"Things you know that ain't so - our renewable energy resources will charge our electric cars."
The government is promoting (in effect,
subsidising) electric cars because it believes that the electricity they need
to charge the batteries will mostly come from our renewable energy resources –
hydro, geothermal and wind.
The reality is somewhat different as you can see
from my comments on a recent government press release:
New Zealand is one of the most EV-ready and
friendly countries in the world. That’s because just over 80 percent of the country’s
electricity is generated from renewable sources.
This is true but
seriously misleading. Our renewable energy stations are fully committed to
supplying existing loads. Fossil fuelled generation is running for more than
90% of the time and it supplies all new loads. Putting it another way, if the
load suddenly dropped 100 MW the fossil fuel stations, not the renewable energy
stations, would reduce output to accommodate the change.
New Zealand has more than enough consented
renewable electricity generation waiting to support the widespread adoption of
electric vehicles.
This may be true but,
in reality most of it would not be used for changing electric vehicles because
much of the charging load would be concentrated in the early hours of the
evening and simply extend the period of the evening maximum demand and,
inevitably, be met by fossil fuel generation. It is important to note that
hydropower generation that could concentrate its operation over the peak demand
period is violently opposed by the environmentalists, geothermal generation
runs flat out all the time and wind generation is completely unpredictable.
Electric vehicles will replace petrol and
diesel with clean, green, locally produced energy, lessening our reliance on
imported oil.
This is true, but,
given the low price of oil and the huge resource still available, is relatively
trivial.
High renewable energy levels mean that the
emission reduction benefits of electric vehicles in New Zealand are greater
than in other countries.
Yes, but, as
discussed above, not by much. As many studies show, it is a very expensive way
of reducing emissions of carbon dioxide.
New Zealand motorists drive on average 29
kilometres per day. Average commutes in urban centres are even shorter, at
about 22 kilometres a day—a distance electric vehicles can handle easily without
recharging.
While this is true,
it ignores the fact that most people rely on their car to transport them for
the occasional long distance trip. Few people would tolerate having to stop for
half an hour or more every 100 - 200 km to top up the battery.
85 percent of New Zealand homes have
off-street parking, meaning electric vehicles can be easily charged overnight
at home.
More and more people
are living in townhouses and apartments where it would be very difficult to
arrange for a charging point complete with its own meter.
New Zealand’s 230-volt electricity system means every home has the potential to
charge an electric vehicle.
A standard 10 amp
socket will give an 80% recharge to a 90 kWh Tesla Model S in 10 hours and
virtually double the peak demand of the house. A 32 amp socket will do it
quicker but it will result in a huge increase in household peak demand. As
people move on to cost reflective tariffs, peak demand will become more and
more expensive.
Electric vehicles are cheaper to run than
petrol or diesel vehicles. On average, charging an electric vehicle at home is
equivalent to buying petrol at 30 cents a litre, compared to petrol, which is
around $2 a litre.
For
certain, the fuel cost is less. According to the Electric Power Research Institute
of the USA the overall ownership cost of a Nissan Leaf is comparable with the
cost of a similar sized petrol vehicle. But it is important to remember that,
in the United States, electric cars are heavily subsidised directly and
indirectly.
One can only conclude that the case for
subsidising or otherwise promoting electric cars in New Zealand is dubious in
the extreme and the government policy is not founded on careful research.
Electric cars are less convenient and, in the
long run cost about the same as conventional cars. They provide a small
reduction in carbon dioxide emissions at a very high cost.
If many governments around the world decide that
global warming is not a threat or that the carbon dioxide reduction of electric
cars is not worth the cost and withdraw the subsidies, then the electric car
industry could die.
This from Mercedes CEO Dieter Zetsche:
“Manufacturers will not see a return within a reasonable time on the billions
they’re investing now in electric cars…. You can reasonably say that nobody
today is making a battery-powered vehicle that’s economically viable in its own
right.”
7 comments:
Re Hydro supplying peak loads, that may have been so in the past but due to the massive increase of irrigation takes from hydro catchments (which is currently free of charge) water for electricity generation has and is declining. That water is energy and consequebtly valuable. So when will irrigators be required to pay for the energy loss? Or should electricity users pay irrigators for loss of irrigation?
Of course at the moment electricity users are subsidising irrigation even if they don't know it.
I don't see Tesla cars, at $120k+ being subsidized. But then you are getting a full-sized medium car, equivalent to a Merc, BMW etc, in quality, with 4-600 km per charge. Their small car/SUV will be available in US from March, $35k US.About 454k here. Better than a BMW i80/i2.
These big Co's have BIG corporate overheads, that's why Tesla can beat the big boys!
One way to avoid peak hours for charging electric cars would be to have an 'off peak system' like for heating water. The power company sends a ripple down the line to swich on or of the availability of this off peak power. Which is usualy charged at a cheaper rate. This power is available especialy at night, which should suit the charging of most electric cars. Also carbon dioxide is not the vilian here. It is an esential gas to all plant life and from the oxogen thry release to all animal life. The bad one from vehicules is carbon monoxide. Also electric motors vertually go forever with practically no maintainance, no engine oil, are quiet, and, non polutant. The huge advances in batteries over the last 20 years, or so will no doubt continue. By choise would you usea petrol engine to run your frig, washing machine, or vacumn cleaner?
Roger.................................Nelson
Excellent analysis.
If we continue to accept the Green's idea of renewable energy from wind power and sun sources we will land up in a position South Australia now finds itself. The Green Con is very likely to end up like most stupid ideas in the history books.
The advent of Trump's victory will see the major powers drop this expensive carbon tax lie, and it cannot come too soon. The need for common sense to prevail is long overdue and with Brexit and Trump a return to sensible politics is on the way.
Brian
Good information. Thanks Bryan, and commenters.
So perhaps it's time for the government to subsidise solar panel installation on private houses. The problem at the moment is that it takes about 12 years to recoup the costs, but the equipment will only last about 12 years, and during that 12 years new technology may render the old panels obsolete. So why bother?
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