Nanotechnology ,The new light of the various solution has began to shows for future natural gas industry
Researchers from the University of Wyoming in the U.S. say that nanotechnology could present several opportunities for the natural gas industry, but that its use is hindered by lack of innovation in the industry, a perception of high cost, and a lack of awareness about nanotechnology. The researchers say that carbon nanotubes and porous engineered nanomaterials could be used to improve the efficiency of extraction in gas fields and other sources of natural gas. Additionally, they say that other nanomaterials could potentially be used to improve purification and storage of hydrocarbons, as well as for environmental remediation of pollutants.
Nanotechnology could revolutionize the natural gas industry across the whole lifecycle from extraction to pollution reduction or be an enormous missed opportunity, claim two industry experts writing in Inderscience's International Journal of Nanotechnology. They suggest that nanotechnology could help us extract more fuel and feedstock hydrocarbons from dwindling resources. However, industry inertia and a lack of awareness of the benefits could mean a missed opportunity.
According to Saeid Mokhatab and Brian Towler of the Chemical and Petroleum Engineering Department, at the University of Wyoming, in Laramie, there are many opportunities for the industry to exploit nanotechnology. However, there is a traditional lack of innovation in the exploration and production sector, a perception of high costs, new risks, and a general lack of awareness of the benefits of nanotechnology.
The researchers have now described the potential benefits of nanotechnology, which could change that perception. Mokhatab and Towler point out that nanomaterials, such as nanotubes or engineered porous minerals, might be used in the gas field or other source to improve the efficiency of extraction of a wide variety of hydrocarbon fuel compounds and chemical feedstocks.
Similarly, related nanomaterials might be used to improve purification and storage of hydrocarbons, while yet other nanomaterials might be used in environmental remediation, allowing contaminated sites to be cleaned up of harmful pollutants. Nanomaterials might even be developed as corrosion inhibitors for equipment and at the same time, more sophisticated nanotechnology could be developed as solid-state gas sensors for air pollution monitoring.
"The past decade has seen explosive growth worldwide in the synthesis and study of a wide range of nanostructured materials, the building blocks of nanotechnology," the researchers explain, "Investigations of mechanical, chemical, electrical, magnetic, and optical behaviour of nanostructured materials have demonstrated the possibilities to engineer the properties of these new materials for a wide range of applications."
The researchers add that as readily accessible hydrocarbon reserves become depleted, the oil and gas exploration and production industry faces increasing technical challenges. These challenges boil down to increased costs and limitations on drilling and production technologies.