Methanogenic Conversion of Carbon Dioxide into Methane

Methanogenic Conversion of Carbon Dioxide into Methane: A Breakthrough Geologic Sequestration Technology--Advanced Resources International, Inc., 1110 North Glebe Road, Suite 600, Arlington, VA 22201-4795; 703-528-8420, www.adv-res.com
Mr. Mark Rogers, Principal Investigator, mrogers@adv-res.com
Mr. Scott Stevens, Business Official, sstevens@adv-res.com
DOE Grant No. DE-FG02-03ER83596
Amount: $99,905

Geologic sequestration of CO₂ is a promising control technology for greenhouse gases, however, applied on a wide scale, it will generate thousands of large CO₂ deposits in the U.S. This could provoke environmental concern about CO₂ “waste disposal” and jeopardize ambitious geologic sequestration R&D efforts. Fortunately, it is known that certain naturally occurring bacteria (“methanogens”) have the remarkable ability to convert CO₂ into methane within geologic reservoirs (many natural gas fields were created this way). This project will develop technology for introducing these bacterial consortia into geologic sequestration sites in order to harness their natural methanogenic ability to remediate these sites and also generate large and readily producible new natural gas resources. Phase I will: (1) identify and define the biological requirements of bacterial consortia most appropriate for remediating geologic CO₂ sequestration sites, (2) assess the geochemical conditions required for successful application of methanogens in oil and gas fields; and (3) screen known oil and gas reservoirs in the U.S. to quantify potential application of methanogens and to identify high-graded sites for Phase II laboratory and field application.

Commercial Applications and Other Benefits as described by awardee: The successful application of naturally occurring methanogens to remediate CO₂ sequestration sites would head off environmental objections to sequestration as waste disposal and open up this greenhouse-gas-reduction technology to widespread application by the power generation, chemical, petroleum, and other industries. The technology also could generate new natural gas resources and even could allow the conversion of sub-economic (high-CO₂) natural gas deposits into pure and economical methane deposits.