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2018 | 25 | Special Issue S1 |
Tytuł artykułu

Increasing power supply safety in the aspect of supporting the renewable energy sources by conventional and virtual power stores

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This paper presents characteristics and purposefulness of supporting the renewable energy sources (OZE) by means of energy stores. The main emphasis was placed on analysis of virtual energy stores available for implementation in Polish economy conditions. A role which management of Demand Side Response (DSR) may play in balancing Polish electric power system, is discussed. Implementation of such solutions together with conventional energy stores may significantly influence power supply safety by assuring continuity of electric power supply at an acceptable price. Involvement of electric power consumers ( DSR ) should be one of the basic solutions for power markets in Poland and Europe
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Opis fizyczny
  • Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland
  • Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland
  • 1. Jakowski D., Dzida M.: Energy storage in compressed air – solution supporting renewable energy sources, Journal of Polish CIMAC. Vol. 9., No. 1 (2014), pp. 35-45
  • 2. Polski Komitet Energii Elektrycznej: Power market - in other words how to avoid blackout (in Polish), August 2016
  • 3. Jakowski D., Dzida M.: Gas turbines – technological development and potential use in CAES systems, Combustion Engines. 2016, 165(2), pp. 46-53
  • 4. Badyda K. Milewski J., CAES electric power plants – possible accumulation of energy and cooperation with renewable sources (in Polish), Monthly : Instal –Teoria i praktyka w instalacjach – Warszawa 2010 pp. 58-65
  • 5. Polskie Sieci Elektroenergetyczne, http://www. (visit on 15.05.2017)
  • 6. Ministerstwo Energii, Polskie Sieci Elektroenergetyczne: Power market – proposal of functional solutions (in Polish). Meeting to open consulting process on 4 July 2016, Warszawa Rynek_Mocy_-projekt_rozwi%25B1zan_funkcjonalnych. pdf
  • 7. Herlender K. : Storage of electric energy in SEE (in Polish), ENERGETAB 2013, Bielsko-Biała, September 2013 pp. 61-66
  • 8. IEA-ETSAP and IRENA Technology Brief E17 – January 2013, www.etsap.orgy, (odsłona z dnia 19.05.2017)
  • 9. Hauer, A. : Storage Technology Issues and Opportunities. Committee on Energy Research and Technology (International Energy Agency), International Low-Carbon Energy Technology Platform, Strategic and Cross-Cutting Workshop “Energy Storage – Issues and Opportunities”, 15 February 2011, Paris, France
  • 10. Mirek P.: Energy storage technique in liquified air (in Polish). Polityka Energetyczna – Energy Policy Journal 2016, Vol. 19, Issue 1 pp. 73-86
  • 11. Wojciechowski H.: Energy storage technologies. Part II, Instal 3/2017 pp. 16-27
  • 12. Ke Meng, Member, Zhao Yang Dong, Zhao Xu, Yu Zheng, David J. Hill: Coordinated Dispatch of Virtual Energy Storage Systems in Smart Distribution Networks for Loading Management. IEEE transactions on systems, man, and cybernetics: Systems, 14.04.2017
  • 13. Specification of crucial conditions to order (SIWZ) Intervention Operation service : Demand reduction on command of OSP (in Polish), (visit on 18.05.2017)
  • 14. Majchrzak H. Tomasik G., Kwiatkowski M.: Using energy storage technology for integration of wind power industry with electric power system (in Polish). Energetyka, October 2012
  • 15. Pakulski T, Czarnecki B.: Strategies of using energy stores and resulting profits (in Polish). Instytut Energetyki Gdańsk, (visit on 20.05.2017)
  • 16. Polskie Sieci Elektroenergetyczne: Mechanism of DSR (OPDSR) intervention programs (in Polish). Konstancin Jeziorna, 30.11.2016, ttp://
  • 17. Jannelli E., Minutillo M., Lubrano Lavadera A., Falcucci G.: A small-scale CAES (compressed air energy storage) system for stand alone renewable energy power plant for a radio base station: A sizing-design methodology, Energy 78 (2014) pp. 313-322
  • 18. Sciacovelli A., Vecchi A., Ding Y.: Liquid air energy storage (LAES) with packed bed cold thermal storage – From component to system level performance through dynamic modeling, Applied Energy 190 (2017) pp. 84-98
  • 19. Kousksou T., Bruel P., Jamil A., Rhafiki T., Zeraouli Y.: Energy Storage: Applications and challenges. Solar Energy Materials & Sollar Cells 120 (2014) pp. 59-80
  • 20. Forum Energii: How to develop DSR potential in Poland and lower cost of electric power system (in Polish), www., March 2017 (visit on 05.06.2017)
  • 21. Polskie Sieci Elektroenergetyczne: Prediction of covering power peak demand in the years 2016 – 2035 (in Polish), Konstancin-Jeziorna, 20 May 2016.
  • 22. Forum Analiz Energetycznych: Power market in Great Britain – an experience important for Poland (in Polish), April 2015.
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