http://www.theguardian.com/commentisfree/2013/sep/29/climate-change-energy-sources-solar-power


 We must harness the power of the sun

In tackling climate change, solar power must be at the forefront of
research into non-carbon energy sources


   - David King <http://www.theguardian.com/profile/david-king> and Richard
   Layard <http://www.theguardian.com/profile/richardlayard>
   - The Observer <http://observer.guardian.co.uk/>, Sunday 29 September
   2013
   -

[image: Solar power tower Seville Spain]
Rays of hope: the solar power tower outside Seville, Spain. Photograph:
Denis Doyle/Getty Images

Last Friday's report from the United
Nations<http://www.un.org/apps/news/story.asp?NewsID=46069&Cr=climate+change&Cr1=#.UkXIShmLtS4>
confirms
the huge danger from our continued dependence on fossil fuel. But one
simple thing can break this dependence. It needs to be cheaper to produce
non-carbonenergy <http://www.theguardian.com/environment/energy> than it is
by digging up coal, gas or oil. Once this happens, most of the coal, gas
and oil will automatically be left undisturbed in the ground.

To make non-carbon energy become competitive is a major scientific
challenge, not unlike the challenge of developing the atom bomb or sending
a man to the moon. Science rose to those challenges because a clear goal
and timetable were set and enough public money was provided for the
research. These programmes had high political profile and public
visibility. They attracted many of the best minds of the age.

The issue of climate
change<http://www.theguardian.com/environment/climate-change> and
energy is even more important and it needs the same treatment. In most
countries, there is at present too little public spending on non-carbon
energy research. Instead, we need a major international research effort,
with a clear goal and a clear timetable.

What should it focus on? There will always be many sources of non-carbon
energy – nuclear fission,
hydropower<http://www.theguardian.com/environment/hydropower>,
geothermal, wind, nuclear fusion (possibly) and solar. But nuclear fission
and hydropower have been around for many years. Nuclear is essential but
faces political obstacles and there are physical limits to hydropower.
Nuclear fusion remains uncertain. And, while wind can play a big role in
the UK, in many countries its application is limited. So there is no hope
of completely replacing fossil fuel without a major contribution from the
power of the sun.

Moreover, the sun sends energy to the Earth equal to about 5,000 times our
total energy needs. It is inconceivable that we cannot collect enough of
this energy for our needs, at a reasonable cost. The price of photovoltaic
energy is falling at 10% a year, and in Germany a serious amount of
unsubsidised, solar electricity is already being added to the grid. In
California, forward contracts for solar energy are becoming competitive
with other fuels and they will become more so, as technology progresses.

But time is desperately short and there are two even bigger scientific
challenges. The first is to make solar
power<http://www.theguardian.com/environment/solarpower> available
on a 24-hour basis, when the sun shines only part of the day and can be
obscured by cloud. This requires a major breakthrough in the storage of
electricity.

The second is to reduce the cost of transmitting electricity from areas of
high luminosity and low land value to the major population centres of the
world. Better storage requires major breakthroughs in the science of
batteries; better transmission requires new materials that are much better
at conducting electricity without loss of power. In all these cases, the
solution requires new disruptive technologies.

So here is our proposal. There should be a world sunpower programme of
research, development and demonstration. The goal would be by 2025 to
deliver solar electricity at scale to the grid at a cost below the cost of
fossil fuel. All countries would be invited to participate. Those who did
would commit, in their own countries, to major new programmes of research,
internationally co-ordinated, and to share their findings for the benefit
of the world.

Each country would have the goal of demonstrating bulk supply of
unsubsidised solar electricity in scale to the grid by 2025. At the world
level, the target would be for solar electricity to be at least 10% of
total energy supply by 2025 and 25% by 2030. Countries' contributions to
this target would be closely watched.

The programme would be truly broad. It would cover non-grid solar as well
as grid electricity. And it would be of value to wind electricity as well,
through improving storage and transmission.

Unlike fossil fuel, solar produces no pollution and no miners get killed.
Unlike nuclear fission, it produces no radioactive waste. It harnesses the
power of the sun, which is the ultimate source of most energy on Earth. And
it can strike the imagination of a people and therefore of their
politicians.

A central role of governments is to promote new public knowledge. Surely
the most important knowledge of all is how to preserve human life as we
know it. In 2015, the nations of the world will meet to agree their
commitments on climate change. Whatever else they agree, they should go for
a major sunpower programme.

*Sir David King will be the foreign secretary's special representative on
climate change from 1 October. Lord Layard is former founder-director of
the Centre for Economic Performance at the LSE.*



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Peace Is Doable

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