Update 24: June 25, 2003-4
Copyright © 2003 Earth Policy Institute
Wind Power Set to Become World's Leading Energy
Source
In 1991, a national wind resource inventory taken
by the U.S. Department of Energy startled the world when it reported that
the three most wind-rich states—North
Dakota, Kansas, and Texas—had
enough harnessable wind energy to satisfy national electricity needs.
Now a new study by a team of engineers at Stanford reports that the wind
energy potential is actually substantially greater than that estimated
in 1991.
Advances in wind turbine design since 1991 allow turbines to operate at
lower wind speeds, to harness more of the wind's energy, and to harvest
it at greater heights—dramatically
expanding the harnessable wind resource. Add to this the recent bullish
assessments of offshore wind potential, and the enormity of the wind resource
becomes apparent. Wind power can meet not only all U.S. electricity needs,
but all U.S. energy needs.
In a joint assessment of global wind resources called Wind Force 12, the
European Wind Energy Association and Greenpeace concluded that the world's
wind-generating potential—assuming
that only 10 percent of the earth's land area would be available for development—is
double the projected world electricity demand in 2020. A far larger share
of the land area could be used for wind generation in sparsely populated,
wind-rich regions, such as the Great Plains of North America, northwest
China, eastern Siberia, and the Patagonian region of Argentina. If the
huge offshore potential is added to this, it seems likely that wind power
could satisfy not only world electricity needs but perhaps even total
energy needs. (See data.)
Over the last decade wind has been the world's fastest-growing energy
source. Rising from 4,800 megawatts of generating capacity in 1995 to
31,100 megawatts in 2002, it increased a staggering sixfold. Worldwide,
wind turbines now supply enough electricity to satisfy the residential
needs of 40 million Europeans.
Wind is popular because it is abundant, cheap, inexhaustible, widely distributed,
climate-benign, and clean—attributes
that no other energy source can match. The cost of wind-generated electricity
has dropped from 38¢ a kilowatt-hour in the early 1980s to roughly 4¢
a kilowatt-hour today on prime wind sites. Some recently signed U.S. and
U.K. long-term supply contracts are providing electricity at 3¢ a kilowatt-hour.
Wind Force 12 projected that the average cost per kilowatt hour of wind-generated
electricity will drop to 2.6¢ by 2010 and to 2.1¢ by 2020. U.S. energy
consultant Harry Braun says that if wind turbines are mass-produced on
assembly lines like automobiles, the cost of wind-generated electricity
could drop to 1-2¢ per kilowatt hour.
Although wind-generated electricity is already cheap, its cost continues
to fall. In contrast with oil, there is no OPEC to set prices for wind.
And in contrast to natural gas prices, which are highly volatile and can
double in a matter of months, wind prices are declining.
Another great appeal of wind is its wide distribution. In the United States,
for example, some 28 states now have utility-scale wind farms feeding
electricity into the local grid. While a small handful of countries controls
the world's oil, nearly all countries can tap wind energy.
Denmark leads the world in the share of its electricity from wind—20
percent. In terms of sheer generating capacity, Germany leads with 12,000
megawatts. By the end of 2003, it will have already surpassed its 2010
goal of 12,500 megawatts of generating capacity. For Germany, this rapid
growth in wind power is central to reaching its goal of reducing carbon
emissions 40 percent by 2020.
Rapid worldwide growth is projected to continue as more countries turn
to wind. In addition to the early leaders—Denmark,
Germany, Spain, and the United States—many
other countries have ambitious plans, including the United Kingdom, France,
Brazil, and China.
In densely populated Europe, the off-shore potential for developing wind
is also being exploited. Denmark is now building its second off-shore
wind farm, this one with 160 megawatts of generating capacity. Germany
has some 12,000 megawatts of off-shore generating capacity under consideration.
Wind power is now a viable, robust, fast-growing industry. Cheap electricity
from wind makes it economical to electrolyze water and produce hydrogen.
