Doi 10. 18635/2071-2219-2021-6-20-25 Методика синхронизации подачи энергии от ветрогенераторного парка А. В. Богатырев, ООО «Теплоэнергоэксперт»
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- Teploenergoexpert LLC, Moscow, Russia, CEO
- Keywords: wind turbine, synchronization, electric grid, efficiency.
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Шерьязов С. К., Шелубаев М. В. Разработка метода определения параметров ветропарка / / Вестник Красноярского государственного аграрного университета. - 2014. - № 10. - С. 182-187.
Marmidis, G., Lazarou, S., Pyrgioti, E. (2008). Optimal placement of wind turbines in a wind park using Monte Carlo simulation. Renewable Energy, 33(7), 1455-1460. https://doi.org/10.1016Zj.renene.2007.09.004. Kiranoudis, C. T., Maroulis, Z. B. (1997). Effective short-cut modelling of wind park efficiency. Renewable Energy, 11(4), 439-457. https://doi.org/10.1016/s0960-1481(97)00011-6. Для цитирования: Богатырев А. В. Методика синхронизации подачи энергии от ветрогенераторного парка / / Энергобезопасность и энергосбережение. - 2021. - № 6. - С. 20-25. https://doi.org/10.18635/2071-2219- 2021-6-20-25. Cite this paper: Bogatyrev, A. V. (2021). Synchronization of wind farm power supply into the utility grid. Energy Safety and Energy Economy, 6, 20-25 (in Russian). https://doi.org/10.18635/2071-2219-2021-6-20-25. Synchronization of wind farm power supply into the utility grid A. V. Bogatyrev, Teploenergoexpert LLC, Moscow, Russia, CEO Wind turbines and wind farms can be connected to the major electricity distribution system. This paper presents the research results on synchronization of wind farm power supply into the utility grid depending on parameters of the grid at the moment. Measurement time gets synchronized with the external time signal delivered from a navigating system like GLONASS. This can help eliminate antiphase operation of individual wind turbines. Connection diagrams and the whole methodology presented in this paper aim to make wind farm power supply into the grid more effective and loss-eliminating. Keywords: wind turbine, synchronization, electric grid, efficiency. References Ackermann, T. (2002). Transmission systems for offshore wind farms. IEEE Power Engineering Review, 22(12), 23-27. https://doi.org/10.1109/mper.2002.1098040. Hausler, M., Owman, F. (2002). AC or DC for connecting offshore wind farms to the transmission grid? Proc. of the Third International Workshop on Transmission Networks for Offshore Wind Farms, Stockholm, Sweden, pp. 11-12. Macken, K. J. P, Driesen, L. J., Belmans, R. J. M. (2001). A DC bus system for connecting offshore wind turbines with the utility system. Proc. of the European Wind Energy Conference, Copenhagen, Denmark, pp. 1030-1035. 25 Santjer, F., Sobeck, L.-H., Gerdes G. J. (2001). Influence of the electrical design of offshore wind farms and of transmission lines on efficiency. Proc. of the Second International Workshop on Transmission Networks for Offshore Wind Farms, Stockholm, Sweden, pp. 30-31. Svenson, J., Olsen, F. (1999). Cost optimising of large-scale offshore wind farms in the Danish waters. Proc. of the European Wind Energy Conference, Nice, France, pp. 294-299. Download 142.72 Kb. Do'stlaringiz bilan baham: 
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