A UK company that goes by the name of Riversimple announced today that it has developed a new two-seater zero-emissions hydrogen-electric city car with an expected fuel-economy of 360 mpg (300 mpg in U.S. terms).
The Riversimple small city-car, which is supported by Porsche, integrates a 6kW fuel-cell system from Horizon Fuel Cell Technologies, which features ultra capacitors and 60 percent regenerative braking energy. That allows the two-seater Riversimple hydrogen-electric city-car to travel 240 miles on one small tank of hydrogen weighing 2.2 lbs.
“This innovative car could be made available to consumers for just 200 pounds Sterling ($315) per month,” says Riversimple.
It is reported that Riversimple is also planning a four-seater hydrogen-powered sedan that can travel 200 miles on a single tank of hydrogen.
Check out the press release and video after the jump.
Horizon’s Fuel Cells Power the World’s First Affordable Hydrogen Car
LONDON, June 16 /PRNewswire/ — Today a new generation of fuel cells developed by Horizon Fuel Cell Technologies has enabled the world’s first low-cost and practical hydrogen car. The top secret UK development unveiled today in London is a two-seater zero emissions hydrogen-electric city car with an expected fuel consumption equivalent to 360 miles per gallon*, six times better than today’s best available hybrid electric vehicles. What’s more, this innovative car could be made available to consumers for just 200 pounds Sterling ($315) per month.
Developed by Riversimple, the small city car integrates a 6kW fuel cell from Horizon Fuel Cell Technologies. The vehicle maximizes energy efficiency by utilizing lightweight composite materials, eliminating heavy mechanical component, and by networking fuel cells with ultra capacitors and 60% regenerative braking energy into one symbiotic system. The result is ground-breaking: 240 miles (390 km) can be traveled on one small tank of hydrogen weighing only 2.2 lbs (1 kilogram).
Hugo Spowers, founder of Riversimple said, “Horizon’s approach to commercialization of fuel cells perfectly complements our approach to bringing hydrogen fuel cell cars to market. Thanks to this partnership, we believe that we are closer to market with a commercially viable fuel cell car than anyone else in the world.”
The networked fuel cell power-train design led to a reduction in fuel cell power requirements by a factor of 6 compared to other urban vehicles of similar performance and by a factor of 15 compared to other fuel cell prototype vehicles – an effort further magnified by Horizon’s ability to supply high power fuel cells at greatly reduced costs.
“Many people lost track of the fact that fuel cell cars are electric cars, since fuel cells store and deliver electrical energy, just like batteries – only with significantly more storable energy per unit of weight. Batteries and ultra capacitors on the other hand, offer more power per unit of weight, but less storable energy,” said Taras Wankewycz, one of Horizon Fuel Cell Technologies’ founders. “Technologies have evolved, but more importantly, Riversimple brought them together as one system, in a way that greatly exceeds the sum of their individual benefits. This next generation hydrogen-electric car brings electric vehicles into a new stage where range, charge-time and cost are no longer commercial barriers.”
The Riversimple car will be commercialized internationally using an “open-source” production model inspired by the software industry, creating new entrepreneurial possibilities around the world and the promise of car manufacturing jobs within the communities where the vehicle is used. Because the car can be produced and maintained locally, the carbon footprint associated to century-old models of centralized car manufacturing and distribution is also significantly reduced.
Fuel Cells and Refueling
A fuel cell converts the chemical energy of hydrogen into usable electric energy without combustion, with water as its only by-product. Unlike batteries, fuel cells separate energy storage and energy conversion functions. If used as a primary source of power like many fuel cell vehicle developments to date, fuel cells can become extremely expensive as power needs impacts their size. But when changing the configuration and coupling the high energy density quality of fuel cells with higher power density ultra-capacitors, it is possible to greatly increase the performance of electric vehicles while reducing their cost. Ultra-capacitors are charged by the car’s regenerative braking system, providing power for acceleration. By de-coupling acceleration from cruising, a much smaller, lower power and lower cost fuel cell can be used.
With a smaller fuel cell consuming much less hydrogen, the vehicle no longer depends on large storage tanks, which greatly reduces the costs and complexities so far associated with hydrogen supply. Working simultaneously with BOC to make hydrogen affordable, sustainable and readily available for refueling, what many believed would be twenty or thirty years away can be done today by using an existing industrial hydrogen supply system.
Horizon started commercializing fuel cells four years ago from small and simple products to larger energy storage solutions. The company is emerging as a world leader in the commercialization of fuel cell integrated energy solutions and offers a complete range of products and solutions for the consumer, industrial and transportation markets. Horizon’s new multi-kilowatt systems, which are currently being adopted in various applications including cellular telecommunication sites, can store significantly more electrical energy than batteries.
Video source: Telegraph
– By: Omar Rana