The new study includes some of the first scientific data on unprocessed raw cotton's use in crude oil spills, and was published in the ACS journal Industrial & Engineering Chemistry Research.
"In this region, about 10% of the cotton grown in West Texas is low micronaire," Ramkumar said. "It doesn't take a dye well, so it gets discounted. However, because low-micronaire cotton is less mature, it shrinks, and you are able to pack more fiber into a given area. The strength here is that the low-micronaire cotton absorbs the most crude oil. The oil is not only stuck to the surface, the oil gets absorbed into the fiber."
Ron Kendall, director emeritus at TIEHH and special assistant to the president, said the Deepwater Horizon disaster emphasized the need for better ways of cleaning up oil spills. "One of the things we realized from Deepwater Horizon is we didn't have the best tools for cleanup, and the technology wasn't right for the booms," Kendall said. "This discovery that low-micronaire cotton, which is the least valuable cotton, can absorb as much crude oil as it does is a breakthrough discovery. It gives us an excellent tool for cleanup of shorelines, animals, and ecologically sensitive areas as well as a new technology for booms that can stop oil sheen moving into wetlands. And it's biodegradable. This is just another added bonus use for low-end West Texas cotton. Now, farmers have a new use for low-end cotton in a very significant way for oil spill cleanup. It's a major discovery from scientific and economic standpoints."
Scientists have done extensive studies on fibers such as barley straw, kapok, and polypropylene wool, Ramkumar said. However, big gaps existed in knowledge about their basic crude oil-uptake mechanisms and no data existed on unprocessed raw cotton. His team decided to fill those gaps with research on the oil sorption properties of low-micronaire cotton.
The cotton fibers take up oil in multiple ways, including both absorption and adsorption in which oil sticks to the outer surface of the cotton fiber.
"Our interest was to see how raw cotton straight from the bale picks up the crude oil as well as determining the governing mechanism behind picking up the crude oil," he said. "We show through sophisticated testing that low-micronaire cotton is much finer and can pick up more crude oil. And crude oil is very different from refined motor oil. It's very dense and releases toxic vapors. It's not as easy to get picked up. In contrast to synthetic sorbents, raw cotton with its high crude oil sorption capacity and positive environmental footprint make it an ecologically friendly sorbent for oil spill cleanups."
Laboratory work using crude oil was performed by graduate student Vinitkumar Singh. Both Cotton Inc. and The CH Foundation contributed funds to this research.
For more information, contact Seshadri S. Ramkumar, associate professor, The Institute for Environmental and Human Health, Texas Tech University, or Ron Kendall at Texas Tech University.
TAPPI
http://www.tappi.org/