Paul Painter, professor of polymer science in the Department of Materials Science and Engineering at Penn State, and his group have spent the past 18 months developing a technique that uses ionic liquids (salt in a liquid state) to facilitate separation. The separation takes place at room temperature without the generation of waste process water. "Essentially, all of the bitumen is recovered in a very clean form, without any contamination from the ionic liquids," Painter explained. Because the bitumen, solvents and sand/clay mixture separate into three distinct phases, each can be removed separately and the solvent can be reused.
The process can also be used to extract oil and tar from beach sand after oil spills, such as the Exxon Valdez and Deepwater Horizon incidents. Unlike other methods of cleanup, the Penn State process completely removes the hydrocarbons, and the cleaned sand can be returned to the beach instead of being sent to landfills. In an experiment using sand polluted by the BP oil spill, the team was able to separate hydrocarbons from the sand within seconds. A small amount of water was used to clean the remaining ionic liquids from the sand, but that water was also recoverable. "It was so clean you could toss it back on the beach. Plus, the only extra energy you need is enough to stir the mixture," said Aron Lupinsky, a researcher in Painter's group.
Tuesday, March 22, 2011
Naked Capitalism Link of the Day
Today's Link : New process cleanly extracts oil from tar sands and fouled beaches, at Science Daily:
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If the solvent is reuseable, I wonder if the oil (or hydrocarbons) is recoverable?
ReplyDeleteI believe so, or it wouldn't be very useful in the tar sands. I don't know the likelihood of large scale applications though.
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