Journal
TRANSPORT IN POROUS MEDIA
Volume 95, Issue 3, Pages 563-580Publisher
SPRINGER
DOI: 10.1007/s11242-012-0062-5
Keywords
Non-Darcy flow; Forchheimer equation; Image-based modeling; Lattice Boltzmann method; Castlegate sandstone
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Funding
- Exxon Mobil Upstream Production Company
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Near wellbore flow in high rate gas wells shows the deviation from Darcy's law that is typical for high Reynolds number flows, and prediction requires an accurate estimate of the non-Darcy coefficient (beta factor). This numerical investigation addresses the issues of predicting non-Darcy coefficients for a realistic porous media. A CT-image of real porous medium (Castlegate Sandstone) was obtained at a resolution of 7.57 mu m. The segmented image provides a voxel map of pore-grain space that is used as the computational domain for the lattice Boltzmann method (LBM) based flow simulations. Results are obtained for pressure-driven flow in the above-mentioned porous media in all directions at increasing Reynolds number to capture the transition from the Darcy regime as well as quantitatively predict the macroscopic parameters such as absolute permeability and beta factor (Forchheimer coefficient). Comparison of numerical results against experimental data and other existing correlations is also presented. It is inferred that for a well-resolved realistic porous media images, LBM can be a useful computational tool for predicting macroscopic porous media properties such as permeability and beta factor.
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