A number of things are somewhat overstated in this story, but that is
not particularly relevant. What is relevant is that we still do not
have a meaningful deliverable as far as the battery is concerned. We
do have several ways to get there now that are completely creditable
but are still grinding through the design realization stage. This
always takes time even when you know that you will touchdown.
What we have instead is a body of rapidly improving technology that
is simply waiting for the battery deliverable. Everyone knows now
that we are going to get there.
Also poorly understood is that the arrival of the commercial super
battery also mi am looking forward to my first electric that meets my
needs. I have also no doubt that it will be self driving as well.
From that moment, the cost of personal transportation will be on a
steady decline curve and yes it will be great!
Someday, Electric
Cars Will Be Great
Right now, they are
expensive, inconvenient, and not very good for the environment.
By Bjørn
Lomborg|Posted Sunday, April 14, 2013, at 7:00 AM
The idea of the
electric car has long captured the imaginations of innovators,
including even Henry Ford and Thomas Edison more than a century
ago. Celebrities, pundits, and political leaders alike have cast
these vehicles as the apotheosis of an environmentally responsible
future. German Chancellor Angela Merkel has proclaimed that there
will be 1 million electric cars on the Autobahn by
2020. President Barack Obama has likewise promised 1 million electric
cars in the United States, but five years sooner.
Someday, the electric
car will, indeed, be a great product—just not now. It costs too
much; it is inconvenient; and its environmental benefits are
negligible (and, in some cases, nonexistent).
Many developed
countries provide lavish subsidies for electric cars: amounts up to
$7,500 in the U.S., $8,500 in Canada, 9,000 euros in Belgium, and
6,000 euros even in cash-strapped Spain. Denmark offers the most
lavish subsidy of all, exempting electric cars from the country’s
marginal 180 percent registration tax on all other vehicles. For the
world’s most popular electric car, the Nissan Leaf, this exemption
is worth 63,000 euros.Yet this is clearly not enough. In Denmark,
there are still only 1,224 electric cars. In Germany, car sales
totaled 3.2 million in 2011, but only 2,154 were electric.
The numbers have
forced Obama and Merkel to reconcile their projections with reality.
The US Department of Energy now expects only about 250,000 electric
cars by 2015, or 0.1 percent of all cars on America’s roads.
Merkel recently admitted that Germany will not get anywhere near 1
million electric cars by 2020.
No one should be
surprised. According to an analysis by the Congressional
Budget Office, a typical electric car’s lifetime cost is roughly
$12,000 higher than a gasoline-powered car. Recent
research indicates that electric cars may reach break-even price
with hybrids only in 2026, and with conventional cars in 2032, after
governments spend hundreds of billions of dollars in subsidies.
Costs and subsidies
aside, electric cars have so far proved to be incredibly
inconvenient. ABBC reporter drove the 484 miles from London to
Edinburgh in an electric Mini and had to stop eight times to
recharge, often waiting six hours or more. In total, he spent 80
hours waiting or driving, averaging just over six miles an hour—an
unenviable pace even before the advent of the steam engine.
Electric cars also
fail to live up to their environmental billing. They are often sold
as “zero emissions” vehicles, but that is true only when they are
moving.
For starters, the
manufacturing process that produces electric cars—especially their
batteries—requires an enormous amount of energy, most of it
generated with fossil fuels. A life-cycle analysis shows
that almost half of an electric car’s entire CO2 emissions result
from its production, more than double the emissions resulting from
the production of a gasoline-powered car.
Moreover, the
electricity required to charge an electric car is overwhelmingly
produced with fossil fuels. Yes, it then emits about half the CO2 of
a conventional car for every mile driven (using European
electricity). But, given its high CO2 emissions at the outset, it
needs to be driven a lot to come out ahead.
Proponents proudly
proclaim that if an electric car is driven about 180,000 miles, it
will have emitted less than half the CO2 of a gasoline-powered car.
But its battery will likely need to be replaced long before it
reaches this target, implying many more tons of CO2emissions.
In fact, such
distances seem implausible, given electric cars’ poor range: The
Nissan Leaf, for example, can go only 73 miles on a charge. That is
why most people buy an electric car as their second car, for short
commutes. If the car is driven less than 32,000 miles on European
electricity, it will have emitted more CO2 overall than a
conventional car.
Even if driven much
farther, 93,000 nukes, an electric car’s CO2 emissions will be
only 28 percent less than those of a gasoline-powered car. During the
car’s lifetime, this will prevent 11 tons of CO2 emissions, or
about 44 euros of climate damage.
Given the size of the
subsidies on offer, this is extremely poor value. Denmark’s
subsidies, for example, pay almost 6,000 euros to avoid one ton of
CO2 emissions. Purchasing a similar amount in the European
Emissions Trading System would cost about 5 euros. For the same
money, Denmark could have reduced CO2 emissions more than a
thousand-fold.
Worse, electric cars
bought in the European Union will actually increase global
CO2emissions. Because the EU has a fixed emission target for 2020, it
will offset emissions elsewhere (perhaps with more wind power),
regardless of the type of car purchased: 38.75 tons of CO2 from
a gasoline car, and 16 tons from the electricity produced for an
electric car. But, while EU emissions stay the same, most
electric batteries come from Asia, so an extra 11.5 tons of emissions
will not be offset.
The electric car’s
environmental transgressions are even worse in China, where most
electricity is produced with coal. An electric car powered with that
electricity will emit 21 percent more CO2 than a
gasoline-powered car. And, as a recent study shows, because
China’s coal-fired power plants are so dirty, electric cars make
the local air worse. In Shanghai, air pollution from an additional
million gasoline-powered cars would kill an estimated nine people
each year. But an additional million electric cars would kill 26
people annually, owing to the increase in coal pollution.
The
electric-car mantra diverts attention from what really matters:
a cost-effective transition from fossil fuels to cheaper green
energy, which requires research and innovation. Electric cars might
be a great advance for that purpose in a couple of decades. But
lavish subsidies today simply enable an expensive, inconvenient, and
often environmentally deficient technology.
Hey! You have such an interesting and informative page, very interesting concept. Thanks for sharing this information.
ReplyDeleteLone Mountain Truck Leasing