Effect of Voxel Size in Flow Direction on Permeability and Forchheimer Coefficients Determined by Using Micro-Tomography Images of a Porous Medium
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BRONZE
Green Open Access
Yes
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Abstract
The permeability and Forchheimer coefficients of a porous medium, volcanic rock, are determined using micro-tomography images. A cubic volume in the middle of the images is extracted as REV (representative volume). The voids in the REV are discretised into anisotropic voxels using the commercial program of GeoDict. Seven computational domains with different voxel size in flow direction are generated. The velocity and pressure fields in the voids are obtained for Reynolds numbers ranging from 0.01 to 10. The obtained fields are used to determine the permeability and the Forchheimer coefficients. The performed calculations show that the nominal pore size changes with the voxel size in flow direction, however permeability and the Forchheimer coefficient approaches to the constant values.
Description
Keywords
Tomography, Forchheimer, Permeability, Porous media, Mechanical permeability, Forchheimer, Porous media, Mechanical permeability, Tomography, Permeability
Fields of Science
02 engineering and technology, 0204 chemical engineering, 0101 mathematics, 01 natural sciences
Citation
Uçar, E., Mobedi, M., Altıntaş, G., and Glatt, E. (2015). Effect of voxel size in flow direction on permeability and Forchheimer coefficients determined by using micro-tomography images of a porous medium. Progress in Computational Fluid Dynamics, 15(5), 327-333. doi:10.1504/PCFD.2015.072015
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OpenCitations Citation Count
2
Volume
15
Issue
5
Start Page
327
End Page
333
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