telephone:+7 (8352) 222-490
Mail:info@interactive-plus.ru
rus eng


  1. Main
  2. Conference with publication of the collection [RSCI]
  3. A breakthrough in science: development strategies
  4. Setevye nakopiteli energii kak instrument rasshire...
Центр научного сотрудничества "Интерактив плюс"
info@interactive-plus.ru
+7 (8352) 222-490
2130122532
Центр научного сотрудничества «Интерактив плюс»
RU
428000
Чувашская Республика
г.Чебоксары
ул.Гражданская, д.75
428000, Россия, Чувашская Республика, г. Чебоксары, улица Гражданская, дом 75
+7 (8352) 222-490
RU
428000
Чувашская Республика
г.Чебоксары
ул.Гражданская, д.75
56.125001
47.208966

Setevye nakopiteli energii kak instrument rasshireniia funktsionala energosistemy

Proceeding
DOI: 10.21661/r-472188
Open Access
International Scientific and Practical Conference «A breakthrough in science: development strategies»
Creative commons logo
Published in:
International Scientific and Practical Conference «A breakthrough in science: development strategies»
Authors:
Papkin B. A. 1 , Chirkin V. G. 1 , Shustrov F. A. 1 , Nekrasov A. S. 1
Work direction:
Технические науки
Rating:
Article accesses:
1437
Published in:
eLibrary.ru
1 FSBEI of HE «Moscow Polytechnic University»
For citation:
Papkin B. A., Chirkin V. G., Shustrov F. A., & Nekrasov A. S. (2018). Setevye nakopiteli energii kak instrument rasshireniia funktsionala energosistemy. A breakthrough in science: development strategies, 183-186. Cheboksary: SCC "Interactive plus", LLC. https://doi.org/10.21661/r-472188
  • Metadata
  • Full text
  • Metrics
  • Related articles

Abstract

В данной статье описан потенциал по расширению функциональных возможностей систем регулирования генерируемой мощности в автономной системе энергоснабжения путем интеграции в состав энергосистемы сетевых накопителей энергии на базе аккумуляторных батарей. Обоснованы основные преимущества применения технологии хранения энергии в энергосистемах, а именно: расширение интеграции возобновляемых источников энергии, возможность регулировании частоты и напряжения сети, обеспечение энергетического арбитража, возможность отсрочки обновления существующей инфраструктуры.

References

  1. 1. Tummuru N.R., Mishra M.K., Srinivas S. Dynamic Energy Management of Renewable Grid Integrated Hybrid Energy Storage System // IEEE Trans. Ind. Electron. – 2015. – Т. 62. – №12. – С. 7728–7737.
  2. 2. Zhou T., Sun W. Optimization of Battery-Supercapacitor Hybrid Energy Storage Station in Wind/Solar Generation System // IEEE Trans. Sustain. Energy. – 2014. – Т. 5. – №2. – С. 408–415.
  3. 3. Shi J. и др. Application of a hybrid energy storage system in the fast charging station of electric vehicles // IET Gener. Transm. Distrib. – 2016. – Т. 10. – №4. – С. 1092–1097.
  4. 4. Luo X. и др. Overview of current development in electrical energy storage technologies and the application potential in power system operation // Appl. Energy. – 2015. – Т. 137. – С. 511–536.
  5. 5. Koohi-Kamali S. и др. Emergence of energy storage technologies as the solution for reliable operation of smart power systems: A review // Renew. Sustain. Energy Rev. – 2013. – Т. 25. – С. 135–165.
  6. 6. Castillo A., Gayme D.F. Grid-scale energy storage applications in renewable energy integration: A survey // Energy Convers. Manag. – 2014. – Т. 87. – С. 885–894.
  7. 7. Tani A., Camara M.B., Dakyo B. nergy Management in the Decentralized Generation Systems Based on Renewable Energy – Ultracapacitors and Battery to Compensate the Wind/Load Power Fluctuations // IEEE Trans. Ind. Appl. – 2015. – Т. 51. – №2. – С. 1817–1827.
  8. 8. Daud M.Z., Mohamed A., Hannan M.A. An improved control method of battery energy storage system for hourly dispatch of photovoltaic power sources // Energy Convers. Manag. – 2013. – Т. 73. – С. 256–270.
  9. 9. Bragard M. и др. The Balance of Renewable Sources and User Demands in Grids: Power Electronics for Modular Battery Energy Storage Systems // IEEE Trans. Power Electron. – 2010. – Т. 25. – №12. – С. 3049–3056.
  10. 10. Gungor V.C. и др. A Survey on smart grid potential applications and communication requirements // IEEE Trans. Ind. Informatics. – 2013. – Т. 9. – №1. – С. 28–42.
  11. 11. Pegueroles-Queralt J., Bianchi F.D., Gomis-Bellmunt O. A Power Smoothing System Based on Supercapacitors for Renewable Distributed Generation // IEEE Trans. Ind. Electron. – 2015. – Т. 62. – №1. – С. 343–350.
  12. 12. Aarathi A.R., Jayan M.V. Grid connected photovoltaic system with super capacitor energy storage and STATCOM for power system stability enhancement // 2014 International Conference on Advances in Green Energy (ICAGE). – IEEE, 2014. – С. 26–32.
  13. 13. Parastegari M. и др. Joint operation of wind farm, photovoltaic, pump-storage and energy storage devices in energy and reserve markets // Int. J. Electr. Power Energy Syst. – 2015. – Т. 64. – С. 275–284.

Comments(0)

When adding a comment stipulate:
  • the relevance of the published material;
  • general estimation (originality and relevance of the topic, completeness, depth, comprehensiveness of topic disclosure, consistency, coherence, evidence, structural ordering, nature and the accuracy of the examples, illustrative material, the credibility of the conclusions;
  • disadvantages, shortcomings;
  • questions and wishes to author.