Asian Journal of Electrical Sciences (AJES)
Solar-Wind Hybrid Generation System Using Single Axis Solar Tracker
Author : Nasir Farooq and Yusera Farooq KhanVolume 7 No.2 July-December 2018 pp 1-4
Abstract
As the name suggests the aim of our paper is to enhance the generation of electricity of solar-wind hybrid generation system by using single axis solar tracker. Since the efficiency of solar energy system is less than 50%, so to increase solar energy conversion we are using single axis solar tracking system with solar panel. Since we are alternating non-conventional energy resources for conventional energy resources due to environmental reasons. Thus we have to take steps to enhance the energy conversion capacity of non-conventional energy resources so as to produce bulk electricity with less economy. That is why we are using single axis solar trackers with solar panel to increase the amount of electricity generation from solar-wind hybrid generation system to provide uninterrupted power supply for the load demand.
Keywords
Hybrid generation, Solar tracker, wind energy
Full Text:
References
[1] Madhav Singh Thakur, Prof. Bhupendra Gupta, Prof. Veesundra Kumar and Prof. Mukesh Pandey, “Renewable hybrid energy system for sustainable and Economical power supply- A Review”, IJERT, Vol. 01, 2012.
[2] Swati Negi and Lini Mathew, “Hybrid Renewable energy system- A Review”, IJEEE, Vol. 07, pp. 535-542, 2014.
[3] Er. Pankaj Bodhwall and Poonam Rahira, “A Hybrid solar-wind power generation system, Desigining and Specifications”, IJEEE, Vol. 08, 2016.
[4] J. Gordson, M. Karthick, T. Muthukrishan and M.S. Sivangamasundra, “Solar PV-Wind Hybrid Power Generation System”, IJAREE, Vol. 02, 2013.
[5] J.B.V. Subrahmanyan, P. Alluvada, Bandana, K. Bhanupriya and C. Sashidar, “Renewable Energy System: Development & Persectives of a Hybrid Solar Wind System”, EETASR, Vol. 02, 2012.
[6] Karim Mausa,Hamzah A lzu’bi, and Ali Diabat, “Design of Hybrid Solar-Wind Power plant optimization”, IEEE, 2010.
[7] Ashish S. Ingole and Prof. Bhushan S. Rakhonde, “Hybrid Power Generation System Using Wind Energy and Solar Energy”, Vol. 5, No. 3, March 2015, 1 ISSN 2250-3153.
[8] Jyotikant and Harihar Singh, “Scope of a Hybrid Solar & Wind Energy System for Jodhpur Region”, IJSR, Vol. 03, 2012.
[9] Hans Bludszuweit, José Antonio Domínguez and José Luis Bernal. “Pre-feasibility study of a grid connected wind-PV hybrid system with energy storage and power prediction”, Conference, 2006.
[10] M. H. Nehrir, C. Wang, K. Strunz, H. Aki, R. Ramakumar, J. Bing, Z. Miao and Z. Salameh, “A Review of Hybrid Renewable/Alternative Energy Systems for Electric Power Generation: Configurations, Control, and Applications”, IEEE Transactions on sustainable energy, Vol. 2, No. 4, October, 2011.
[11] Abtin Ataei, Reza Rashidi, Mojtaba Nedaei and Elnaz Kurdestan. “Techno-economic viability of a hybrid wind and solar power system for electrification of a commercial building in Shiraz”, Iran, Advances in Energy Research, Vol. 3, No. 4, pp. 251-263, 2015.
[12] Christopher J. Rhodes, “Solar energy: principles and possibilities”, Science Progress, Vol. 93, No.1, pp. 37–112, 2010.
[13] Randell Johnson, “Reliability Analysis using PLEXOS”, Energy Exemplar LLC.
[14] T. Markvart, “Sizing of hybrid PV–wind energy systems”. Solar Energy, Vol. 59, 1996.
[15] BS Borowy and ZM Salameh, “Methodology for optimally sizing the combination of a battery bank and PV array in a wind/PV hybrid system”, IEEE Trans Energy Conver, Vol. 11, pp. 367- 373, 1996.
[16] HX Yang, L Lu and W Zhou, “A novel optimization sizing model for hybrid solar– wind power generation system”. Solar Energy, Vol. 81, No. 1, pp. 76–84, 2007.
[17] Sandeep Kumar and Vijay Kumar Garg, “A Hybrid model of solar-wind power generation system”, IJAREEIE, August 2013.
[18] R.Chedid, H. Akiki, “A decision Support Technique for the Design of Hybrid Solar-Wind Power System” , IEEE Transaction of Energy Conversion, Vol. 13, No.1,pp. 154-176, March 1998
[19] Jin Wang, Fang Z. Peng, Joel Anderson, Alan Joseph and Ryan Buffen Barger, “Low System for Residential Power Generation”, IEEE Transaction on Power Electronics, Vol. 19, No. 5,pp. 660-687, Sept. 2009.
[20] B.U. Musa, B. M. Kalli, M.G. Sadiq and B.U. Tijjani, “Modeling and Analysis of Hybrid Solar/Wind Power System for a Small Community”, Vol. 10, No. 1, Ver. I, pp. 39-45, Jan – Feb, 2015.
[21] Sandeep Kumar and Vijay Kumar Garg, “A Hybrid Model Of Solar-Wind Power Generation System”, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, Vol. 2, No. 8, August 2013.
[22] J.Bhagwan Reddey and D.N. Reddy, “Probablistic Performance Assessment of a Wind, solar Photo Voltaic Hybrid Energy System”.
[23] Riad Chedid and Safur Rahman, “Unit Sizing and Control of Hybrid Wind Solar Power Systems”, IEEE Transaction of Energy Conversion, Vol. 12, No. 1, pp. 181-195, March 1997.
[24] Stanley R. Bull, “Renewable Energy Today and Tomorrow‖”, Proceedings of the IEEE, Vol. 89, No. 8, pp. 316-381, August 2001.
[25] Rajesh Gopinath, Sangsun Kim, Jae-Hong Hahn, Prasad No. Enjeti, Mark B. Yeary and Jo W. Howze, “Development of a Low Cost Fuel Cell Inverter System with DSP Control”, IEEE Transaction on Power Electronic, Vol. 19, No. 5, pp. 654-854, Sept. 2004.
[26] Sunny W. Y. Tam and Tom Chang, “Kinetic Evolution and Acceleration of the Solar Wind”, Geophysical research letter, Vol. 26, No. 20, pp. 3189- 3192, October 1999.
[27] Dr. Recayi Pecen, Dr. MD Salims, Dr. Marc Timmerman, “A Hybrid Sola-wind Power Generation System as an Instructional Resource for Industrial Technology Students”, Vol. 16, No. 3, pp. 565-600, May/July 2000.