APS Meeting Session Explores New Sources of Oil and Gas
Source: Energy Information Administration
Natural gas consumption has been rising rapidly and is expected to increase 70 percent by 2025, said Timothy Collett, of the U.S. Geological Survey (USGS). The United States currently consumes about 25 trillion cubic feet of natural gas per year.
An alternative could be found in gas hydrates, said Collett. Hydrates are ice-like solids in which water molecules trap the methane molecules in a cage-like structure. Hydrates look a lot like ordinary ice, but they burn when lit with a match.
Like conventional natural gas, most gas hydrates are methane-based, and thus produce relatively clean burning fuel. Burning methane adds less carbon dioxide to the atmosphere than burning coal or oil.
Hydrates, first discovered in 1983, can be found on the sea floor near the coasts and underneath the arctic tundra. Earth contains vastly more natural gas in hydrates than in conventional natural gas, said Collett.
“Hydrates are a very large, known source of natural gas,” he explained. There has been increasing international interest in recovering and using these resources, he added. The U.S. has about 320,000 trillion cubic feet of gas hydrates, but only 1,200 trillion cubic feet of conventional natural gas reserves.
More research is under way to assess more accurately how much hydrate natural gas exists and how much of it might be recoverable, Collett said.
Recovering the gas is challenging, but possible. Several research projects have shown that gas hydrates can be produced by either heating the hydrates or decreasing the pressure to release the gas. More testing of these methods is still needed, said Collett.
Environmental concerns associated with hydrate production include possible damage to the sea floor or possible accidental release of methane gas. Any project that produces gas hydrates would have to deal with these concerns, said Collett. However, accidental release of methane is unlikely, he said.
Based on the limited studies done so far, Collett believes hydrates could become economically competitive with conventional natural gas.
Another promising source of energy is heavy oil, Doug Schmitt of the University of Alberta, reported. Significant heavy oil reserves exist in Canada, South America, and Colorado, while most of the world’s light oil reserves are in the Middle East.
Heavy oil looks like sand with tar added, Schmitt said. Heavy oil is abundant, but because it is so thick–its viscosity is similar to peanut butter–it is difficult to extract and use.
“The real problems are accessing it and being able to produce enough,” said Schmitt.
©1995 - 2013, AMERICAN PHYSICAL SOCIETY
APS encourages the redistribution of the materials included in this newspaper provided that attribution to the source is noted and the materials are not truncated or changed.
|APS Washington, D.C. Office
529 14th St. NW,
Washington, DC 20045
|Director of Public Affairs: Michael Lubell
Associate Director of Public Affairs: Francis Slakey
Head of Government Relations: Steve Pierson
Senior Science Policy Fellow: Kimberly Duncan
Legislative Correspondent: Brian Mosley
Office Manager: Jeanette Russo
Press Secretary: Tawanda W. Johnson
College Park, MD
One Physics Ellipse,
College Park, MD 20740
|Executive Editor: Alan Chodos
Staff Writer: Ernie Tretkoff
Art Director / Special Publications Manager: Kerry G. Johnson
Design and Production: Nancy Bennett-Karasik