From: habshi on
excerpt
On Energy, We're Finally Walking the Walk By Lester R. Brown
05 de octubre de 2009
The United States has entered a new energy era, ending a century of
rising carbon emissions, with a dramatic 9 percent drop in U.S. carbon
emissions over the past two years and the promise of further huge
reductions.


As the U.S. delegation prepares for the international climate
negotiations in Copenhagen in December, it does so from a surprisingly
strong position, one based on a dramatic 9 percent drop in U.S. carbon
emissions over the past two years and the promise of further huge
reductions.

Prominent among these carbon-cutting initiatives are stronger
automobile fuel-economy standards, appliance efficiency standards, and
the potential to heat, cool and light buildings with carbon-free
sources of electricity. On the supply side are efforts supporting the
development of U.S. wind, solar and geothermal energy resources.

Even though part of this decline in carbon emissions was caused by the
recession and higher gasoline prices, part of it came from gains in
energy efficiency and shifts to carbon-free sources of energy,
including record amounts of new wind power generating capacity. This
impressive drop in carbon emissions should enable the United States to
push for a steep cut in Copenhagen.

For a country where oil and coal use have been growing for more than a
century, the fall since 2007 is startling. Last year, oil use dropped
5 percent, coal 1 percent and overall carbon emissions 3 percent.
Projections for this year, based on Energy Department data for the
first eight months, show oil use down by an additional 5 percent. Coal
is estimated to fall by 10 percent. Altogether, carbon emissions from
burning fossil fuels, including natural gas, dropped 9 percent over
the two years.

In the past, I've been considered a pessimist in my work on mounting
population pressures and looming food crises. I'm still very concerned
about these issues. But today the improving numbers on carbon
emissions are not debatable.

Although Congress is considering legislation that would cut emissions
only 15 or 20 percent by 2020, it's clear to me that with just a
little effort, the United States could far surpass this. Given the
potentially catastrophic climate change the world is facing, we should
push in Copenhagen for an 80 percent reduction by 2020.

Efforts to reduce fossil fuel use and cut carbon emissions are
underway at every level of government -- national, state and city --
and in corporations, utilities and universities. Beyond this, millions
of climate-conscious, cost-cutting Americans are altering their
lifestyles to reduce energy use and carbon emissions.

Despite the coal industry's $45 million annual budget to promote
"clean coal," utilities are giving up the coal ghost. On July 9, Bruce
Nilles, coordinator of the Sierra Club's national grass-roots program
to ban new coal-fired power plants, announced the 100th cancellation
of a proposed plant since 2001.

The Tennessee Valley Authority, with a fleet of 11 aging coal plants
(average age 47 years) and a court order to install more than $1
billion worth of pollution controls, is considering closing its John
Sevier Fossil Plant near Rogersville, Tenn., along with the six oldest
units out of the eight at the Widows Creek Fossil Plant near
Stevenson, Ala. Altogether, about 22 coal-fired power plants in 12
states are being replaced by wood-fired power, wind farms or natural
gas plants.

Utilities are facing falling demand not only because of the economic
slump, but also because of advances in efficiency. The potential is
evident in the wide variation among states, with some embracing
energy-efficient technologies and others mired in old ones. The Rocky
Mountain Institute calculates that if the 40 least-efficient states
were to achieve the electrical efficiency of the 10 most-efficient
ones, national electricity use would be reduced by one third. This
would allow the equivalent of 62 percent of the country's 617
coal-fired power plants to be closed.

While some U.S. coal plants are closing, wind farms are multiplying.
Last year, 102 wind farms came online, providing 8,400 megawatts of
electricity-generating capacity, the equivalent of eight coal-fired
power plants. Forty-nine wind farms were completed in the first half
of this year, and 57 more are under construction. More important,
300,000 megawatts of wind projects (think 300 coal plants) await
access to the grid so that construction can begin.

U.S. solar cell installations are growing at 40 percent a year. With
new government incentives, this rapid growth in rooftop installations
on homes, shopping malls and factories should continue.

