(illustration: Solar News)
04 May 13
ob Wile uses a graph to point out the obvious, the dramatic fall in the cost of solar power generation. In many countries– Italy, Spain, Germany, Portugal — and in parts of the US such as the Southwest, solar is at grid parity. That means it is as inexpensive to build a solar plant as a gas or coal one. The pace of technological innovation in the solar field has also accelerated, so that costs have started falling precipitously and efficiency is rapidly increasing. By 2015, solar panels should have fallen to 42 cents per watt. Reneweconomy.com says that the best Chinese solar panels fell in cost by 50% between 2009 and 2012.
That incredible achievement is what has driven so many solar companies bankrupt– if you have the older technology, your panels are suddenly expensive and you can’t compete. It is like no one wants a 4 year old computer. Conservatives shed no tears when better computers drive slower ones out of the market, but point to solar companies’ shake-out as somehow bad or unnatural. No wonder US solar installations jumped 76% in 2012. The reductions in cost over the next two years are expected to continue, at a slowing but still impressive 30% rate:
Construction has begun on the world’s largest solar
plant. MidAmerican Solar and SunPower Corp. are building a 579 megawatt
installation, the Antelope Valley Solar Project, in Kern and Los Angeles
counties in California. That is half a gigawatt, just enormous. It will
provide electricity to 400,000 homes in the state (roughly 2 million
people?), and reduce carbon dioxide emissions by 775,000 tons a year.
The US emits 5 billion metric tons a year of C02, second only to China,
and forms a big part of the world’s carbon problem all by itself. We
just need 645 more of the Antelope Valley projects.
Important new research also shows that hybrid plants that have both solar panels and wind turbines
dramatically increase efficiency and help with integration into the
electrical grid. Earlier concerns that the turbines would cast shadows
and so detract from the efficiency of the solar panels appear to have
been overblown. Because in most places in the US there is more sun in
the summer and more wind in the winter, a combined plant keeps the
electricity feeding into the grid at a more constant rate all year
round, which is more desirable than big spikes and fall-offs.
That Germany, then China, then the US are the world’s largest solar markets is no surprise. But that number 17 Japan will increase its solar installations by 120% in 2013
and so may be the second hottest solar market, just after China, this
year, would mark a big change. Japan may well have 5 gigawatts of solar
installed by the end of this year, even though the relatively new prime
minister, Shinzo Abe, is no particular friend of the renewables. In my
own view, if Japan made the right governmental and private investments,
it could overtake China in the solar field and reverse its long
post-bubble stagnation.
ABB
has been commissioned a large solar electricity generating plant on the
edge of the Kalahari Desert near Cape Town, South Africa. It will
supply the electricity needs of around 40,000 persons and reduce annual
emissions by 50,000 tons of carbon dioxide. South Africa emits 500
million tons of carbon dioxide annually, and is third in the world for
per capita emissions. (Still, it only emits a 10th as much over-all as
the US). But they just need a thousand more plants like the Kalahari
one, and voila! South Africa is also imposing a carbon tax,
which will hurry things along. (At the moment, South Africa is far too
dependent on dirty coal plants, which not only fuel climate change but
also spew deadly toxins such as mercury into the atmosphere, whence it
goes into human beings.
Because of South African and Israeli demand in particular, demand for solar panels in the Middle East and Africa
has risen over 600% during the past year. Saudi Arabia’s announced
plans to save its petroleum for export by going solar at home will add a
great deal to regional demand if it sticks to those plans. (In most
countries, petroleum isn’t used much for electricity generation as
opposed to transportation, but in oil states such as Saudi Arabia it
often is used in power plants; but that cuts down on foreign exchange
earnings.)
The two Indian states of Gujarat and Rajasthan are emerging as the solar giants
in India, with each having now passed half a gigawatt in solar
electricity generation capacity. The two account for some 88% of all of
India’s solar power. But Rajasthan may soon outstrip Gujarat, given the
state’s solar-friendly commitments, its ample amounts of scorching
sunlight, and its vast deserts.
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