the CC BY license (Attribution License).

This license allows for the distribution, editing, modification, and use of the work as a basis for derivative works, even for commercial purposes, provided that proper attribution is given. It is the most flexible of all available licenses and is recommended for maximum dissemination and use of non-restricted materials.

Authors who publish in this journal agree to the following terms:

1. Authors retain the copyright of their work and grant the journal the right of first publication under the terms of the Creative Commons Attribution License (CC BY). This license allows others to freely distribute the published work, provided that proper attribution is given to the original authors and the first publication of the work in this journal is acknowledged.

2. Authors are allowed to enter into separate, additional agreements for non-exclusive distribution of the work in the same form as published in this journal (e.g., depositing it in an institutional repository or including it in a monograph), provided that a reference to the first publication in this journal is maintained.