Compressed air energy storage as backup generation capacity combined with wind energy sector in Poland – implementation possibilities

Czasopismo : AGH Drilling, Oil, Gas
Tytuł artykułu : Compressed air energy storage as backup generation capacity combined with wind energy sector in Poland – implementation possibilities

Autorzy :
Pavlenko, A.
Heat and gas supply, ventilation and heat power engineering Department of Poltava National Technical Yuri Kondratyuk University, Poltava, am.pavlenko@i.ua,
Koshlak, H.
Poltava National Technical Yuri Kondratyuk University, Poltava,
Vytyaz, O.
Petroleum (Oil and Gas) Engineering Faculty, Marinę Oil and Gas Department, vytvaz@nung.edu.ua,
Rybicki, Cz.
AGH University of Science and Technology, Faculty of Drilling, Oil and Gas, Kraków, Poland, rybicki@agh.edu.pl,
Kuczyński, S.
AGH University of Science and Technology, Faculty of Drilling, Oil and Gas,
Skokowski, D.
AGH University of Science and Technology, Faculty of Drilling, Oil and Gas,
Włodek, T.
AGH University of Science and Technology, Faculty of Drilling, Oil and Gas,
Polański, K.
AGH University of Science and Technology, Faculty of Drilling, Oil and Gas, polanski@agh.edu.pl,
Abstrakty : Wind energy sector has been developing at a fast pace in many countries around the world in recent years. However, there is an issue with the unpredictability of electricity production provided by wind turbines that is caused by variability of weather. Therefore, there is need to compensate the intermittency of wind energy by means of backup power generation facilities. One of the solutions is compressed air energy storage technology (CAES). The paper discusses the CAES technology characteristics as well as economic aspects of CAES plant construction and operation. The latest achievements and developments in the field of CAES technology is presented. The paper inspects the existing CAES facilities and discusses the possibilities of implementing this technology in Poland.

Słowa kluczowe : CAES, wind power plant, renewable energy, backup capacity, energy storage,
Wydawnictwo : Wydawnictwa AGH
Rocznik : 2015
Numer : Vol. 32, no. 1
Strony : 23 – 32
Bibliografia : 1 Global Wind Energy Council: Global Wind Report Annual Market Update. 2013.
2 BP Statistical Review of World Energy. 2014.
3 Urząd Regulacji Energetyki: ure.gov.pl, access: 25.08.2014.
4 Kepplinger J., Crotogino E, Donadei S.: Present Trends in Compressed Air Energy and Hydrogen Storage in Germany. SMRI Fali 2001 Technical Conference 3-4 Octo-ber2011.
5 Ośrodek Meteorologii IMGW.
6 PacifiCorp: Energy Storage Screening Study For Integrating Yariable Energy Resources within the PacifiCorp System. 2011.
7 Crotogino E, Mohmeyer K.-U., Scharf R.: Huntorf CAES / Morę than 20 years of successful operation. 2001.
8 Dresser-Rand: Compressed Air Energy Storage (CAES). 2010
9 Dzierżanowski Ł.: Elektrownie CAES. 2011.
10 Connolly D.: A Review of Energy Storage Technologies: For the integration of fluctuating renewable energy. 2010.
11 Mason J.E., Archer C.L.: Baseload eleetricity from wind via compressed air energy storage (CAES). 2012.
12 Elmegaard B., Brix W: Efficiency of Compressed Air Energy Storage. 2011.
13 NYSERDA: Compressed Air Energy Storage Engineering and Economic Study, Finał report. 2009.
14 Zunft S., Jakiel C, Koller M., Bullough C: Adiabatic Compressed Air Energy Storage for the Grid Integration of Wind Power. 2006.
15 Kim Y.M., Lee J.H., Kim S.J., Favrat D.: Potential and Evolution of Compressed Air Energy Storage: Energy and Exergy Analyses. 2012.
16 Madlener R., Latz J.: Centralized and Decentralized Compressed Air Energy Storage for Enhanced Grid Integration of Wind Power. 2009.
17 Gu Y., McCalley J., Ni M., Bo R.: Economic Modeling of Compressed Air Energy Storage. 2013.
18 Adamska B.: Elektrownie szczytowo-pompowe, ponad 100-letnia technologia szansą na przyszłość. 2013.
19 Radziewicz W.: System magazynowania energii CAES a energetyka wiatrowa. 2011.
20 Nagy S., Polański K., Ślizowski J.: The Possibility of Applying CAES Technology in Polish Conditions. 2014.
21 Ślizowski J., Lankof L., Wojtuszewska K.: Geomechaniczna ocena optymalnej głębokości komór magazynowych gazu ziemnego w polskich złożach soli kamiennej. 2007.
22 Bullough C, Gatzen C, Jakiel C, Koller M., Nowi A., Zunft S.: Advanced Adiabatic Compressed Air Energy Storage for the Integration of Wind Energy. 2004.
23 Badyda K., Milewski J.: Elektrownie CAES — możliwości akumulacji energii oraz współpracy ze źródłami odnawialnymi. 2010.
24 RWE: ADELE — Adiabatic Compressed-Air Energy Storage For Electricity Supply. 2010.
25 Liu W., Yang Y, Zhang W., Xu G., Wu Y: A Novel hybrid-fuel Compressed Air Energy Storage System for Chinaś Situation. 2012.
DOI :
Cytuj : Pavlenko, A. ,Koshlak, H. ,Vytyaz, O. ,Rybicki, Cz. ,Kuczyński, S. ,Skokowski, D. ,Włodek, T. ,Polański, K. , Compressed air energy storage as backup generation capacity combined with wind energy sector in Poland – implementation possibilities. AGH Drilling, Oil, Gas Vol. 32, no. 1/2015
facebook