Beyond this, solar thermal power plants that use mirrors to
concentrate sunlight and generate electricity are going up fast in
California, Arizona and Nevada. The availability of a molten-salt
heat-storage technology that enables the plants to continue generating
power up to six hours past sundown is spurring broad investor
interest. About 6,000 megawatts of solar thermal power plants are
under construction or development.

Oil use is declining, too. It has dropped precipitously for several
reasons including the economic downturn, but also the growing
insecurity about oil supplies and consumer concern about future
gasoline prices. And gasoline use will drop further as the fuel
economy standards announced in May raise the fuel efficiency of new
cars 42 percent and light trucks 25 percent by 2016. The trend is
strikingly evident in the new vehicle sales figures for the first
eight months of this year, which show a significantly higher average
of miles per gallon than the vehicles sold over the same period of
last year.

Impressive though these gains are, the really big gains in fuel
efficiency will come with the shift to plug-in hybrids and all
electric cars. Not only are electric motors three times more efficient
than gasoline engines, but they make it possible to run cars on
domestic wind-generated electricity at a gasoline-equivalent cost of
75 cents a gallon. As the low fueling cost becomes more apparent, the
shift to plug-ins and all electric vehicles will come far faster than
most policymakers anticipate.

With carbon cuts, it's time to stop talking about political
feasibility and start talking about scientific necessity. The science
is scary. We need not go beyond ice melting to see that civilization
is in trouble. The Greenland ice sheet is melting. If it were to melt
entirely, and that obviously would take a few centuries, sea level
would rise by 23 feet. The latest reports suggest that we are looking
at a rise in sea level of up to six feet this century. Such a rise
would inundate part or all of many low-lying coastal cities, such as
London, Miami, New Orleans, Alexandria and Shanghai, producing
millions of refugees. Such a rise would also inundate the rice-growing
deltas of Asia, devastating harvests in Bangladesh and Vietnam.

The melting of the glaciers in the Himalayas and on the Tibetan
Plateau will deprive the Indus, Ganges, Yangtze and Yellow rivers of
the ice melt that sustains their flow during the dry season and the
irrigation systems that depend on them. Let us not forget that China
is the world's leading producer of wheat and rice. India is number two
in each. Anything that reduces their grain harvests will raise food
prices everywhere.

To have a decent shot at saving the larger ice masses means cutting
carbon emissions 80 percent by 2020. This would halt the rise in
atmospheric carbon dioxide (CO2) concentrations, now 387 parts per
million (ppm), at 400 ppm in 2020. We would then be able to start
reducing atmospheric CO2 concentrations to the 350 ppm that the U.S.
government's leading climate scientist, James Hansen, says is
necessary to stem global warming's most egregious effects.

If the United States pushes for an 80 percent cut, will the rest of
the world follow? In particular will China, now the world's leading
carbon emitter, cooperate? And what about India?

In times past, if countries resisted international initiatives, the
international community could resort to trade boycotts, export
embargoes or tariffs on exports from the offending countries.
Bilateral penalties are also an option. The United States is, after
all, China's largest export market.

But this situation is different because some countries are affected
more directly by climate change than others and because an aggressive
carbon-cutting effort attracts investment in the new energy
industries. The two countries building the most coal-fired power
plants -- China and India -- are among the countries whose food
security is most directly affected by global warming. Smaller
countries such as Egypt, South Korea and Japan can import half or more
of their grain supply, but these two population giants cannot because
the exportable supplies do not exist.

The good news is that China's strategy is changing fast, shifting to
wind, solar and geothermal energy. Although the world is worried about
China building a coal plant each week, and rightly so, the pace seems
to be slowing and, like the United States, China is closing many of
its older, dirtier coal plants.

On the renewable front, China's wind energy generating potential is
seven times its current electricity consumption. Although a late
starter, China is building wind farm complexes on a scale the world
has not seen before. In recent years, the United States has led the
world in new wind generating capacity, but within the next year, China
will overtake the United States, moving so fast we might not even see
it go by.

On the solar front, two-thirds of the world's rooftop water heaters
are in China, and it's now the world's leading producer of solar
cells. Earlier this month, China announced plans to build a 2,000
megawatt solar cell complex, a facility four times larger than any in
the United States.

