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Optimization model of the Joint operation of Pumped-Storage Hydro Plant and Wind Farm: Considering the Imbalances of Wind Power Output

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Warianty tytułu
PL
Model optymalizacji współpracy elektrowni szczytowo-pompowej i farmy wiatrowej – zjawisko niestabilności mocy wyjściowej elektrowni wiatrowej
Języki publikacji
EN
Abstrakty
EN
Since the future energy production of wind farm is uneasy to be precisely predicted, the integration of wind power into electric power system has been a difficult problem for many years. Recently, the widely emerged pumped-storage hydro plant can be used to balance the unstable output of wind farm, because the pumped-storage hydro plant can adjust its production to compensate wind power prediction errors. In this paper, a joint operation model between the wind farm and pumped-storage hydro plant is proposed. In this mode, there are two targets for the system: 1) maximizing the daily revenue of pumped-storage hydro plant; 2) partially compensating the deviations resulted from wind power output imbalances. Then we analyzed the economic benefits of pumped-storage hydro plant in the condition of both independent operation and joint operation. Finally, the model is applied in the actual operation of pumped-storage hydro plant. From the case study we can see that power incomes of pumped-storage hydro plant alone is reduced under joint operation model, while the comprehensive economic effect has actually increased in response to the stable output of wind power.
PL
W artykule przedstawiono model współpracy farmy wiatrowej z elektrownią szczytowo-pompową. Wspólna praca tych jednostek wynika z niestabilności energii wiatrowej i pozwala na jej redukcję. Zbudowany model umożliwia realizację dwóch celów: maksymalizacji dziennego zysku z magazynowania energii w elektrowni oraz częściowe ograniczenie wahań wytwarzanej energii, wynikające z niestabilności wiatru. Dokonano także analizy ekonomicznej zysków z pracy jednostek w trybach współpracy oraz pracy niezależnej. Przeprowadzono weryfikację opracowanego modelu na rzeczywistych danych.
Rocznik
Strony
207--211
Opis fizyczny
Bibliogr. 14 poz., tab., wykr.
Twórcy
autor
  • North China Electric Power University, China
autor
  • North China Electric Power University, China
autor
  • North China Electric Power University, China
autor
  • North China Electric Power University, China
autor
  • North China Electric Power University, China
Bibliografia
  • [1] YU Peng, ZHOU Wei, SUN Hui, GUO Lei, SUN Fushou, SUI Yongzheng, “Hybrid energy storage system and control system design for wind power balancing,” Proceedings of the CSEE, 31(2002), No. 1, 127-133.
  • [2] A. Vigueras-Rodríguez, P. Sørensen, A. Viedma, M.H. Donovand, E. Gómez Lázaro. “Spectral coherence model for power fluctuations in a wind farm,” Jour. of Wind Engineering and Industrial Aerodynamics, 102(2012), No.3, 14-21.
  • [3] YUAN Tiejiang, CHAO Qin, LI Yiyan, TOERXUN Yibulayin, “Short-term wind power output forecasting model for economic dispatch of power system incorporation large-scale wind farm,” Proceedings of the CSEE, 30(2010), No. 5, 23-27.
  • [4] ZHOU Ming, RAN Ruijiang, LI Gengyin, “Assessment on available transfer capacity of wind farm incorporated system,” Proceedings of the CSEE, 30(2010), No.8, 14-21.
  • [5] Soohyun, Kwak Jin, “Mutual authentication and key establishment mechanism using DCU certificate in Smart Grid”, AMIS, 6(2012), No. 1.
  • [6] Zhou Benhai, Qiao Jianzhong, “Research on parallel realtime scheduling algorithm of hybrid parameter tasks on multicore platform”, AMIS, 5(2012), No. 3.
  • [7] J. Matevosya, L.Söder, “Short-term hydropower planning coordinated with wind power in areas with congestion problems,” Wind Energy, 10(2007), No. 3, 195-208.
  • [8] M. Kapsali, J.K. Kaldellis, “Combining hydro and variable wind power generation by means of pumped-storage under economically viable terms,” Appl. Ener.,8 7(2010), No.5, 3475-85.
  • [9] HU Zechun, DING Huajie, KONG Tao, “A novel control strategy based on phase adjustment for microgrid parallel inverters without interconnection wires,” Automation of Electric Power Systems, 36(2012), No. 2, 35-39.
  • [10] J. Garcia Gonzelez, R.M.R. Mulela, L.M. Santos, A.M. Gonzalez, “Stochastic joint optimization of wind generation and pumped-storage units in an electricity market”. IEEE Trans on Power Systems, 23(2008), No. 2, 460-468.
  • [11] LIU Deyou, TAN Zhizhong, WANG Feng. “Study on combined system with wind power and pumped storage power”. Water Resources and Power, 24(2006), No. 1, 39-42.
  • [12] LI Qiang, YUAN Yue, LI Zhenjie, WANG Shengwei, LU Huayong, “Research on energy shifting benefits of hybrid wind power and pumped hydro storage system considering peak-valley electricity price,” Power System Technology, 33(2009), No. 1, 13-18.
  • [13] J.M. Angarita, J.G.Usaola, “Combining hybrid-generation and wind bidings and operation on electricity spot markets,” Electric Power System Research, 77(2007), No.4, 393-400.
  • [14] MIBEL-System information operator. RED Electrica Espana. http://www.esios.ree.es/web-publica/.2010.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d30ac3d0-c74c-4743-b273-ab55236e4311
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