Abstract
This paper investigates diesel units (DU)-battery energy storage systems (BESS) scheme to enable short-term dispatch commitment from a grid-connected wind turbine generating power station.The scheme is supplied by two distributed resources (DR) units, i.e., a synchronous machine and an electronically interfaced BESS. An operating policy to schedule short-term power dispatch for the scheme based on wind power forecast of the next interval,load demand and the charging/discharging characteristics of BESS is proposed. The studies show that an appropriate control strategy which by tracking active currents of BESS can ensure an acceptable level of dispatch security while maximizing wind energy harness.
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References
Lee, D.-J., Wang, L.: Small-Signal Stability Analysis of an Autonomous Hybrid Renewable Energy Power Generation/Energy Storage System Part I: Time-Domain Simulations. IEEE Trans.Energy Conver. 23(1), 311–319 (2008)
Vrettos, E.I., Papathanassiou, S.A.: Operating Policy and Optimal Sizing of a High Penetration RES-BESS System for Small Isolated Grids. IEEE Trans. Energy Conver. 26(3), 744–756 (2011)
Sovacool, B.K.: The intermittency of wind,solar,and renewable electricity generators:Technical barrier or rhetorical excuse? Utility Policy 17(3-4), 288–296 (2009)
Boyle, G.: Renewable Electricity and the Grid: Challenge of Variability. Earthscan, Sterling (2007)
Teleke, S., Baran, M.E., Huang, A.Q., Bhattacharya, S., Anderson, L.: Control Strategies for Battery Energy Storage for Wind Farm Dispatching. IEEE Trans. Energy Conver. 24(3), 725–732 (2009)
Voller, S., Al-Awaad, A.R., Verstege, J.F.: Benefits of energy storages for wind power trading. In: Proc. 2008 IEEE International Conference on Sustainable Energy Technologies, pp. 702–706 (2008)
Yao, D.L., Choi, S.S., Tseng, K.J., Lie, T.T.: Determination of Short-Term Power Dispatch Schedule for a Wind Farm Incorporated With Dual-Battery Energy Storage Scheme. IEEE Trans. Energy Conver. 24, 3(1), 74–83 (2012)
Wang, C., Nehrir, M.H.: Power management of a stand-alone wind/photovoltaic/fuel cell energy system. IEEE Trans. Energy Convers. 23(3), 957–967 (2008)
Fernandes, L., Figueiredo, J.: An economic analysis of a power production hybrid system. In: Proc. 5th Int. Conf. Eur. Electr. Market, Lisboa (May 2008)
Mitchell, K., Nagrial, M., Rizk, J.: Simulation and optimization of renewable energy systems. Int. J. Electr. Power Energy Syst. 27(3), 177–188 (2005)
Valenciaga, F., Puleston, P.F.: Supervisor control for a stand-alone hybrid generation system using wind and photovoltaic energy. IEEE Trans. Energy Convers. 20(2), 398–405 (2005)
Wies, R.W., Johnson, R.A., Agrawal, A.N., Chubb, T.J.: Simulink model for economic analysis and environmental impacts of a PV with diesel-battery system for remote villages. IEEE Trans. Power Syst. 20(2), 692–700 (2005)
Emadi, A., Williamson, S.S., Khaligh, A.: Power electronics intensive solutions for advanced electric, hybrid electric, and fuel cell vehicular power systems. IEEE Trans. Power Electron. 21(3), 567–577 (2006)
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Sun, CX., Pan, W., Guo, G. (2013). Operating Policy of Short-Term Power Dispatch for a Wind Farm. In: Yang, Y., Ma, M., Liu, B. (eds) Information Computing and Applications. ICICA 2013. Communications in Computer and Information Science, vol 392. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-53703-5_14
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DOI: https://doi.org/10.1007/978-3-642-53703-5_14
Publisher Name: Springer, Berlin, Heidelberg
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