5. America Plugged In

Archive of Past Articles for Chapter 5

2010 October 12.  Offshore Wind Power Line Wins Praise, and Backing.  By Matthew L. Wald, The New York Times.  Excerpt: ...Google and a New York financial firm have each agreed to invest heavily in a proposed $5 billion transmission backbone for future offshore wind farms along the Atlantic Seaboard that could ultimately transform the region’s electrical map....
...The system’s backbone cable, with a capacity of 6,000 megawatts, equal to the output of five large nuclear reactors, would run in shallow trenches on the seabed in federal waters 15 to 20 miles offshore, from northern New Jersey to Norfolk, Va. The notion would be to harvest energy from turbines in an area where the wind is strong but the hulking towers would barely be visible....

2010 June 22. Would a Push to Curb Carbon Really Reduce U.S. Dependence on Oil? By Anne C. Mulkern, The NY Times. Excerpt: ...Legislation aimed at reducing greenhouse gas emissions largely targets electric utilities. Although it would affect oil refiners, economists said, proposed policies would trigger only minor fuel price increases, too small to alter how much people drive, whether they buy airline tickets or what kind of vehicles they purchase.
…Senate Majority Leader Harry Reid (D-Nev.) in a June 7 Senate floor statement said the oil spill disaster "underscores our need for a new energy policy."
…"That means immediately refocusing our efforts on clean and renewable energy -- like the sun, the wind and geothermal energy -- improving energy efficiency and using more biofuels," Reid said, adding: "We need better options than oil, and we needed them yesterday."
…"You don't have a lot of options for reducing oil use significantly unless you're going to raise the price," said Alan Krupnick, co-director of Resources for the Future's Center on Energy Economics and Policy.
…The report says that the bill would cut imports "33 to 40 percent below current levels and 9 to 19 percent" below levels expected by 2030 without the bill. The analysis shows, however, that the Kerry-Lieberman bill would trim total U.S. petroleum consumption less than 6 percent by 2030 compared to without the bill in that year.
…Krupnick believes a tax on oil would be one of the most efficient ways to force down petroleum use. It would affect all of the oil products, he said.
…"If you raise the price of oil, that affects how much you drive," Krupnick said. "It affects the type of car you buy. It affects technological innovation. People see there is a profit to be made on how to save the use of oil."

2009 June 10. Building an Interstate Highway System for Energy. By Peter Fairley, Discover Magazine. Excerpt: President Obama plans to spend billions building it. General Electric is already running slick ads touting the technology behind it. And Greenpeace declares that it is a great idea. But what exactly is a “smart grid”? According to one big-picture description, it is much of what today’s power grid is not, and more of what it must become if the United States is to replace carbon-belching, coal-fired power with renewable energy generated from sun and wind.
Today’s power grids are designed for local delivery, linking customers in a given city or region to power plants relatively nearby. But local grids are ill-suited to distributing energy from the alternative sources of tomorrow. North America’s strongest winds, most intense sunlight, and hottest geothermal springs are largely concentrated in remote regions hundreds or thousands of miles from the big cities that need electricity most. “Half of the population in the United States lives within 100 miles of the coasts, but most of the wind resources lie between North Dakota and West Texas,” says Michael Heyeck, senior vice president for transmission at the utility giant American Electric Power....
Power engineers are already sketching the outlines of the next-generation electrical grid that will keep our homes and factories humming with clean—but fluctuating—renewable energy. The idea is to expand the grid from the top down by adding thousands of miles of robust new transmission lines, while enhancing communication from the bottom up with electronics enabling millions of homes and businesses to optimize their energy use....

2008 August 26. THE ENERGY CHALLENGE: Wind Energy Bumps Into Power Grid’s Limits. By MATTHEW L. WALD, The New York Times. Excerpt: When the builders of the Maple Ridge Wind farm spent $320 million to put nearly 200 wind turbines in upstate New York, the idea was to get paid for producing electricity. But at times, regional electric lines have been so congested that Maple Ridge has been forced to shut down even with a brisk wind blowing.
That is a symptom of a broad national problem. Expansive dreams about renewable energy...are bumping up against the reality of a power grid that cannot handle the new demands.
...The grid today, according to experts, is a system conceived 100 years ago to let utilities prop each other up, reducing blackouts and sharing power in small regions. It resembles a network of streets, avenues and country roads.
...While the United States today gets barely 1 percent of its electricity from wind turbines, many experts are starting to think that figure could hit 20 percent.
Achieving that would require moving large amounts of power over long distances, from the windy, lightly populated plains in the middle of the country to the coasts where many people live....
...The basic problem is that many transmission lines, and the connections between them, are simply too small for the amount of power companies would like to squeeze through them. The difficulty is most acute for long-distance transmission, but shows up at times even over distances of a few hundred miles.
...Wind advocates say that just two of the windiest states, North Dakota and South Dakota, could in principle generate half the nation’s electricity from turbines. But the way the national grid is configured, half the country would have to move to the Dakotas in order to use the power.
“We still have a third-world grid,” Mr. Richardson said, repeating a comment he has made several times. “With the federal government not investing, not setting good regulatory mechanisms, and basically taking a back seat on everything except drilling and fossil fuels, the grid has not been modernized, especially for wind energy.”

