Deep-water turbines could make a wind-powered world possible, scientists say, generating all the energy human civilisation uses today.
North Atlantic storms could help make a wind-powered world a reality. Image: By Ronnie Robertson via Wikimedia Commons |
Two Californian scientists have worked out how to achieve a wind-powered world that provides the entire planet with wind energy without spoiling the view with turbines on every hilltop.
The answer: take wind farming onto the
high seas. The force of the winds sweeping across the open ocean would
be enough to generate 18 billion kilowatts – which is about the global
annual energy demand right now.
The scientists report in the Proceedings of the National Academy of Sciences that
although the best that wind farms on land can deliver is electricity at
the rate of 1.5 watts per square metre, the mid-latitudes of the North
Atlantic could do much better: up to 6 watts per square metre.
In a calculation that is overtly
hypothetical, they evaluate winds as so much kinetic energy to be
exploited. Ocean wind speeds are at least 70% higher than wind speeds
over land. Surface winds in the North Atlantic can reach 11 metres per
second and 13.5 metres a second in the Southern Hemisphere, and these
would be enough in theory to take generating rates up to 20 or even 80
watts per square metre.
Research at this level does not answer the world’s energy problems: instead it sets out, once
again, the viable possibility of a world driven by renewable energy,
rather than the fossil fuels that drive ever-higher greenhouse gas
levels in the atmosphere, and potentially catastrophic global warming
and climate change.
And it is one step onwards from a cascade
of such thinking over the past few years. In 2013, scientists at the
University of Delaware worked out that wind, solar and renewable sources could deliver almost all the energy needs of the United States.
Other groups – including one at Stanford University in the US – have not just backed up this reasoning but extended it, with a roadmap for at least 139 of the 197 nations that in December 2015 resolved to take steps to contain global warming to no more than 2°C by 2100.
“While no commercial-scale deep water wind farms yet exist, our results suggest that such technologies, if they become technically and economically feasible, could potentially provide civilisation-scale power”
But the laws of thermodynamics present
practical problems. One of these is that, because energy is always
conserved, a wind farm inevitably “saps” the energy of the wind that
slams into the turbines, leaving a weaker wind for the next turbine in
its path.
So although, in theory, winds could
deliver at the rate of 60 to 80 watts per square metre, this “turbine
drag” would slow the winds at every stage.
Even so, engineers could look forward to a
harvest of 3 to 5 watts per square metre, which is much higher than the
best available on land.
Someone had to do the sums. “Are the
winds so fast just because there is nothing out there to slow them down?
Will sticking giant wind farms out there just slow down the winds so
much that it is no better than over land?”, said Ken Caldeira, senior scientist at the global ecology department at the Carnegie Institution for Science at Stanford.
“The real question is can the atmosphere over the ocean move more energy downward than the atmosphere over land is able to?”
In principle, their answer is: yes, it
can. Open ocean wind farms spread across 3 million square kilometres of
ocean could in theory harness so much more of the atmosphere’s energy
and generate all the power the world needs right now.
That still leaves all the other problems
unsolved: the challenge of engineering turbines fit for the open ocean
and of catering for seasonal variations in wind energy; of collecting
the generated current and delivering it to the world’s cities, and the
even bigger problem of the national and global politics involved. But sophisticated modelling says there is nothing on Earth to prevent it being done.
“While no commercial-scale deep water wind farms yet exist, our results suggest that such technologies, if they become technically and economically feasible, could potentially provide civilisation-scale power,” the scientists write.
“While no commercial-scale deep water wind farms yet exist, our results suggest that such technologies, if they become technically and economically feasible, could potentially provide civilisation-scale power,” the scientists write.
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