Adsorption kinetics of CO2, CH4, and their equimolar mixture on coal from the Black Warrior Basin, West-Central Alabama

Laboratory experiments were conducted to investigate the adsorption kinetic behavior of pure and mixed gases (CO2, CH4, approximately equimolar CO2+CH4 mixtures, and He) on a coal sample obtained from the Black Warrior Basin at the Littleton Mine (Twin Pine Coal Company), Jefferson County, west-central Alabama. The sample was from the Mary Lee coal zone of the Pottsville Formation (Lower Pennsylvanian). Experiments with three size fractions (45-150 mu m, 1-2 mm, and 5-10 mm) of crushed coal were performed at 40 degrees C and 35 degrees C over a pressure range of 1.4-6.9 MPa to simulate coalbed methane reservoir conditions in the Black Warrior Basin and provide data relevant for enhanced coalbed methane recovery operations, The following key observations were made: (1) CO2 adsorption on both dry and water-saturated coal is much more rapid than CH4 adsorption; (2) watersaturation decreases the rates of CO2 and CH4 adsorption on coal surfaces, but it appears to have minimal effects on the final magnitude Of CO2 or CH4, adsorption if the coal is not previously exposed to CO2: (3) retention of adsorbed CO2 on coal surfaces is significant even with extreme pressure cycling: and (4) adsorption is significantly faster for the 45-150 mu m size fraction compared to the two coarser fractions. (C) 2008 Elsevier B.V. All rights reserved.