HYBRID DISTRIBUTED GENERATION SYSTEMS WITH RENEWABLE SOURCES AND A NETWORK ENERGY STORAGE IN THE FORM OF COMPRESSED AIR

Authors

S.M. Asanova Kyrgyz State Technical University named after. I. Razzakova
T.K. Satarkulov LLC "Nur Al Energo"
D.U. Asanova Bishkek City Thermal Power Plant
K. Satarkulov Institute of Mechanical Science, Automation and Geomechanics of the National Academy of Sciences of the Kyrgyz Republic
A.B. Kalmurzaev Kyrgyz State Technical University named after. I. Razzakova

Keywords:

distributed energy system, renewable energy sources, solar power plant, micro-wind farm, solar battery, wind generator, inverter, mathematical model.

Abstract

The scheme of a hybrid wind-solar power plant with a compressed air energy storage is considered. A method is proposed for converting the constant voltage of solar power plants into an alternating voltage of acceptable power quality without the use of semiconductor devices, by using technological operations for generating electric energy in a certain sequence using a compressor, a compressed air energy storage device and a wind turbine. To generate electricity with a stabilized voltage frequency of 50 Hz, a new type of micro-wind farm of low power with a centrifugal regulator was used.

References

Suslov, K. Distributed filtering of high harmonics in Smart Grid / K. Suslov, N. Solonina, A. Smirnov // 2011 IEEE PES Innovative Smart Grid Technologies Europe conference.

Palizban, O. Microgrids in active network management – part II: System operation, power quality and protection / O. Palizban, K. Kauhaniemi, J.M. Guerrero // Renewable and Sustainable Energy Reviews. - 2014. - Vol.36. - P.440-451.

L.Sigrist, A review of the state of the art of UFLS schemes for isolated power systems / L. Sigrist, L. Rouco, F.M. Echavarren // Electrical Power and Energy Systems – 2018. – Vol.99.- P. 525–539.

Liu, Y. Modeling, planning, application and management of energy systems for isolated areas: A review / Y .Liu, S. Yu, Y. Zhu, D. Wang, J. Liu // Renewable and Sustainable Energy Reviews. - 2018. - Vol.82.- Part 1.- P. 460-470.

Basak, P. A literature review on integration of distributed energy resources in the perspective of control, protection and stability of microgrid / P. Basak, S. Chowdhury, S. Halder nee Dey, S.P. Chowdhury // Renewable and Sustainable Energy Reviews. - 2012. - Vol.16.- P.5545–5556.

Manoj Kumar M.V. Power quality of renewable isolated power systems - A case study / M.V. Manoj Kumar, R. Banerjee // 2010 5th International Conference on Industrial and Information Systems.

Смирнов С.С. Высшие гармоники в сетях высокого напряжения / С.С. Смирнов. - Новосибирск: Наука, 2010.- 327 с.

Бакасова А.Б. Моделирование микро - ГЭС малой мощности с маховиком, автоматически регулирующим момент инерции / А.Б. Бакасова, К.А. Сатаркулов, Г.Н. Ниязова, Яблочников А.М., Усубалиева Г.К. // Информатика и системы управления. 2019. № 1 (59). С. 36-45.

Бакасова А.Б. Расширенные варианты использования гидро - ветряной электроустановки и автоматическая стабилизация режимов ее работы / А.Б. Бакасова, М.С. Асанов, К. Сатаркулов // Проблемы автоматики и управления. 2021. № 3 (42). С. 4-14.

Сатаркулов К., Бакасова А.Б., Асанов М.С. и др. Ветро-гидроагрегат микроэлектростанции, Патент № 2319 КР. 2022 г.

Воздушно-аккумулирующая электростанция https://www.hydropower.ru/upload/iblock/777/73jmx5s78v0y0ykzco7k937vy5sw5ljm/ssu7iaqhemzk1nq032u2iysgwkz4uvxq.pdf (дата обращение 14.03.2024).

Асанов М.С., Асанова С.М., Асанова Д.У., Сатаркулов К., Сатаркулов Т.К. и др. Устройство регулирования скорости вращения вала гидроагрегата микроГЭС. / Патент №2262 КР. 2021 г.

Хэссард Б., Казаринов Н., Вэн И. Теория и приложения бифуркации рождения цикла; пер. с англ. – М.: Мир, 1985.