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The costs of operating reserves in Polish power system

Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
PL
Koszty operacyjnych rezerw mocy w KSE
Języki publikacji
EN
Abstrakty
EN
In the paper the co-optimization of balancing energy and operating reserves problem was formulated. The co-optimization method was applied - as a case study - for assessment of the operating reserves costs in Polish power system. The results were compared with results obtained by using another method, in which second and minute reserves are purchased separate from the balancing energy and hour reserve (similar method is currently applied in Poland). Customers' potential benefits of employment of the co-optimization method were estimated. The paper also presents an estimated value of operating reserve costs in Polish power system with increasing wind power generation.
PL
W artykule sformułowano zadanie łącznej optymalizacji (kooptymalizacji) energii bilansującej i operacyjnych rezerw mocy. Zaproponowana metoda została zastosowana do oceny kosztów rezerw mocy w Krajowym Systemie Elektroenergetycznym (KSE). Otrzymane wyniki zostały porównane z metodą, w której rezerwy sekundowa i minutowa są kupowane oddzielnie od energii bilansującej i rezerwy godzinowej (podobna metoda jest aktualnie stosowana w Polsce). Oszacowano potencjalne zyski dla odbiorców z zastosowania metody kooptymalizacji. Przedstawiono również szacunkowe wartości kosztów rezerwowania elektrowni wiatrowych.
Rocznik
Strony
175--181
Opis fizyczny
Bibliogr. 27 poz., tab., wykr.
Twórcy
autor
  • Silesian University of Technology, Faculty of Electrical Engineering, Institute of Power Systems Engineering and Control, 2 Krzywoustego St, 44 - 100 Gliwice, roman.korab@polsl.pl
Bibliografia
  • [1] Load-Frequency Control and Performance, UCTE Operation Handbook, ver. 2.2, (2004), www.ucte.org
  • [2] Wood A.J., Wollenberg B.F., Power Generation, Operation and Control. John Wiley and Sons, New York (1996)
  • [3] Korab R., Lubicki W., Przygrodzki M., Tomasik G., LMPs Usage for Demand Balancing in Polish Power System. Paper no C5-214, 2006 CIGRE Session, Paris, France, (2006)
  • [4] Remedying Undue Discrimination Through Open Access Transmission Service and Standard Market Design, FERC, Docket No. RM01-12-000, (2002)
  • [5] Schweppe F.C., Caramanis M.C., Tabors R.D., Bohn R.E., Spot Pricing of Electricity. Kluwer Academic Publishers, Boston/Dordrecht/London (1988)
  • [6] Korab R., Tomasik G., AC or DC Based LMPs on Competitive Electricity Market? 2005 CIGRE/IEEE PES International Symposium Congestion Management in a Market Environment, San Antonio, Texas, USA, (2005), 61-68
  • [7] Chen J., Thorp J.S., Thomas R.J., Mount T.D., Locational Pricing and Scheduling for an Integrated Energy-reserve Market. 36th Hawaii International Conference on System Sciences, (2003), 54-63
  • [8] Arroyo J.M., Galina F.D., Energy and Reserve Pricing in Security and Network-Constrained Electricity Markets. IEEE Trans. on Power Systems, (2005), vol. 20, 634-643
  • [9] Ma X., Sun D., Cheung K., Energy and Reserve Dispatch in a Multizone Electricity Market. IEEE Trans. on Power Systems, (1999), vol. 14, 913–919
  • [10] Zheng T., Litvinov E., Contingency-Based Zonal Reserve Modeling and Pricing in a Co-Optimized Energy and Reserve Market. IEEE Trans. on Power Systems, (2008), vol. 23, 277-286
  • [11] Deqiang G., Litvinov E., Energy and Reserve Market Designs With Explicit Considerations to Lost Opportunity Costs. IEEE Trans. on Power Systems, (2003), vol. 18, 53-59
  • [12] Wu T., Rothleder M., Alaywan Z., Papalexopoulos A.D., Pricing Energy and Ancillary Services in Integrated Market Systems by an Optimal Power Flow. IEEE Trans. on Power Systems, (2004), vol. 19, 339-347
  • [13] Wang J., Wang X., Wu Y., Operating Reserve Model in the Power Market. IEEE Trans. on Power Systems, (2005), vol. 20, 223–229
  • [14] Tan Y.T., Kirschen D., Co-optimization of Energy and Reserve in Electricity Markets with Demand-side Participation in Reserve Services. IEEE Power Systems Conf. Expo., Atlanta, Georgia, USA, (2006), 1182–1189
  • [15] Korab R., Cooptimization of Balancing Energy and Operating Reserves in Competitive Electricity Market. Electrical Review, no 3, (2009), 120-123 (in Polish)
  • [16] Zimmerman R.D., Murillo-Sánchez C.E., D. Gan, MATPOWER - a MATLAB Power System Simulation Package, ver.3.0.0, (2005), www.pserc.cornell.edu\matpower
  • [17] Murtagh B.A., Saunders M.A., MINOS 5.5 User’s Guide, Stanford University Systems Optimization Laboratory, Technical Report SOL 83-20R, (1998)
  • [18] Stoft S., Power System Economics: Designing Markets for Electricity. Wiley-Interscience, New York (2002)
  • [19] Pure Power – Wind Energy Scenarios up to 2030, European Wind Energy Association, (2008), www.ewea.org
  • [20] Wind Force 12 – A Blueprint to Achieve 12% of the World’s Electricity from Wind Power by 2020. European Wind Energy Association, (2005), www.ewea.org
  • [21] Parsons B.K., Wan Y., Kirby B., Wind Farm Power Fluctuations, Ancillary Services, and System Operating Impact Analysis Activities in the USA, European Wind Energy Conference, Copenhagen, Denmark, (2001)
  • [22] Large Scale Integration of Wind Energy in the European Power Supply: Analysis, Issues and Recommendations. European Wind Energy Association, (2005), www.ewea.org
  • [23] Dany G., Power Reserve in Interconnected Systems with High Wind Power Production, IEEE Power Tech, Porto, Portugal, (2001)
  • [24] Doherty R., O’Malley M., A New Approach to Quantify Reserve Demand in Systems With Significant Installed Wind Capacity, IEEE Trans. on Power Systems, vol. 20, (2005), 587-595,
  • [25] Holttinen H., The Impact of Large Scale Wind Power Production on the Nordic Electricity System, VTT Technical Research Centre of Finland, VTT Publications 554, (2004)
  • [26] Operational Impacts of Integrating Wind Generation into Idaho Power’s Existing Resource Portfolio, Idaho Power, (2007), www.idahopower.com
  • [27] Operating Reserve Requirements as Wind Power Penetration Increases in the Irish Electricity System, Sustainable Energy Ireland, (2004), www.sei.ie
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOB-0020-0018
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