Hydrogen is the fuel of choice for the highly efficient fuel cells that
will be used widely in the future to power motor vehicles and to supply
electricity, heating, and cooling for buildings. Hydrogen also offers
a way of storing wind energy and of transporting it efficiently by pipeline
or in liquefied form by ship.
With the wind industry's engineering know-how and manufacturing experience,
it would be relatively easy to scale up the size of the industry, even
doubling it annually for several years, if the need arose. If, for example,
crop-shrinking heat waves raise food prices and generate public pressure
to quickly reduce carbon emissions by replacing coal and oil with wind
and hydrogen, it will be possible to do so. If the need arises to shift
quickly to hydrogen-fueled automobiles, this can be done by converting
gasoline-burning internal combustion engines to hydrogen with inexpensive
conversion kits.
For energy investors, growth in the future lies with wind and the hydrogen
produced with cheap wind-generated electricity. Solar cell sales are growing
at over 30 percent a year and are likely to supply much of the electricity
for the 1.7 billion people who are still without electricity, most of
them living in developing country villages. But solar cells are still
too costly to supply the vast amounts of energy required to power a modern
economy.
World coal burning peaked in 1996 and has fallen 2 percent since then.
It is a fading industry, not an exciting investment prospect. Nor is oil
particularly promising, since world production is not likely to expand
far beyond current levels. Production of natural gas, the cleanest and
least climate-disruptive of the fossil fuels, is likely to continue expanding
for a few more decades, fortuitously developing an infrastructure that
can be adapted for hydrogen. Nuclear power generation is expected to peak
soon, when the large number of aging plants that will be closing down
will exceed the small number of plants that are under construction.
The energy future belongs to wind. The world energy economy became progressively
more global during the twentieth century as the world turned to oil. It
promises to reverse direction and become more local during the twenty-first
century as the world turns to wind, wind-generated hydrogen, and solar
cells. Wind and wind-generated hydrogen will shape not only the energy
sector of the global economy but the global economy itself.
Copyright © 2003 Earth Policy Institute
FOR ADDITIONAL INFORMATION
From Earth Policy Institute
Lester R. Brown, Plan B: Rescuing a Planet Under Stress and a Civilization in Trouble (New York: W.W. Norton & Company, 2003). (Forthcoming)
Lester R. Brown, Eco-Economy: Building an Economy for the Earth (New York: W.W. Norton & Company, 2001).
Lester R. Brown, "World Wind Generating Capacity Jumps 31 Percent in 2001," Eco-Economy Update, January 8, 2002.
Lester R. Brown, "Wind Power: The Missing Link in the
Bush Energy Plan," Eco-Economy Update,
May 31, 2001.
From Other Sources
American Wind Energy Association, Wind Energy Projects
in the U.S.: a state-by-state breakdown of existing and planned wind
energy projects. http://www.awea.org/projects
Cristina L. Archer and Mark Z. Jacobson, "Spatial and Temporal Distributions of U.S. Winds and Wind Power at 80 m Derived From Measurements," in American Geophysical Union, Journal of Geophysical Research, Vol. 108, No. D9, 13 May 2003.
Harry Braun, "The Phoenix Project: Shifting From Oil to Hydrogen With Wartime Speed," paper prepared for the Renewable Hydrogen Roundtable, World Resources Institute, Washington, D.C., 10-11 April 2003.
European Wind Energy Association (EWEA) and Greenpeace, Wind Force 12 (Brussels: 2003).
Janet L. Sawin, "Wind Power's Rapid Growth Continues," in Worldwatch Institute, Vital Signs 2003 (New York: W.W. Norton & Company, 2003), pp. 38-39.
LINKS
American Wind Energy Association
http://www.awea.org
Danish Wind Industry Association
http://www.windpower.dk
European Wind Energy Association
http://www.ewea.org
Windpower Monthly
http://www.windpower-monthly.com
Worldwatch Institute
http://www.worldwatch.org