Mathematical Model for Determination of Extreme Voltage Point in Long-Distance AC Power Transmission
DOI:
https://doi.org/10.31649/1997-9266-2021-158-5-71-78Keywords:
long-distance AC power transmission, Ferranti effect, flexible power transmission, voltage distribution, гибкая электропередачаAbstract
The paper presents the results of the study of the voltage regime at intermediate points of the long-distance AC power line. Mathematical models of distribution of reactive power and voltage profile along the actual and idealized line are presented. A method and mathematical models for determining the coordinates of the extreme points of the flow section by reactive power and voltage along the line route are proposed. It is proposed to use mathematical models of linearized power transmission, as well as more detailed models of the second and third order to determine the coordinates of the extreme point on the voltage along the power transmission. It is shown that the increase of accuracy of calculations can be reached in case of application of mathematical models of the second and third order. Increasing the detail of modeling causes an increase in the accuracy of the model, but is associated with an increase in the cumbersomeness of the mathematical model, and the application of the third-order model generally requires the involvement of complex numbers to implement appropriate calculations. The influence on the accuracy of calculation of the coordinate of the extreme point of the magnitude of the active and reactive load, as well as the loss of active power during the corona discharge is investigated. The possibility of application of the offered models in problems of regulation and adjustment of parameters of flexible power transmissions on the basis of lines of ultrahigh nominal voltage is shown. Thus, for typical designs of main power transmission systems of the UES of Ukraine, sufficient accuracy of calculations is provided by first- and second-order models, and only for ultra-long power transmission lines it is expedient to use a third-order mathematical model.
References
Y. Hase, Handbook of Power Systems Engineering with Power Electronics Applications, 2nd Edition. John Wiley & Sons, Ltd, 2013. XXVIII, 768 p. https://doi.org/10.1002/9781118443156 .
N. Petcharaks, Yu. Cunyi, and C. Panprommin, “A study of Ferranti and energization overvoltages case of 500 kV line in Thailand,” in 1999 Eleventh International Symposium on High Voltage Engineering, London, UK, 1999. https://doi.org/10.1049/cp:19990564 .
В. М. Сулейманов, і Т. Л. Кацадзе, Електричні мережі та системи. Київ, Україна: НТУУ «КПІ», 2008, 456 p.
ISBN 978-966-622-300-8.
Міненерговугілля України, Правила улаштування електроустановок, Харків, Україна: вид-во Форт, 2017.
Міністерство палива та енергетики України, ГКД 34.20.507-2003, Технічна експлуатація електричних станцій і мереж. Правила. [Електронний ресурс]. Режим доступу: http:// http://online.budstandart.com/ua/catalog/doc-page?id_doc=86234 .
X. Zhang, C. Rehtanz, and B Pal, Flexible AC Transmission Systems: Modelling and Control. Springer, 2012, 546 p. https://doi.org/ 10.1007/978-3-642-28241-6 .
Ю. І. Тугай, В. В. Кучанський, і І. Ю. Тугай, «Застосування керованих пристроїв компенсації зарядної потужності ЛЕП НВН в електричних мережах,» Технічна електродинаміка, № 1, с. 53-56, 2021. https://doi.org/10.15407/techned2021.01.053
В. Г. Холмский, Расчет и оптимизация режимов электрических сетей. М.: Высшая школа, 1975, 280 с.
В. А. Веников, и Ю. П. Рыжов, Дальние электропередачи переменного и постоянного тока, учеб. пос. для вузов, Москва: Энергоатомиздат, 1985, 272 с.
Ю. П. Рыжов, Дальние электропередачи сверхвысокого напряжения. Москва: Издательский дом МЭИ, 2007, 478 с. ISBN 978-5-383-00158-5.
Г. Н. Александров, Передача электрической энергии. С.Пб.: изд-во Политехнического ун-та, 2009, 412 с. ISBN 978-5-7422-2155-5 .
X. Qin, et al., “Transmission-line theory based study on voltage distribution along the line and the disposition scheme of series capacitors of UHV transmission lines with series capacitors,” in 2010 International Conference on Power System Technology, Zhejiang, China, 2010. https://doi.org/10.1109/POWERCON.2010. 5666658 .
Т. Л. Кацадзе, Д. В. Настенко, О. М. Панєнко, і О. М. Янковська, «Дослідження режиму напруги в дальніх електропередачах змінного струму,» Праці інституту електродинаміки, вип. 59, с. 43-55, 2021. https://doi.org/10.15407/publishing2021.59.043 .
Міністерство енергетики та вугільної промисловості України ,СОУ-Н ЕЕ 40.1-37471933-82:2013, Методичні рекомендації визначення технологічних витрат електричної енергії в трансформаторах і лініях електропередавання, 2013. [Електронний ресурс]. Режим доступу: http://online.budstandart.com/ua/catalog/doc-page?id_doc=59948 .
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