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Assessment of wind farm availability with the ENERCON SCADA Remote 3 operational data registration system
Języki publikacji
Abstrakty
W pracy wyznaczono charakterystyki gotowości siłowni wiatrowych na przykładzie siłowni ENERCON typ E-82/BF/107/23/01/2.0MW eksploatowanych w farmie wiatrowej Glińsk 6.0 MW. Analizowane charakterystyki zostały wyznaczone na podstawie zbioru danych eksploatacyjnych uzyskanych z systemu ENERCON SCADA Remote 3. Do oceny gotowości siłowni wiatrowych zastosowano charakterystyki modelu procesu odnowy ze skończonym czasem odnowy. Wyznaczone charakterystyki umożliwiają zarówno ocenę możliwości przystąpienia do realizacji, jak i zrealizowania zadania (produkcji energii elektrycznej).
This paper analyzes wind turbine availability characteristics based on the example of the ENERCON type E-82/BF/107/23/01/2.0MW engine used at the Glińsk 6.0 MW wind farm. The analyzed characteristics were determined on the basis of a set of operating data obtained from the ENERCON SCADA Remote 3 system. In the evaluation of wind turbine availability, the characteristics of the renewal process model with finite regeneration time were used. The designated characteristics make both the assessment of the possibility of commencing an operation, as well as the completion of the task (production of electricity) possible.
Czasopismo
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Tom
Strony
41--48
Opis fizyczny
Bibliogr. 9 poz., rys., tab.
Twórcy
autor
- UTP Bydgoszcz
autor
- UTP Bydgoszcz
autor
Bibliografia
- [1] BILLINTON R., BAI G.: Generating capacity adequacy associated with wind energy. IEEE Transactions on Energy Conversion 19(3), 2004.
- [2] CHOWDHURY A., KOVAL D.: Modelling non-dispatchable wind energy sources in generating capacity reliability planning. Proceedings of the fourth IASTED International Conference Power and Energy Systems, Rhodes, Greece, 2004.
- [3] Communication from the Commission to the Council and the European Parliament: Renewable energy road map renewable energies in the 21st century: building a more sustainable future. COM, 2006, 848.
- [4] HAGHIFAM M.-R., OMIDVAR M.: Wind farm modelling in reliability assessment of power system. 9th International Conference on Probabilistic Methods Applied to Power Systems, KTH, Stockholm, Sweden, 2006.
- [5] KARKI R., HU P., BILLINTON R.: A simplified wind power generation model for reliability evaluation. IEEE Transactions on Energy Conversion 21(2), 2006.
- [6] MIGAWA K.: Availability control in transport means operation systems. University of Science and Technology in Bydgoszcz, Publishing Department, Dissertations no. 168, 2013.
- [7] MILLIGAN M.R.: A chronological reliability model incorporating wind forecasts to assess wind plant reserve allocation. AWEA WindPower 2002 Conference, Portland, Oregon, 2002.
- [8] MILLIGAN M.R.: A sliding window technique for calculating system LOLP contributions of wind power plants. Proceedings of the WindPower 2001 Conference, Washington, D.C., 2001.
- [9] PASKA J., BARGIEL J., OLEKSY A.: Application of value-based reliability approach in power transmission system planning. 7th International Conference on Probabilistic Methods Applied to Power Systems – PMAPS 2002, Naples, Italy, 2002.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-3ab901d5-075e-4966-a5e6-a56d6f50c56b