Feasibility Analysis of Standalone PV/Wind/Battery Hybrid Energy System for Rural Bangladesh
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National Energy Policy, M.o. Power, Editor. 2014, Government of Bangladesh: Energy and Mineral Resources.
Nandi, S.K. and H.R. Ghosh, Prospect of wind–PV-battery hybrid power system as an alternative to grid extension in Bangladesh. Energy, 2010. 35(7): p. 3040-3047.
M. R. Abedin and H. S. Das, "Electricity from Rice Husk: A Potential Way to Electrify Rural Bangladesh," International Journal of Renewable Energy Research (IJRER), vol. 4, pp. 604-609, 2014.
Khan, M., M. Iqbal, and S. Mahboob, A wind map of Bangladesh. Renewable Energy, 2004. 29(5): p. 643-660.
NASA Surface Meteorology and Solar Energy. 2015; Available from: https://eosweb.larc.nasa.gov/sse/.
Giday, Z.G., Technical and economic assessment of solar PV/diesel hybrid power system for rural school electrification in Ethiopia. International Journal of Renewable Energy Research (IJRER), 2014. 3(3): p. 735-744.
Mondal, A.H. and M. Denich, Hybrid systems for decentralized power generation in Bangladesh. Energy for Sustainable Development, 2010. 14(1): p. 48-55.
Tijani, H.O., C.W. Tan, and N. Bashir, Techno-economic analysis of hybrid photovoltaic/diesel/battery off-grid system in northern Nigeria. Journal of Renewable and Sustainable Energy, 2014. 6(3): p. 033103.
Rhaman, M.M., Hybrid Renewable Energy System for Sustainable Future of Bangladesh. International Journal of Renewable Energy Research (IJRER), 2013. 3(4): p. 777-780.
Bilal, B.O., et al., Methodology to Size an Optimal Stand-Alone PV/wind/diesel/battery System Minimizing the Levelized cost of Energy and the CO2 Emissions. Energy Procedia, 2012. 14: p. 1636-1647.
Abdilahi, A.M., et al., Feasibility study of renewable energy-based microgrid system in Somaliland׳ s urban centers. Renewable and Sustainable Energy Reviews, 2014. 40: p. 1048-1059.
Ngan, M.S. and C.W. Tan, Assessment of economic viability for PV/wind/diesel hybrid energy system in southern Peninsular Malaysia. Renewable and Sustainable Energy Reviews, 2012. 16(1): p. 634-647.
Nayeem, S.M., U. Yakub, and S.M. Golam Mostafa. Hybrid renewable energy system for Sandwip in Bangladesh, in Green Energy and Technology (ICGET), 2014 2nd International Conference on. 2014. IEEE.
Mukut, A.M.I., M.Q. Islam, and M.M. Alam, Analysis of wind characteristics in coastal areas of Bangladesh. Journal of Mechanical Engineering, 2008. 39(1): p. 45-49.
Islam, A.S., M. Islam, and T. Rahman, Effective renewable energy activities in Bangladesh. Renewable Energy, 2006. 31(5): p. 677-688.
Zubair, A., A.A. Tanvir, and M.M. Hasan, Optimal planning of standalone solar-wind-diesel hybrid energy system for a coastal area of Bangladesh. International Journal of Electrical and Computer Engineering (IJECE), 2012. 2(6): p. 731-738.
Islam, A.S., et al., Hybrid energy system for St. Martin Island, Bangladesh: An optimized model. Procedia Engineering, 2012. 49: p. 179-188.
Salehin, S., M.M. Rahman, and A.S. Islam, Techno-economic Feasibility Study of a Solar PV-Diesel System for Applications in Northern Part of Bangladesh. International Journal of Renewable Energy Research (IJRER), 2015. 5(4): p. 1220-1229.
Mondal, M.A.H. and A.S. Islam, Potential and viability of grid-connected solar PV system in Bangladesh. Renewable energy, 2011. 36(6): p. 1869-1874.
Mondal, M.A.H. Techno-economic feasibility of grid connected solar PV system in Bangladesh. in Developments in Renewable Energy Technology (ICDRET), 2009 1st International Conference on the. 2009. IEEE.
Nandi, S.K. and H.R. Ghosh, A wind–PV-battery hybrid power system at Sitakunda in Bangladesh. Energy Policy, 2009. 37(9): p. 3659-3664.
Bhuiyan, A.A., A.S. Islam, and A.I. Alam, Application of wind resource assessment (WEA) Tool: A case study in Kuakata, Bangladesh. International Journal of Renewable Energy Research (IJRER), 2011. 1(3): p. 192-199.
Bangladesh Meteorological Department. 2016 [cited 2016 01 January]; Available from: www.bmd.gov.bd/.
Sinha, S. and S. Chandel, Review of software tools for hybrid renewable energy systems. Renewable and Sustainable Energy Reviews, 2014. 32: p. 192-205.
Lau, K., C. Tan, and A. Yatim, Photovoltaic systems for Malaysian islands: Effects of interest rates, diesel prices and load sizes. Energy, 2015. 83: p. 204-216.
Sheilla, M., C.W. Tan, and C.S. Lim, Techno-Economic Analysis of a Photovoltaic-Fuel Cell Grid-Connected Hybrid Energy System. International Review on Modelling and Simulations (IREMOS), 2014. 7(1): p. 65-75.
Gan, C.K., et al., Design of a Hybrid Diesel/PV/Wind/Battery System in Remote Areas. International Review of Electrical Engineering (IREE), 2014. 9(2): p. 420-430.
Goel, S. and S.M. Ali, Cost Analysis of Solar/Wind/Diesel Hybrid Energy Systems for Telecom Tower by Using HOMER. International Journal of Renewable Energy Research (IJRER), 2014. 4(2): p. 305-311.
Mohammed, O.H., et al. Optimal design of a PV/fuel cell hybrid power system for the city of Brest in France. in Green Energy, 2014 International Conference on. 2014. IEEE.
Astronergy's CHSM 6610P 255-watt solar panels. 2015; Available from: http://www.wholesalesolar.com/products.folder/module-folder/Astronergy/CHSM6610P-255.html.
Surrette S6CS25P solar battery. 2015; Available from: http://www.wholesalesolar.com/products.folder/battery-folder/Surretterolls.html.
Hardy Diesel Generators. 2015; Available from: http://www.hardydiesel.com/diesel-generators/perkins-generator-8-30-kw.html.
Wind Turbine Generator. 2015; Available from: http://chinahummer.en.made-in-china.com/product-group/BqTmKfZubrch/10kW-Wind-Turbine-catalog-1.html.
Solectria PVI-10kW-208VAC. 2015; Available from: http://www.solar-catalog.com/inverter_m_comm_solectria.html.
H. S. Das, A. Yatim, C. W. Tan, and K. Y. Lau, "Proposition of a PV/tidal powered micro-hydro and diesel hybrid system: A southern Bangladesh focus," Renewable and Sustainable Energy Reviews, vol. 53, pp. 1137-1148, 2016.
DOI (PDF): https://doi.org/10.20508/ijrer.v6i2.3411.g6800
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