Saturday, June 30, 2012

Thirst for power: How coal, nuclear and gas waste ... - Peak Oil News

?Capitalism,? wrote the environmental economist K. William Kapp, ?must be regarded as an economy of unpaid costs, ?unpaid? in so far as a substantial portion of the actual costs of production remain unaccounted for in entrepreneurial outlays; instead they are shifted to, and ultimately borne by, third persons or by the community as a whole.?

Documentation in a new report from the U.S. conservation group River Network provides yet another confirmation of this truth. The authors show that coal, nuclear and natural gas power plants use more fresh water than any other economic sector, including agriculture. There are low-water alternatives, but the utilities aren?t using them.

In the authors? words, ?Electricity?as we generate it today?depends heavily on access to free water.? What they call ?free? is what Kapp called ?unpaid costs.? Power company profits depend on making society and nature pay those costs.

The following is the Introduction to Burning Our Rivers: The Water Footprint of Electricity. The full report can be downloaded here: (PDF, 2 Mb)

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By Wendy Wilson, Travis Leipzig
& Bevan Griffiths-Sattenspiel

It takes water to produce electricity.

As many Americans retreat to air-conditioned environments to get out of the heat, the flame increases under our limited freshwater resources. The electrical energy used to create our comfort zones requires massive withdrawals of water from our rivers, lakes and aquifers to cool down nuclear, coal and natural gas power plants.

Some of this water is evaporated while the majority of this water is warmed up?causing thermal pollution?killing aquatic life, increasing toxic algae blooms and decreasing the sustainability of our water supplies.

Thermoelectric energy (including coal, nuclear and natural gas) is the fastest growing use of freshwater resources in the country. The U.S. Geological Survey reports that 53% of all of the fresh, surface water withdrawn from the environment for human use in 2005 went to operating our thirsty electrical grid. Water behind dams is not included in USGS numbers.

So, while all other sectors of society are reducing per capita water use and overall water diversion rates, the electrical industry is just getting started.

This report is a snapshot of the current water impacts of electrical production and an introduction to the choices we face as a nation trying to sustain water and energy in a warming world. Many watersheds in the United States are already running out of water to burn?especially in the Southeast, the Great Lakes and in many parts of the West.

Over the last several years, Georgia has experienced water stress because Georgia Power?s two nuclear plants require more water than all of the water consumed by residents of downtown Atlanta, Augusta and Savannah combined.

In 2011, the Union of Concerned Scientists reported that, in at least 120 vulnerable watersheds across the U.S., power plants are a factor contributing to water stress.

As a nation, we have ?water-friendly? energy options. Energy efficiency and water conservation programs are crucial strategies that can help protect our waterways from the impacts of electricity production. Expanding the deployment of wind energy and photovoltaic solar power could vastly reduce wateruse conflicts in some regions.

And we must change the technologies we use in existing power plants. Energy companies could conserve more water by modernizing ?once-through? cooling systems than could be saved by all of our nation?s residential water conservation programs combined.

But instead of moving towards greater water efficiency and use of renewables, we are trending towards an electrical grid that uses more water and is less reliable. Without stronger federal water use standards, thermoelectric plants may continue using water-intensive cooling technologies.

At the same time, water uncertainty is causing cities to explore new water sources such as desalinization, deeper wells and longer pipelines?all of which would increase electrical use. Across the country ?non-conventional? drilling for natural gas has raised concerns about water quality. In Colorado, natural gas ?fracking? operations have actually begun to compete with farmers for water.

The water footprint of coal-fired power plants will only increase with new carbon capture and sequestration (CCS) technologies.

Based on the available published water-use information, we calculate that in 2009 the water footprint WF of U.S. electricity was approximately 42 gallons per kilowatt hour (kWh) produced. An average U.S. household?s monthly energy use (weighted by cooling technology and fuel mix) requires 39,829 gallons of water, or five times more than the direct residential water use of that same household. This estimate does not include major portions of the lifecycle of electrical production for which we could not find documentation.

As the world?s largest electrical consumer, the U.S. needs to consider the sustainability of this course before investing in more water-intensive electrical infrastructure.

Today, our thirsty electric grid carries pollutants into our rivers and causes algae-blooms and fish kills. But, there are other paths.

According to our calculations, eliminating ?once-through? cooling?by itself? could reduce the water footprint of thermoelectricity by more than two-thirds.

Increasing wind and PV solar energy to 40% of the grid would have a similar effect and reduce consumptive water use by 11%.

Taken together, these two actions could reduce the water footprint of thermoelectricity by 82% and consumptive water use by 27%.

While there are site-specific limitations and trade-offs to consider, our society stands to benefit from a wider discussion of how water saved in the energy sector might be used to meet future needs, grow food or restore fisheries and water quality.

Source: http://peakoil.com/enviroment/thirst-for-power-how-coal-nuclear-and-gas-waste-our-water/

elizabeth berkley

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