МЕТАЛЛУРГИЯ КОМБИНАТЛАРИДАГИ ҚУВВАТИ 5,2 МВтЛИ СИНХРОН МОТОРЛАРИДАН ФОЙДАЛАНИШ ЖАРАЁНИДА ЭНЕРГИЯНИ ТЕЖАШ
Ключевые слова:
synchronous motor, reactive power, superexcitation, rotor winding loss, steel core magnetic loss, electromagnetic torque, static stabilityАннотация
The article presents data that during the operation of synchronous motors at metallurgical enterprises, they give reactive power to the electrical network when switching to overexcitation mode, which, as a result, contributes to an increase in the value of cosjн in the part of the network connected to the load. For this reason, a method for designing synchronous motors for operation at rated power during overexcitation and in the case of cosjn=0.9 is considered, which creates the possibility of energy saving.
Библиографические ссылки
Алиев И.И. Справочник по электротехника и электрооборудованию: Учеб. пособие для вузов. – 2-е изд., доп. – М.: Высш.шк., 2000. – 255 с.
Analysis of Electric machinery and drive systems. Second edition. Paul C. Krause, Oleg Wasyncuk, Scott. D. Sudhoff. IEEE Presseries on Power Engineering. 2002. IEEE.
Кацман М.М. Электрические машины. Изд. ВШ. М. 2002 г. - 469с
Копылов И.П. Электрические машины. Изд.ВШ. М. 2004 г.- 360с.
Шерназаров С.Э. “Effect of intermediate connections on the generator’s static stability” «Technical science and innovation» -Тошкент, 2019. №2.С.184-189.
Olimjon Toirov, Kamoliddin Alimkhodjaev, NuraliPirmatov and Aziza Kholbutaeva E3S Web of Conferences 216, 01119 (2020).
Пирматов Н.Б., Бекишев А.Е., Шерназаров С.Э. “Regulation of mains voltage and reactive power with the help of a synchronous compensator by two-axis excitation” E3S Web of Conferences 264, 04028(2021).
Файзиев, М. М., Курбанов, Н.А., Имомназаров, А.Б., Бобоназаров, Б.С., & Бекишев, А. Э. (2017). Моделирование неявнополюсного синхронного генератора в Matlab. Вестник науки и образования, 1(5 (29)), 10-14.