For India, the answer to the carbon-cutting challenge and to its
future energy needs lies not only in wind energy but in the solar
riches of the Great Indian Desert. The harnessable solar energy there
could power the entire Indian economy. The new solar thermal power
plants, which can generate electricity several hours after sundown,
could wean India from its coal addiction.

Underlying the carbon-cutting question are: Where will the new energy
industries be located? Who will be building the wind turbines, solar
panels and highly efficient light emitting diodes? The countries that
cut carbon emissions fastest will have a competitive advantage.

Stabilizing the earth's climate is a complex undertaking and fraught
with risk. If the United States leads -- and does so boldly -- I
believe the world will follow.

From: habshi on
What about a counter current mechanism to heat water with solar
power. In India most people have huge areas of flat roofs they dont
use in the summer except sometimes at night to sleep on.
If water pipes were laid at a slight angle , as the bottom gets
heated the water will rise in the pipes and get even more heated until
it becomes steam at the top and generates electricity or is used for
hot water baths.
Hot water could even be used to grow algae and foods.
From: jimp on
In sci.physics habshi(a)anony.net wrote:
> What about a counter current mechanism to heat water with solar
> power. In India most people have huge areas of flat roofs they dont
> use in the summer except sometimes at night to sleep on.
> If water pipes were laid at a slight angle , as the bottom gets
> heated the water will rise in the pipes and get even more heated until
> it becomes steam at the top and generates electricity or is used for
> hot water baths.

That is called a solar water heater and is common in many places.

http://www.solardirect.com/swh/swh.htm

It takes a big pile of mirrors to get enough energy to make steam and
solar thermal electric generators usually use something other than
water as a working fluid.

http://en.wikipedia.org/wiki/Solar_Two

> Hot water could even be used to grow algae and foods.

Hot water is used to COOK algae and foods.

You are an idiot.


--
Jim Pennino

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From: habshi on
This should be quite promising in hot countries where a chimney can
take hot air from the house and have one of these installed at the top
to give unlimited hot water

excerpt
http://www.heatingoil.com/blog/invisible-and-affordable-solar-water-heating-for-your-home1113/

Anyone who doubts the persistence of good old-fashioned American
innovation is advised to consider the Greenbuild International
Conference and Expo, an annual convention showcasing the newest and
most ingenious green tech products made by American hands. This year�s
expo, held in the tremendous Phoenix Convention Center, comprised over
1,800 exhibit booths, making it the largest convention in Greenbuild
history.

According to Treehugger.com, which covered the event, of particular
interest this year was the Greenward Ridge Vent, a nifty piece of
solar-heating equipment that can be fitted to any standard shingled
roof. The Ridge Vent collects solar energy and uses it to heat water;
but it is the thrift with which the vent performs its task that makes
it remarkable. The Ridge Vent collects solar heat trapped in a home�s
attic; the heat flows through the Ridge Vent around PEX plastic tubes,
heating an ethylene-glycol-and-water mixture that is then pumped into
a heat exchanger, preheating the home�s tap and fixture water even
before it gets to the water heater. In other words, the vent
effectively takes wasted energy and puts it to good use: a concept
both simple and ingenious.

Close-up of demonstration Greenward Ridge Vent. (image:
treehugger.com)
It is the Ridge Vent�s innocuous design that makes it so appealing.
Unlike the typical solar collectors, which can make your home look
like a lunar space station, the Ridge Vent is barely noticeable.
That�s not to say you won�t notice its effect. According to Greenward,
�With an average attic temperature of 120 degrees F., the Greenward
Ridge Vent can reduce your energy consumption by just over 12 million
BTUs a year and reduce your CO2 emissions by just over 1,400 pounds
annually.� The fact that heating water by solar energy costs one tenth
as much as heating it by electricity means that you stand to save
considerably on your electric or gas bill

From: jimp on
In sci.physics habshi(a)anony.net wrote:
> This should be quite promising in hot countries where a chimney can
> take hot air from the house and have one of these installed at the top
> to give unlimited hot water

The article has nothing to do with chimneys.

You are a gibbering idiot.


--
Jim Pennino

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