Litcius/Paper detail

Numerical and experimental investigation of impact of CO2 hydrates on rock permeability

Julián Castañeda, S. Kahrobaei, Mahnaz Aghajanloo, Denis Voskov, R. Farajzadeh

2024Fuel8 citationsDOIOpen Access PDF

Abstract

• A model was developed to simulate hydrate formation in porous media. • The model was validated using experimental data. • Injection of cold CO 2 into depleted gas fields was simulated. • The impact of water evaporation on hydrate formation was studied. The reduction of temperature caused by Joule-Thomson effect during injection of CO 2 in low pressure reservoirs combined with presence of water can lead to formation of hydrates, which in turn reduces rock permeability and hence CO 2 injectivity. This paper introduces an empirical model to evaluate impact of hydrate formation on injectivity of CO 2 injection wells. Experiments were also conducted to validate the model. The model was then used to simulate injection of CO 2 into a multi-layered depleted gas field. The results indicate that operational parameters, particularly CO 2 injection rate and temperature, have a large influence on hydrate formation. This is because a higher CO 2 injection rate leads to a greater pressure drop within the injection well, potentially triggering conditions conducive to hydrate formation. It is also shown that the dynamics of the competition between the dry-out and temperature fronts play an important role in the final saturation of the hydrate within porous media. For large evaporation rates, the evaporation of water reduces water saturation near wellbore and hence formation of hydrates is limited.

Topics & Concepts

Permeability (electromagnetism)MineralogyGeologyMaterials scienceChemistryBiochemistryMembraneCO2 Sequestration and Geologic InteractionsMethane Hydrates and Related PhenomenaHydraulic Fracturing and Reservoir Analysis