2004 Denver Annual Meeting (November 7–10, 2004)

Paper No. 12
Presentation Time: 4:30 PM

BASELINE MEASUREMENTS OF SOIL GAS EXCHANGE WITH THE ATMOSPHERE AT THE TEAPOT DOME SEQUESTRATION TEST SITE, WYOMING


KLUSMAN, Ronald W., Department of Chemistry and Geochemistry, Colorado School of Mines, Department of Chemistry and Geochemistry, Colorado School of Mines, Golden, CO 80401, rklusman@mines.edu

Baseline measurements of soil gas exchange with the atmosphere are critical in the assessment of future gas microseepage potential and quantification of microseepage rates at CO2 sequestration sites. Triplicate measurements of CH4 and CO2 atmospheric exchange, and soil gas concentrations were determined at 40 locations at the Teapot Dome oil field, Wyoming (National Geologic Carbon Storage Test Site; NGCSTS). Measurements were made in January, 2004 to allow the determination of gas exchange and soil gas concentrations when soil biological activity was at a minimum. Methane is important because of its mobility and inertness in the subsurface, relative to CO2. Methane was previously demonstrated to be of potential concern at the CO2-EOR project at Rangely, Colorado, where significant localized CH4 microseepage was demonstrated.

The average CO2 flux into the atmosphere at Teapot Dome was 227 mg m-2day-1, and for CH4 was 0.137 mg m-2day-1. Both positive (upward) and negative (downward) fluxes for CH4 were observed. Downward CH4 fluxes and sub-atmospheric CH4 concentrations were observed in soil gas due to methanotrophic oxidation below the frost line, with the system in very close balance. Concentrations of CO2 in soil gas averaged 618, 645, and 1010 ppmv at 30-, 60-, and 100-cm depth, respectively, contrasting with an average atmospheric concentration of 379 ppmv during the measurement period at Teapot. Stable carbon isotopic ratios indicated that soil gas CO2 was dominated by biological processes, even in the winter. Methane concentrations averaged 0.94, 0.92, and 0.92 ppmv, respectively, at 30-, 60-, and 100-cm. Ten-meter deep holes have been drilled at selected locations and equipped for nested gas sampling at five different depths.