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Electric Vehicles Research
Posted on August 9, 2019 by Dr Peter Harrop

Death of internal combustion: 1000 kilometers EV range

Electric aircraft have got there. Cars next. With no road resistance, the best electric aircraft, the Bye Aerospace eFlyer, achieves 1000km with its solar wing option. This range will be the final nail in the coffin of internal combustion cars. It is longer than some of them offer. With gasoline stations shutting down, guess who then gets range anxiety! See the IDTechEx reports, Electric Vehicles 2020-2030 forecasting premium solar cars, mainstream solar cars and 98 other EV categories: unique detail. See also the IDTechEx report, Manned Electric Aircraft 2020-2030
 
1000km range for an electric car calls for four essentials: lowest drag factor and weight, most efficient drive train and solar bodywork. Elon Musk has promised 1000km range for the next Tesla Roadster and the Lightyear One solar car will be in production with 800km range next year. Both will have an eye-watering price but Lightyear intends to come down market. Hanergy showed back in 2016 that expanding panels of highest efficiency can give 1-1.5kW, enough to eliminate plugging in entirely for light car users. Tesla could use its falcon wing door technology to make solar panels unfolding on a parked car that never hit anything.
 
 
The Chief Engineer of Toyota Prius said he dreams of a car powered by the sun and Toyota is now starting trials using exceptionally efficient photovoltaics but, like Lightyear One, no expanding panels at this stage. The Prius is merely a test bed. Research and development organization NEDO and solar panel supplier Sharp are assisting, results being shared. The project started at the end of July.
 
The solar cell modules will be integrated into the roof, hood and tailgate of some Prius PHEVs to improve the range and fuel efficiency.
 
The tests will take place in Japan, for example in Toyota City, Tokyo, but also in other regions. The two project partners hope to simulate different conditions. The information will help in the development of a solar charging system for appropriate cars.
 
Toyota reveals that the cells have conversion efficiency of over 34% giving 860 watts. That is 4.8 times the output of the partial solar roof on the current Prius Prime. However, the standard consumption of the Prius-PHEV is 7.2 kWh/100 km - the future lies with solar vehicles achieving much better than that.
 
Top image: Bye Aerospace

Authored By: Dr Peter Harrop

Chairman

Posted on: August 9, 2019

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