Study of the Stability of a Hybrid Electric Power Complex with Non-Traditional and Renewable Energy Sources of Various Types with a Change in Load Power

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An urgent scientific and practical problem of modern distributed generation is being solved, aimed at the development of universal hybrid electric power complexes based on non-traditional and renewable energy sources of various types.

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作者简介

N. Baranov

Joint Institute for High Temperatures of the Russian Academy of Sciences

编辑信件的主要联系方式.
Email: nsmppve@iht.mpei.ac.ru
俄罗斯联邦, Moscow

K. Kryukov

Moscow Power Engineering Institute

Email: KriukovKV@mpei.ru
俄罗斯联邦, Moscow

N. Rodkin

Moscow Power Engineering Institute

Email: RodkinNS@mpei.ru
俄罗斯联邦, Moscow

参考

  1. Barnam S. A review of algorithms for control and optimization for energy management of hybrid renewable energy systems. Journal of Renewable and Sustainable Energy. 10. 053502. 2018.
  2. Dahmane M., Bosche J., El-Hajjaji A. and Dafarivar M. Renewable energy management algorithm for stand-alone system. International Conference on Renewable Energy Research and Applications (ICRERA), Madrid, Spain, 2013, pp. 621–626, doi: 10.1109/ICRERA.2013.6749830
  3. Zerkaoui S., A. E. Hajjaji and J. Bosche. On-line control strategy for instantaneous power management of hybrid power system based on dynamic fuzzy logic controller. 7th IEEE Conference on Industrial Electronics and Applications (ICIEA), Singapore, 2012, pp. 1130–1136, doi: 10.1109/ICIEA.2012.6360893
  4. Черных И. В. Моделирование электротехнических устройств в Matlab, SimPowerSystems и Simulink. М.: Изд. МК Пресс. 2014.
  5. Кузнецов С. Г., Клебанов Б. И. Применение средств MATLAB SIMULINK STATEFLOW для создания автономной модели интеллектуального агента // Современные наукоемкие технологии. 2021. № 5. С. 57–62.
  6. Вакушин А. А., Клебанов Б. И. Сравнительный анализ пакетов MATLAB.STATEFLOW/SIMULINK и ANYDYNAMICS для построения имитационных моделей социальных систем // Современные наукоемкие технологии. 2021. № 7. С. 18–23.
  7. Баранов Н.Н., Крюков К. В. Разработка системы управления гибридного электроэнергетического комплекса, в состав которого входят нетрадиционные и возобновляемые источники энергии разных типов. // Журнал «Известия РАН. Энергетика». 2021 г. № 4. С. 72–81. doi: 10.31857/S0002331021040038

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2. Fig. 1. HEC computer model

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3. Fig. 2. Model of the HEC operation mode controller

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4. Fig. 3. Structural diagram of the HEC

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5. Fig. 4. Power waveforms of the main structural elements of the HEC during load discharge

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6. Fig. 5. Diagrams of the output power of the PV and wind turbine regulators when the intensity of solar radiation and wind speed change

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7. Fig. 6. Diagram of the HEC operation (HEC operates at 30% of the load power (1.5 kW), while changing the operating modes of both FEG and wind turbine)

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