Analysis of a Hybrid Generation Scheme involving Wind and Solar PV for Grid Isolated Applications
Keywords:
Single-phase induction generator, Hybrid generation, Wind power, Grid-isolated operationAbstract
Harnessing wind power using induction generators have been widely practiced throughout the world. Hybrid wind solar generation schemes are a good option in grid isolated places. This paper presents a single-phase dual stator winding induction generator combined with a strategically connected photovoltaic panel for standalone operation suitable for microgeneration. This scheme can be installed in remote and grid unreachable areas as a reliable electrical source of power. The variable reactive power requirement of the generator is provided by a single-phase inverter. The variable frequency inverter source regulates the load voltage during fluctuating loads or low wind speeds. The generated voltage is converted to DC and is also assisted by the photovoltaic panel for battery charging. A fixed frequency inverter can then be used to supply the single-phase domestic loads. Suitable simulations validate the proposed strategy backed by experimental findings on a 250W, 240V, 50Hz, 4-pole generator.
References
M.R Patel, “Wind and Solar Power Systems”, 2nd edn., CRC Press, Boca Raton, 2006.
J.M Elder, J.T. Boys and J.L. Woodward, “Self-excited induction machine as a small low-cost generator”, IEE Proc. C, Vol. 131, Issue-2, pp. 33-41, March 1984.
L. Wang and C.H. Lee, “A novel analysis on the performance of an isolated self-excited induction generator,” IEEE Trans Energy Conv., Vol. 12, Issue-2, pp. 109-117, 1997.
T. Ahmed, K. Nishida and M. Nakaoka, “A novel stand-alone induction generator system for ac and dc power applications,” IEEE Trans. Ind. Appl., Vol. 43, Issue-6, pp. 1465-1474, 2007.
G. Marra and J.A. Pomilio, “Self-excited induction generator controlled by a VS-PWM bidirectional converter for rural applications,” IEEE Trans. Ind. Appl., Vol. 35, Issue-4, pp. 877–883, 1999.
S. Murthy, “A novel self excited self regulated single phase induction generator. I. Basic System and Theory,” IEEE Trans Energy Conv., Vol. 8, Issue-3, pp. 377-382, Sept 1993.
Y.H.A. Rahim, A.I. Alolah and R.I. Al Mudaiheem “Performance of single phase induction generators,” IEEE Trans Energy Conv., Vol. 8, Issue-3, pp. 389-395, Sept 1993.
S.S. Murthy, B. Singh and V. Sandeep, “A novel and comprehensive performance analysis of a single-phase two-winding self-excited induction generator,” IEEE Trans. Energy Conv., Vol. 27, Issue-1, pp. 117-127, March 2012.
O. Ojo, O. Omozusi and A. Jimoh, “The operation of inverter assisted single phase induction generator,” IEEE Trans. Ind. Electron, Vol. 47, Issue-3, pp. 632-640, June 2000.
T. Hirose and H. Matsuo, “Standalone Hybrid Wind-Solar Power Generation System Applying Dump Power Control Without Dump Load,” IEEE Trans. Ind. Electron, Vol. 59, Issue-2, pp. 988-997, Feb. 2012.
R.G. Wandhare and V. Agarwal, “Novel Integration of a PV-Wind Energy System With Enhanced Efficiency,” IEEE Trans. Power Electron, Vol. 30, Issue-7, pp. 3638-3649, July 2015.
A. Chatterjee, K. Roy and D. Chatterjee, “A Gravitational Search Algorithm (GSA) based Photo-Voltaic (PV) excitation control strategy for single phase operation of three phase wind-turbine coupled induction generator,” Energy, Vol. 74, pp. 707–718, 2014.
S.J. Park, B.B. Kang, J.P. Yoon, I.S. Cha and J.Y. Lim, “A Study on the Stand-Alone Operating or Photovoltaid Wind Power Hybrid Generation System,” in Proc. 35th Annul IEEE Power Electronics Specialists Conference, Aachen, Germany, pp. 2095-2099, 2004.
Q. Kou, S.A. Klein, and W.A. Beckman, “A method for estimating the long-term performance of direct coupled PV pumping systems,” Sol. Energy, Vol. 64, Issue-1, pp. 33–40, 1998.
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