Carbon, the basic building block of life on Earth, has recently become a celebrity of sorts. While most students receive a formal introduction to carbon in science class, those of us who missed out on (or have forgotten) the lessons can find a quick summary in the following few sentences: |
Car ∙ bon (noun): A naturally abundant, non-metallic element that occurs in all organic compounds and can be found in all known forms of life. Diamonds and graphite are pure forms.
Concentrated carbon also makes up the fossil fuels we use to produce approximately 70 percent of our nation's electricity (primarily coal and natural gas). When those products are burned, carbon combines with oxygen and gets released into the atmosphere as carbon dioxide.
For better or worse, carbon dioxide molecules can last for a century or more in the atmosphere, where they soak up heat. Prior to the Industrial Revolution, the atmosphere contained 280 parts per million. Atmospheric levels of carbon dioxide are currently at 390 parts per million and climbing, with some projections estimating 450 parts per million by 2040. As result, carbon dioxide is considered a "greenhouse gas" blamed for contributing to climate change.
In the United States, power plants that burn fossil fuels produce about 2.4 billion tons of carbon dioxide every year, which is about 39 percent of the nation's man-made output (the largest single source). Since one pound of the gas would fill a beach ball a few feet across, imagine almost 5 trillion beach balls being made every year--enough to fill more than 600,000 football stadiums!
There are several ways to reduce the amount carbon dioxide in the air, some of which take place naturally. Forests, for example, act as a sponge for 15 percent of all carbon emissions in North America. Researchers are even working to develop "synthetic trees" that use absorbent filters to capture carbon dioxide from free-flowing air and prepare it for commercial use or permanent storage deep underground.
Another process is called "carbon capture and sequestration," through which carbon dioxide can be isolated, or captured, in an advanced coal power plant and stored underground. When the technology becomes available on a commercial scale, the result could be huge reductions in the amount of carbon dioxide that is released into the atmosphere.
Technology holds the key to tackling challenges connected to climate change. Nebraska's public power districts and electric cooperatives will play an active role in this effort.
Sources: American Heritage Science Dictionary, U.S. Energy Information Administration, National Rural Electric Cooperative Association
Scott Gates writes on technology and energy efficiency for the National Rural Electric Cooperative Association, the Arlington, Va.-based service arm of the nation's 900-plus consumer-owned, not-for-profit electric cooperatives.
NRECA Opposes Auction Under Carbon Cap-and-Trade
Testifying today before the House Energy and Commerce Committee and the Subcommittee on Energy and the Environment on the climate change proposal recently offered by Chairmen Henry Waxman and Edward Markey, NRECA CEO Glenn English expressed concern over one of the possible options for a cap-and-trade program, voicing strong opposition to the auction of carbon emission allowances on the open market."NRECA's objective is to help Congress develop and pass an affordable, workable, and sustainable piece of legislation to address the nation's energy and climate change objectives," English told the Committee. He pointed out that "maintaining the affordability of electricity is the principle against which NRECA will judge all climate change and energy legislation."
While the proposal is silent on the disposal of allowances under a carbon cap-and-trade, English told the committee that "NRECA will strongly object to any legislation that makes electricity unaffordable or gives Wall Street speculators the ability to set our nation's electricity bills."
"In 1938 President Franklin Roosevelt declared that electricity was a necessity, not a luxury. We must not turn back on that commitment from over 70 years ago. We do not have to, and should not, in climate change legislation," English declared.
English called for legislation that is simple, focused on reducing carbon and prevents the regulation of carbon not just under the Clean Air Act but under other laws as well.
"Other statutes, most notably the Endangered Species Act, could be used to require emission limitations and other provisions of the Clean Air Act could potentially be used to require similar reductions. The most effective way to address climate change is to develop a new, organic law that is the sole legal authority over greenhouse gas emissions. Therefore, the bill must explicitly clarify that no other provision of federal or state law can be construed to require any greenhouse gas limitation or requirement."
In answering questions from Committee Members, English also emphasized the importance of technology advances and new transmission to meet the objectives of the bill's authors while assuring that reliable, affordable power continues to flow to consumers.
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