Design & Estimation of Solar Based ATM Counter
Keywords:
Solar Energy, Solar Panel, Battery, Payback PeriodsAbstract
This paper demonstrates a theoretical cost calculation for a particular Automated Teller Machine (ATM) counter which will operate through solar energy. Basically the paper is deal with two situations. First we represent the monthly cost when the ATM counter is not operate through solar energy and the next situation is that we calculate the cost when it is operate through solar energy. In this paper, we are going to discuss how we can reduce the cost for the particular ATM counter through solar energy. At last, we show the payback time for the operation process through solar energy. This will be a good option for the future and the overall result will provide an efficient system.
References
[1] N. R. Karki, “Reducing the cost of rural electrification: A key to improve the quality of life in rural areas in developing countries,” Conference Proceedings, International Conference on Power System Technology, PowerCon, vol. 1, pp. 447-452, Nov. 2004.
[2] N. M. Ijumba and C. W. Wekesah, “Application potential of solar and mini-hydro energysources in rural electrification,” Conference Proceedings, IEEE 4th AFRICON, vol. 2, pp. 720-723, 1996.
[3] B. T. Kuhn and R. S. Balog, “Design considerations for long-term remote photovoltaic-based power supply,” Twenty-Third Annual IEEE Applied Power Electronics Conference and Exposition, pp. 154-159, 2008
[4] G. Abla and E.-Z. Atef, “Design and economy of renewable energy sources to supply isolated loads at rural and remoate areas of Egypt,” 20th International Conference and Exhibition on Electricity Distribution CIRED, pp. 1-4, 2009.
[5] T. Q. Dung, “PV technology and success of solar electricity in Vietnam,” Conference Record of the Twenty-Sixth IEEE Photovoltaic Specialists Conference, pp. 29-36, 1997.
[6] M. Indradip and S. P. C. Gon, “Remote village electrification plan through renewable energy in islands of indian sunderbans,” The Energy and Resources Institute, 2005
[7] I. Schinca and I. Amigo, “Using renewable energy to include off-grid rural schools into the national equity project plan ceibal,” Conference Proceeding, International Conference on Biosciences, pp. 130-134, 2010
[8] H. J. Corsair, “Clean energy and extreme poverty: The cost burden of donated solar home lighting systems,” Conference Proceeding, IEEE Power and Energy Society General Meeting, pp. 1-6, 2009.
[9] C. T. Gaunt, R. Herman, and B. Bekker, “Probabilistic methods for renewable energy sources and associated electrical loads for Southern African distribution systems,” Conference Proceedings, CIGRE/IEEE PES Joint Symposium Integration of Wide-Scale Renewable Resources Into the Power Delivery System, pp. 1-7, 2009
[10] D. B. Snyman, “Centralized PV generation and decentralized battery storage for cost effective electrification of rural areas,” AFRICON Conference AFRICON `92 Proceedings, pp. 235, 1992.
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