💾 Archived View for gmi.noulin.net › mobileNews › 1860.gmi captured on 2023-06-14 at 17:22:41. Gemini links have been rewritten to link to archived content
⬅️ Previous capture (2023-01-29)
-=-=-=-=-=-=-
2010-03-10 12:31:14
By Ros Krasny Ros Krasny Tue Mar 9, 12:54 pm ET
BOSTON (Reuters Life!) Fueled by leftover chocolate and with components made
from carrots, potato starch and flax, the world's first sustainable Formula 3
racing car has a top speed of 135 miles per hour and can go from zero to 60 in
2.5 seconds.
Sound nuts? Not yet -- brake pads made from cashews are still under
development.
Meet Lola, the England's University of Warwick's blend of muscle and
eco-friendliness and the world's first racing car retrofitted with renewable
and sustainable materials.
Researchers from the British university showed off their prize possession at
the Massachusetts Institute of Technology's (MIT) energy conference in Boston.
"She's incredibly green, taking materials that would otherwise have ended up in
a landfill. It lets people engage with recycling without the finger-wagging,"
said Kerry Kirwan, one of the car's designers at the university.
"The public has really taken the car to its heart, because she's fun," he said.
Many of the car's components would more usually be found at a farmer's market
-- or in a trash bin, since most of the materials are actually industrial
waste.
The 2.0-liter BMW engine has been converted to diesel from gasoline and
configured to run on fuel derived from waste from chocolate factories or other
plant-based oils.
Among Lola's other unique features is a radiator that converts ozone back to
oxygen.
"It's a racing car that cleans up as it goes along," said Steve Maggs, another
member of the design team.
The WorldFirst Formula 3 racing car took the university more than nine months
to develop and cost around $200,000.
Kirwan said that the thinking behind the project was to find a way to really
put recycled materials to the test.
"A lot of these technologies were a huge leap of application, something that
shows the material under a really demanding application."
(Reporting by Ros Krasny; Editing by Patricia Reaney)