FUTURE BUSES * Germany - AutoTram combines a bus and a tram to get the best of both worlds
The AutoTram research platform for testing new components and systems for use in the electromobile vehicles of tomorrow
Sankt Augustin,Germany -Gizmag,by Darren Quick -August 13, 2010: -- As part of its research into the public transport of tomorrow, researchers at Fraunhofer have developed the AutoTram – a vehicle as long as a streetcar and as agile as a bus... Combining the best of both vehicles it has no need for rails or overhead contact lines, instead the “bustrolley” rolls on rubber tires and follows a simple white line on the road surface. It was constructed to serve as a research platform in the institute’s “Fraunhofer System Research on Electric-Powered Mobility” project – a large-scale research cooperative involving 33 Fraunhofer institutes that focuses on developing mobility solutions for the future... The project is broken down into four areas of focus: Vehicle concepts; energy generation, distribution and conversion; energy storage technology; and technical system integration and social issues. The AutoTram was first mooted several years ago and was built to provide a platform for the researchers to test new developments in these areas, not only in simulations but in the real world. New modules for energy storage, double-layer capacitors and coupling coming directly from the Fraunhofer research laboratories are installed in the vehicle to allow them to prove their capabilities in the field. They have now presented their first results... Unlike cars, which remain parked for an average of 23 hours a day, buses and trams are in motion all day long. Which doesn’t leave much time to recharge the batteries. One solution approach the AutoTram takes involves fast-charge docking stations positioned at the stops along the route. Current can then be drawn at every third or fourth stop. The requisite amount of energy must be recharged in just 30 to 60 seconds at more than 1000 amperes and 700 volts... Accomplishing this in such a short period of time requires super-capacitors. Researchers are working to develop the modules required: for instance on energy storage units based on double-layer capacitors, on high-performance converters and on contact systems for the transmission of current. Unlike batteries, double-layer capacitors – also known as ‘supercaps’ – have a high power density. Those capacitors ensure that the charge can be quickly stored... (Image: Fraunhofer IVI)
Labels: future buses
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