A Poromechanical Model for Coal Seams Injected with Carbon Dioxide: From an Isotherm of Adsorption to a Swelling of the Reservoir
Résumé
Injecting carbon dioxide into deep unminable coal seams can enhance the amount of methane
recovered from the seam. This process is known as CO2-Enhanced Coal Bed Methane
production (CO2-ECBM). The seam is a porous medium whose porous system is made
of cleats (small natural fractures) and of coal pores (whose radius can be as small as a
few angström). During the injection process, the molecules of CO2 get adsorbed
in the coal pores. Such an adsorption makes the coal swell, which, in the confined
conditions that prevail underground, induces a closure of the cleat system of the coal bed
reservoir and a loss of injectivity. In this work, we develop a poromechanical model
which, starting from the knowledge of an adsorption isotherm and combined with reservoir
simulations, enables to estimate the variations of injectivity of the coal bed reservoir
over time during the process of injection.The model for the coal bed reservoir is based on poromechanical equations that explicitly
take into account the effect of adsorption on the mechanical behavior of a microporous
medium. We consider the coal bed reservoir as a dual porosity (cleats and coal porosity)
medium, for which we derive a set of linear constitutive equations. The model requires as
an input the adsorption isotherm on coal of the fluid considered. Reversely, the model
provides a way to upscale an adsorption isotherm into a meaningful swelling of the coal
bed reservoir at the macroscopic scale.The parameters of the model are calibrated on data on coal samples available in the
literature. Reservoir simulations of an injection of carbon dioxide in a coal seam are
performed with an in-house finite volume and element code. The variations of injection
rate over time during the process of injection are obtained from the simulations. The
effect of the compressibility of the coal matrix on those variations is discussed.
Domaines
Physique [physics]Origine | Publication financée par une institution |
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