January 2008. Souping Up Superconductors. by Kathleen M. Wong. Excerpt: Imagine a world where electricity was virtually free and the means to store it limitless. Alessandra Lanzara, a Berkeley professor of physics, sees a way to reach this goal: by restringing the power grid with high temperature superconductors. "There is a lot of waste getting electricity from its production site to your home. This is because materials that carry a current have resistivity; their conduction isn't perfect," Lanzara says. Superconductors, on the other hand, can transmit a current without loss when chilled below a critical temperature. Power lines made of superconductors, Lanzara argues, could retain the energy now lost to waste, drastically increasing the amount available for use and decreasing its cost. Superconductors can also hold a current indefinitely without any loss of power, making them ideal for storing intermittent energy from sources like the sun. There is a catch, however-the expense of keeping power lines cold largely offsets any gains in energy efficiency. The first superconductor, discovered in 1911, operated at a phenomenally cold -269 degrees Celsius. Since then, scientists have hit upon so-called high temperature superconductors. Made of ceramics mixed with other elements such as copper and oxygen, these materials must still be chilled to below -140 degrees Celsius to conduct electricity freely. ...A superconductor's remarkable properties derive from the flow of electrons within it. Lanzara observes this movement in superconductors using a technique called photoemission spectroscopy. Using light, she excites electrons to emerge from her sample. By mapping the angles and velocities of exiting electrons, Lanzara can deduce how they were moving inside each material. Under normal conditions, electrons are negatively charged and should repel one another. But when a metallic superconductor drops below a critical temperature, its electrons suddenly begin traveling in pairs. The movement of these particles is akin to two bowling balls rolling across a mattress. The first electron deforms the energetic space through which electrons travel. This makes a second electron following close behind likely to follow the same path. In traditional superconductors, the mattress effect can be identified by the atomic vibrations, or phonons, it triggers.
"The big question is whether this mattress effect is still at work in
the new ceramic superconductors," Lanzara says.....

26 June 2007. U.S. Is Creating 3 Centers For Research on Biofuels. The New York Times. By Matthew L. Wald. Excerpt: Energy Department is creating three bioenergy research centers to find new ways to turn plants into fuel; three centers, which department describes as three start-up companies with $125 million each in capital, will be in Oak Ridge, Tenn, Madison, Wis, and near Berkeley, Calif; they will involve numerous universities, national laboratories and private companies; goal of centers is to bring new technologies to market within five years; new approach supports Pres Bush's goal of reducing gasoline consumption by 20 percent in 10 years; centers will focus on finding naturally occurring microbes that can break down lignin, component of plants and trees, to give access to material inside, called cellulose…

Archive of Past Articles for Chapter 5

Health Effects of Electromagnetic Fields -- Studies

• The National Institute of Environmental Health Sciences (NIEHS) and the Department of Energy (DOE) program: Electric and Magnetic Fields (EMF) Research and Public Information Dissemination (RAPID)
• International Agency for Research on Cancer (IARC)
• Electromagnetic Fields and the Risk of Cancer: Report of an Advisory Group on Non-Ionising Radiation
• Electromagnetic Fields and Neurodegenerative Disease: Report of an Advisory Group on Non-Ionising Radiation
• California Electric and Magnetic Fields (EMF) Program
• An Evaluation of the Possible Risks From Electric and Magnetic Fields (EMFs) From Power Lines, Internal Wiring, Electrical Occupations and Appliances
• California Public Utilities Commission (CPUC) Web Site for Electric and Magnetic Fields (EMF)

Superconductors

• Magnesium diboride, MgB2
  • Aug 15. 2002 BERKELEY, CA. Magnesium diboride (MgB2) becomes superconducting at 39 degrees Kelvin, one of the highest known transition temperatures (Tc) of any superconductor. What's more, its puzzling characteristics include more than one superconducting energy gap, a state of affairs anticipated in theory but never before seen experimentally.

TOP