Kites that
harness steady winds several hundred metres above the ground may be a viable
alternative to wind turbines
The kite
sail rose from the grass and starts swinging slowly. It looked clumsy and
heavy, but as it gained height one of the researchers smiled confidently:
"It will fly."
I witnessed
a demonstration of this promising new technology in May. Against the sky, the
large black and white sail was certainly a striking sight. You see similar
kites pulling surfers, but here in a field not far from the aerospace engineering department of the Technology University in Delft, the Netherlands,
this kite sail is clearly not for sport.
"With
a 25 square metre sail like that we can produce enough energy to cover the
needs of 40 households, with less [environmental] impact than a conventional
windmill and at reduced costs," says Roland Schmehl at TU Delft.
According
to Schmehl, airborne energy production can be cleaner, cheaper and more
effective than conventional wind power generation. "It's now clear that
the world needs more energy from renewables. And we need the progress to be
faster. Wind is an important resource that so far has been limited, because
conventional wind turbines just scratch off the bottom layer of what is
actually available in the atmosphere."
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| A 25 square metre kite sail could generate enough energy for 40 households, with less impact than a wind turbine and reduced costs. Photograph: Lou Del Bello |
While a
normal wind turbine is up to 200 metres tall, a kite can catch much higher
currents. "We operate between 100 and 300 metres but kites can in fact fly
much higher. So far, the altitude record is 9,740 metres," says Schmehl.
Kite wind
generation overcomes the problem of intermittent power, typical of conventional
wind technologies, for one simple reason: the higher you go, the more
constantly the wind blows. Airborne wind turbines provide a more stable energy
flow, and they are much cheaper as they need less material than a wind turbine.
Instead of a steel tower, you have a system that looks and works like a yo-yo.
"You
have a cable going into the sky with a flying harvesting device. Our group has
focused on kite power, and specifically the pumping kite power system. We use
the traction power of a kite sail to pull a cable from a drum that drives a
generator on the ground.
Once the
cable has completely unwound it needs to be reeled in again, which requires a
certain amount of energy. "You have to design the pumping cycle so as to
have a traction and a retraction phase," says Schmehl. He and his team
came up with a solution to minimise energy losses. "We rotate the kite
into the wind as we pull it back, so essentially the airstream does part of the
work for us. This way, we need less energy to reel in the cable."
The
mechanism can be compared to a piston in a car's engine. "The piston goes
up and down. Our kite follows exactly the same principle. This movement is
converted into energy," says Schmehl.
"Once
implemented into a mass production system, we estimate that our 25 square metre
prototype will cost no more than a small vehicle, and it will have the same
dimensions," he adds.
But while
cars are a well-established technology, can travel worldwide and drive
economies as they move people, kite technology still hangs by a wire. "The
issue with airborne energy is that we are still in a development phase, there
are still challenges to face, and on the other hand we have very limited
financial resources."
For this,
Schmehl blames the attitude of major investors in the energy field: they don't
like risk. While unprecedented environmental and economic conditions are urging
us to change, "this remains a very conservative economy," he says.
Airborne wind technology is not yet mature and there are challenges ahead, he
concedes, but more money is needed to speed development. Researchers can't be
sure that everything will work as they expect, but without investment that
uncertainty will remain.
The current
costs of energy production using various technologies are not the only
consideration, says Schmehl. There are long-term costs to take into
consideration. "Pollution accumulates silently, but at a point it reaches
a peak. As we start to see serious consequences on climate and human health, we
have to take costly measures to mitigate them. And these costs will burden the
taxpayers who are now benefitting from low energy prices."
Feed-in tariffs are a way to counterbalance these invisible damages, and eventually
shield the energy economy from price fluctuations. They fix the price of energy
for a long time, assigning higher rates per kilowatt hour to clean energy in
order to reflect their higher production costs. The intention is to encourage
investment and drive research forwards.
"Wind-generated
energy at the moment goes at eight cents per kilowatt hour. Our projections for
large-scale production, with kites of several hundred square metres, would set
the price at around two cents," says Schmehl.
Smaller
systems such as the prototype Schmehl and his team have tested in Delft are not
yet this efficient, because the smaller the sail, the higher the energy
generation cost. But wind power from kite sails is a highly mobile technology,
and that is an advantage. To demonstrate the technology, Schmehl's team is
launching a pilot project in Africa, where a small mobile unit will complement
power from solar generation.
"One
regulatory hurdle that we are facing at the moment is aerial traffic. Since
kites fly so high, they could interfere with flight routes and we need special
permission to operate in Europe. In Africa, where the aerial traffic is
rarefied, we can provide substantial help with energy supply and carry out
tests on how to improve our system," Schmehl explains.
Perhaps
unsurprisingly, he is upbeat about the prospects for kite power – predicting
that within five years it will be cheap and widespread. "You can't expect
a short-term impact from an emerging technology, but by 2020 when the EU will
sum up the Horizon programme results, we'll be able to present some good
success stories."
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Google's investment
helped found Makani Power
and bankrolled its first experiments
|
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