Sorption isotherms of CO(2), CH(4) and N(2) are determined at 318 K and 338 K for pressures up to 16 MPa in dry Selar Cornish coal using the manometric method. Both equilibrium sorption and desorption were measured. The desorption isotherms show that there is no hysteresis in N(2), CH(4) sorption/desorption on coal. The time to achieve equilibrium depends on the gases and is increasing in the following order: He, N(2), CH(4), and CO(2). The results show that the sorption ratio between the maximum in the excess sorption N(2):CH(4):CO(2) = 1:1.5:2.6 at 318 K and 1:1.5:2.0 at 338 K. Obtained ratios are within the range quoted in the literature. Swelling and shrinkage induced by CO(2) injection and extraction from Selar Cornish coal have been measured. The experiments have been conducted on unconfined cubic samples using strain gauges measurements at 321 K for pressures up to 4.1 MPa. It has been found that the mechanical deformation is fully reversible. The density of CO(2) in its sorbed phase, has been extrapolated from the excess sorption isotherm calculated including the swelling. The resulting value is unrealistically high. Possible reasons for this behavior are discussed in the text. Absolute sorption for CO(2) has been estimated considering also the change in the coal volume due to swelling. The resulting isotherm calculated with or without the swelling is almost the same. (C) 2010 Elsevier B.V. All rights reserved.