Design of a docking station for solar charged electric and fuel cell vehicles

An effect of constant increase in the price of hydrocarbon-based fuels and the resulting pollution of environment have motivated researchers and the automobile industry to take a serious look at electric vehicles (EV). Hybrid technologies have also found their place in the automobile industry. Hybri...

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Hauptverfasser:	Robalino, D.M., Kumar, G., Uzoechi, L.O., Chukwu, U.C., Mahajan, S.M.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Automobiles Electric vehicle Electrochemical processes Energy Storage Environmentally friendly manufacturing techniques Fuel cell vehicles Fuel cells Hybrid electric vehicles Hydrogen Industrial pollution Joining processes Photovoltaic Power Generation Production Solar Energy
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creator	Robalino, D.M. Kumar, G. Uzoechi, L.O. Chukwu, U.C. Mahajan, S.M.
description	An effect of constant increase in the price of hydrocarbon-based fuels and the resulting pollution of environment have motivated researchers and the automobile industry to take a serious look at electric vehicles (EV). Hybrid technologies have also found their place in the automobile industry. Hybrid Electric and Plug-in Hybrid Electric Vehicles are being developed and improved constantly. An electric vehicle plugged in a docking station that stores energy from a solar panel array is probably the best way to charge a short-distance commuter EV rather than connecting it to the grid. Production of hydrogen by electrolysis of water and subsequent use through fuel cells is another possibility of using solar energy. A docking station consisting of solar panel array, DC-to-DC converter and batteries was designed. Compatibility with hydrogen electrolyzer was considered with emphasis on efficiency. Two separate tracks for plug-in vehicle were followed: a) Electric Energy Conversion; and, b) Proton Exchange Membrane (PEM) fuel cell. Range of the vehicle, charging rate and initial cost of the two separate tracks were calculated so that a direct comparison could be presented. Short distance commuters are the primary requirements for daily transportation of most individuals. Considering an average traveled distance of 10 miles per/day at an average speed of 30 miles/hour, these vehicles and docking stations could be used in most of the North American urban areas.
doi_str_mv	10.1109/ICCEP.2009.5211977
format	Conference Proceeding
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Hybrid technologies have also found their place in the automobile industry. Hybrid Electric and Plug-in Hybrid Electric Vehicles are being developed and improved constantly. An electric vehicle plugged in a docking station that stores energy from a solar panel array is probably the best way to charge a short-distance commuter EV rather than connecting it to the grid. Production of hydrogen by electrolysis of water and subsequent use through fuel cells is another possibility of using solar energy. A docking station consisting of solar panel array, DC-to-DC converter and batteries was designed. Compatibility with hydrogen electrolyzer was considered with emphasis on efficiency. Two separate tracks for plug-in vehicle were followed: a) Electric Energy Conversion; and, b) Proton Exchange Membrane (PEM) fuel cell. Range of the vehicle, charging rate and initial cost of the two separate tracks were calculated so that a direct comparison could be presented. 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identifier	ISBN: 9781424425433
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Automobiles Electric vehicle Electrochemical processes Energy Storage Environmentally friendly manufacturing techniques Fuel cell vehicles Fuel cells Hybrid electric vehicles Hydrogen Industrial pollution Joining processes Photovoltaic Power Generation Production Solar Energy
title	Design of a docking station for solar charged electric and fuel cell vehicles
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