|
Plug-In Vehicles by 2010? Transitional Technology Could Help Make It Possible
by
: Mike Trudel
Lithium-ion (Li-ion) technology is ready to cause a major
stir in the automotive industry, according to panelists at a recent conference
in San Jose.
A prominent energy researcher with a government agency believes Li-ion batteries
will soon displace the traditional nickel metal hydride (NiMH) batteries usually
used in electric hybrid vehicles (HEVs). They may even be better suited for
"plug-ins," or cars that run entirely on electricity and are plugged into an
outlet or battery pack to recharge. That's good news for several leading auto
manufacturers set to release plug-ins by 2010.
The advantages of Li-ion battery technology over NiMH are real enough. Li-ion
batteries tend to have higher energy density and operate at higher voltages than
most other rechargeables. They also have a lower self-discharge rate. This means
that Li-ion batteries tend to retain their charge longer than their
counterparts.
A leading manufacturer of Li-ion batteries recently announced development of
Li-ion batteries with power densities of 3,500 watts per kilo and 3.7 volts.
That's twice the power density of NiMH batteries and three times the voltage.
All that power translates into fewer required cells. Fewer cells equals less
space and less weight. Less space and less weight equals better fuel economy.
While breakthroughs with Li-ion batteries are coming in surges now, the premiums
for these batteries are still at about $10,000 per car by some estimates.
Experts believe that cost will decrease as demand increases and production
becomes more efficient. Some have pointed out, however, that the batteries are
still less expensive than the fuel-cost savings they accomplish.
Barriers still remaining to the full integration of Li-ion technology into the
mass production of vehicles include high costs, the impact of charging the
battery and its depletion, and keeping batteries at the right temperature.
Li-ion batteries are sensitive; environments that are too hot or too cold
produce either reduced functionality or dangerous conditions.
Those dangerous conditions are worth noting, too. In 2006, a leading computer
manufacturer recalled a whopping 4.1 million laptops with lithium-ion batteries.
It was the largest safety recall in the history of the consumer electronics
industry, according to a government safety commission. Yet lithium-ions are
everywhere. They're impossible to escape from in modern society. Laptops, MP3
players, common rechargeable battery packs - they all depend on Li-ion
technology.
For the moment however, technologies enabling manufacturers to be flexible about
which batteries - either Li-ion or NiMH - they place in their vehicles may seem
the best option. Manufacturers for the auto industry foresee these transitional
dilemmas and are developing hybrid vehicle battery pack electronics designed for
various cells that can be globally integrated with lithium-ion or NiMH
batteries. The best of them have reusable building-block technologies, can
accommodate a range of voltages, have systems that maintain the health of the
battery cells and are applicable to mild hybrids, full hybrids or electric
vehicles. These "packs" are part of what could make sooner-than-later mass
integration of lithium-ion technology into the hybrid market possible.
With some luck and a good bit of research, lithium-ion technology may nix some
gasoline bills in the future...or at least, cut them down. With the right
technology gurus working together, consumers may eventually cruise around for
several hundred miles without filling their tanks, courtesy of lithium.
Author Resource:- Mike Trudel,
Freelance Writer.
Delphi Corporation is committed to contributing state-of-the-art technologies
and innovations in order to help make our roadways greener. For more
information, visit www.Delphi.com/4green.
Article From Altrana.com
|
|
