Performance Analysis of Battery Banks with PV-Wind Connected Hybrid Distributed Power System
 |
International Journal of Engineering Trends and Technology (IJETT) |  |
| © 2015 by IJETT Journal | ||
| Volume-29 Number-4 |
||
| Year of Publication : 2015 | ||
| Authors : Karuna Nikum, Rakesh Saxena, Abhay Wagh |
||
| DOI : 10.14445/22315381/IJETT-V29P233 |
Citation
Karuna Nikum, Rakesh Saxena, Abhay Wagh"Performance Analysis of Battery Banks with PV-Wind Connected Hybrid Distributed Power System", International Journal of Engineering Trends and Technology (IJETT), V29(4),177-182 November 2015. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
This paper proposes a standalone hybrid power generation system, fed by wind, solar power, and storage battery. Hybrid renewable energy sources (HRES) is an excellent solution for electrification of remote rural areas where the grid extension is difficult and not economical. Most of the isolated grid is powered by the diesel generation system. Such system has several problems like high cost of fuel with extra transportation cost& negative environmental effect etc. The reduction of pollutant emission is achieved by choosing to supply the load by hybrid system with battery of different capacity rather than diesel generator. The sources can operate in parallel to the grid or can operate in island, providing UPS services and smart grid controls individual small micro grid to monitor and control. This paper analyses the feasibility of hybrid power generation over wind & solar standalone system with various combination of battery capacity for reducing the system overall cost. For this hybrid system, the meteorological data of solar isolation is taken for Mumbai and the pattern of load consumption are studied and modeled for optimization of the hybrid energy system using HOMER software. HOMER (Hybrid Optimization Model for Electric Renewable) is a designed model that determines the optimal architecture and control strategy of the hybrid system.
References
[1] V.K. Soni and R. Khare, “Optimal sizing of HRES for small sized institute using HOMER”,IEEE 2nd International Conference on Electrical Energy Systems, ICEES2014, pp. 77-81.
[2] A. Martin , C. Leon and F. Biscarri, “Intelligent management experience on efficient electric power system”, International conference on Renewable Energies & power quality, ICREPQ , 8th-10thapril, 2014.
[3]Md. Moniruzzaman Tanim, Nawshad Ahmed Chowdhury, Mirza Mahbubur Rahman and Jannatul Ferdous, “Design of a phoyovoltaic biogas hybrid power generation system for Bangladesh remote area using Homer software ”, 3rd international conference on development in renewable energy technology ICDRE 2014, pp. 1-5.
[4] E. Riberio, A.J. M. Cardoso and C. Boccaletti, “Modular Hybrid storage system for renewable energy standalone power supplies”, 39th Annual Conference of the IEEE,Industrial Electronics Society, IECON 2013, pp. 1749- 1754.
[5] P.C. Loh, D. Li, Y. K.Chai and F. Blaabjerg, “Hybrid Ac-Dc microgrids with energy storages and progressive energy flow tuning”, IEEE transaction power electrin., vol.28, no.4, pp.1533-1542, April 2013.
[6] Nayeem A. Ninad and Luiz A.C.Lopes, “Unbalanced operation of per phase vector controlled four leg grid forming inverter for stand alone hybrid system”, pp.3500-3505, 25-28 oct, 2012.
[7] N. Pradhan, N.R Karki and B.R Pokhrel, “Reliability evaluation of small standalone hybrid solar PV-wind power system”,IEEE International Conference Sustainable Energy Technologies ICSET 2012,pp. 259-264.
[8] M.V.S.Laxhmi, C. Sai Babu and S. Prasad, “Design of offgrid homes with Renewable energy sources”, 3rd international conference on Sustainable Energy and Intelligent Systems, SEISCON 2012, IET Chennai , pp.1-7.
[9] M.Anwari,M.I.M. RashidH.T.M. Muhyiddin and A.R.M.Ali, “An evaluation of hybrid wind/diesel energy potential in Pem anggil IslandMalaysia”, International Conference on Power Engineering and Renewable Energy ICPERE 2012, pp. 1-5.
[10] R.F.Coelho,L. Schimtz and D.C. Martins, “Grid-connected PV-wind-fuel cell hybrid system employing a supercapacitor bank as storage device to supply a critical DC load”, Telecommunications Energy Conference”, INTELEC 2011, IEEE 33rd International, pp. 1-10.
[11] KhurshidHasan, Kaniz Fatima and Md. Sohelmahmood, “Feasibility of Hybrid Power Generation over Wind and Solar Standalone System”, e 5th International Power Engineering and Optimization Conference (PEOCO 2011, pp.1-7.
[12] Seyed Javad Mirazimi and Mohammad Fathi,“Analysis of Wind/Fuel cell/Battery/diesel energy system underAlask a condition”, 8th Electrical Engineering/ Electronics, International Conference on Electrical power system,Computer Telecommunications and Information technology, ECTI 2011,pp. 917-920.
[13] Andrew Xavier, Anand.M, Sivakumar, “Modelling and analysis of emulator for distributed generation sourced smart grid using digital signal controller (TMS320F28335)”, IEEE PES Innovative smart grid Technologies-India, 2011.
[14] P. Bajpai, S. Kumar and N.K. Kishore, “Sizing optimization and analysis of a standalone WTG system using hybrid energy storage technologies”, Proceedings of the International Conference on Energy and Sustainable Development: Issues and Strategies ESD 2010, pp. 1-6.
[15] Xiangjun Li, Dong Hui, Xiaokang Lai, MinaggaoOuyang, yong Min, “Fuzzy logic based coordinated controller for wind/battery/IDSMS hybrid micro-grid power system”, pp.263-267, vol.4, IEEE 2010.
[16] A.Gargoom, A.M.OsmanHaruni,Md. E. Haque and M.Negnevitsky,“Hybrid standalone power systems with hyd rogen energy storage for isolated communities, ”IEEE Conference and Exposition on Transmission and Distribution, pp.1-6, 2010.
[17] M.S. Alam, and D.W. Gao, “Modeling and Analysis of a Wind/PV/Fuel Cell Hybrid Power System in HOMER”, 2nd IEEE Conference on Industrial Electronics and Applications,pp. 1594-1599, 2007.
[18] N.Sivaramakrishna and Ch. Kasi Ramkrishna Reddy, “Hybrid power Generation through combined solar-wind power & modified solar pannel”, IJETT- 2013, vol.4, issue- 5 pp.1414-1417, 2013.
Keywords
Storage battery, Hybrid renewable energy sources (HRES), HOMER, Isolated grid, Micro grid, Smart grid.