Toward tapping the potential of 'stranded' natural gas

February 28, 2007

Newly discovered chemical catalysts may be an answer to the century-long search for economical ways of using natural gas now burned or "flared" as waste in huge quantities, scientists in the United States and Germany report. Their study is scheduled for the March 7 issue of the Journal of the American Chemical Society.

Johannes A. Lercher and colleagues at the Technical University of Munich and Dow Chemical Company explain that 30 percent to 60 percent of the world's natural gas is classified as "stranded," meaning that it cannot be used locally or transported economically to other markets. When produced in the course of pumping crude oil, such gas is vented to the atmosphere or burned at the wellhead.

That wasted natural gas is mainly methane, a compound in great demand as a chemical feedstock, a basic raw material for making chemicals that are subsequently used to make hundreds of medical, commercial and industrial products. No practical technology has been available, however, for using the methane in natural gas as a chemical feedstock. The new study describes research on lanthanum-based catalysts that convert methane into a compound that would be an ideal chemical feedstock.

Source: ACS

Rate this story - 4 /5 (8 votes)

rank
1
2
3
4
5

view popular

Other News

New chemical reaction offers opportunities for drug development

Chemistry / Biochemistry

7 hours ago | 5 / 5 (1) | 0

(PhysOrg.com) -- Scientists at University College Dublin have solved a chemistry problem which has stumped researchers worldwide for more than a decade. The results have earned the group the cover story of the leading scientific ...

Researchers solve structure of NMDA receptor unit that could be drug target for neurological diseases

Chemistry / Biochemistry

13 hours ago | not rated yet | 0

A team of scientists at Cold Spring Harbor Laboratory reports on Thursday their success in solving the molecular structure of a key portion of a cellular receptor implicated in Alzheimer's, Parkinson's, and other serious ...

Sweet as can be: How E. coli gets ahead

Chemistry / Biochemistry

15 hours ago | not rated yet | 0

Scientists at the University of York have discovered how certain bacteria such as Escherichia coli have evolved to capture rare sugars from their environment giving them an evolutionary advantage in naturally competitive enviro ...

H1N1 Virus Can Be Killed by Acidic Ozone Water

Chemistry / Biochemistry

Nov 09, 2009 | 4.9 / 5 (27) | 10

(PhysOrg.com) -- Scientists have found that acidic ozone water can deactivate H1N1 viruses very effectively, offering a promising disinfectant for the millions of people trying to avoid the disease. Acidic ...

Toward home-brewed electricity with 'personalized solar energy'

Chemistry / Materials Science

Nov 04, 2009 | 3.4 / 5 (9) | 5

New scientific discoveries are moving society toward the era of "personalized solar energy," in which the focus of electricity production shifts from huge central generating stations to individuals in their ...