Wayne State University Researcher's Calculations Will Help Unlock New Energy Sources
Jaewon Jang, Ph.D., assistant professor of civil and environmental engineering in the
Methane hydrates are three-dimensional ice-lattice structures with natural gas locked inside, and are found both onshore and offshore — including under the Arctic permafrost and in ocean sediments along nearly every continental shelf in the world.
The DOE effort, which includes 14 projects in 11 states, builds on the completion of what officials called a “successful, unprecedented test” earlier this year that was able to safely extract a steady flow of natural gas from methane hydrates on the
Jang’s project, “Verification of Capillary Pressure Functions and Relative Permeability Equations for Modeling Gas Production from Gas Hydrates,” will try to obtain reliable parameters for equations that can be used by computer simulation programs to provide reliable information on how fast or how much methane is recovered.
Finding those parameters will direct extractors to the best locations, maximizing gas yields and minimizing costs.
Jang said many in the industry might not be inclined to pursue methane hydrates as an energy source right now because of the large quantities of shale gas currently available and its resultant low prices. But because those quantities are the result of research money invested by the DOE in the 1970s and 1980s to develop production methods, he believes that bodes well for the future of the current effort.
“Thanks to those investments, we now have a large amount of shale gas,” Jang said. “The total is about $5.6M for these 14 projects, which is not big money, but could prove to be worth much more in the next couple of decades — or even hundreds of years.”
The Department of Energy award number for this grant is DE-FE0009927.
SOURCE: Wayne State University