(Bloomberg) -- Not every advance in electric-vehicle technology takes place inside the sterile calm of a research laboratory.
BMW
AG, Volkswagen AG’s Audi and a Silicon Valley-based battery maker are
helping push the boundaries by racing electric-powered cars through
Saudi Arabia, New York, London and Seoul at speeds topping 170 mph.
Breakthroughs
made by competitors in Formula E, which began its sixth season this
week, are being incorporated into family SUVs and sedans –- and even
India’s electric rickshaws -- as manufacturers seek to improve and
extend their electric lineups while nations gradually phase out gas
guzzlers. More powerful batteries and better motors, energy-management
software and braking systems are all being transferred from the
racetrack to the showroom.
“What
we are doing in Formula E is highly relevant back on the road,” said
Dilbagh Gill, chief executive officer and team principal of India’s
Mahindra Racing, the motorsport unit of Mahindra & Mahindra Ltd. “We
are able to come in and help them immediately in improving the
product.”
Formula
E, which began in 2014 with an “E-Prix” in Beijing, has 12 teams,
almost all of which involve automakers producing or developing
battery-powered vehicles for consumers – such as Nissan Motor Co. and
Tata Motors Ltd.’s Jaguar brand.
Volkswagen’s
Porsche and Daimler AG’s Mercedes-Benz brand are new participants in
the 14-race season that opened Friday in Saudi Arabia. The schedule runs
through July, concluding with the two-day London E-Prix.
Briton
Alexander Sims racing with BMW i Andretti Motorsport won Saturday’s
race on the outskirts of the Saudi capital Riyadh, with his German
teammate Maximilian Guenther coming in second.
Last
season’s champion was DS Techeetah, the Chinese-owned team of PSA
Group’s DS Automobiles. Its DS E-Tense FE20 machine can accelerate from
zero to 100 kph (62 mph) in 2.8 seconds.
DS
Automobiles is taking the powertrain –- parts including the motor and
inverter -– from its Formula E entry and putting it inside a concept car
called the DS X E-Tense. It also will use the same operating software
across its planned range of electric passenger vehicles.
PSA Group, also home to the Peugeot and Citroen brands, is targeting a fully electrified fleet by 2025.
“The
cars that win in Formula E are the most energy efficient, which is
largely driven by software,” Paris-based DS Automobiles said.
“Everything we do in Formula E with algorithms and software we try to
replicate in series production.”
Rules
intended to limit costs for teams and keep the series competitive mean
racers use a standardized lithium-ion battery manufactured by a unit of
Newark, California-based Lucid Motors Inc.
During
the first four seasons of Formula E, drivers needed to change cars in
the middle of a race -- leaping from one cockpit into another -- because
the power packs couldn’t complete a whole event, which typically lasts
about 45 minutes.
Lucid’s batteries, introduced last season, eliminate the need for that switch.
“The
real reason we are doing this is to demonstrate that we have
world-class technology, which will find its way into our forthcoming
road car,” said Chief Executive Officer Peter Rawlinson, previously
chief engineer of Tesla Inc.’s Model S.
The
company plans to start producing its Lucid Air sedan in Arizona next
year, boasting of a range topping 400 miles and a speed exceeding 200
mph.
Lucid’s
Formula E batteries pack in more energy than alternatives that are
commercially available for regular cars, said James Frith, a
London-based analyst for BloombergNEF.
“If Lucid can transfer this technology to commercial electric vehicles, it could give them a real advantage,” he said.
Another key focus for Mahindra, DS Techeetah, Audi and the others is finding the best way to slow a car down.
Since
most vehicles lose energy as heat when a driver hits the brakes and
causes friction, electric race cars use regenerative braking systems. In
effect, a car’s motor goes into reverse to both slow the wheels and act
as a generator to send power back into the battery.
The
technology helps to boost driving range, meaning passenger cars could
use smaller batteries, said Allan McNish, team principal of Audi Sport
ABT Schaeffler.
“Regenerating
energy is going to be a key factor for the development of road cars,”
said McNish, an ex-Formula 1 driver and a three-time winner of the 24
Hours of Le Mans endurance race.
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