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Oil-bearing Rock Modeling
This solution was devised for prediction of oil content in reservoir
rocks. This complex scientific problem is originally solved by Smart Imaging Technologies
by means of 3D modeling and image analysis.
Obtained results of modeling oil-bearing structure
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Structure of a petroliferous solid consisting of 19 main solids’
fractions(spherical particles modeling)
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Structure of an oil-bearing well, consisting of 19 main solids’
fractions (spherical particles modeling)
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Estimated density distribution over the height of petroliferous
solid |
Structure of a petroliferous solid consisting of 19 main solids’
fractions (convex Voronoi polyhedra modeling) |
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Structure of an oil-bearing well consisting of 19 main solids’ fractions (convex Voronoi polyhedra modeling) |
Section of an oil-bearing well, consisting of 19 main solids’ fractions (spherical particles modeling) |
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Pore structure of an oil-bearing well, consisting of 19 main solids’ fractions (spherical particles’ modeling with applying Delone triangulation). |
Pore structure of a petroliferous solid, consisting of 19 main solids’ fractions (spherical particles’ modeling with applying Delone triangulation).
Pores, falling into section plane, are shown in green. |
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Pore channels in the oil-bearing rock |
Estimated pore structure of an oil-bearing well, consisting of 19 main solids’ fractions. Pores, falling into section plane, are shown in red. |
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Layers of the constructed oil-bearing rock structure (spherical particles modeling) |
Section of the constracted multilayer oil-bearing rock structure (spherical particles modeling) |
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Layers of the constructed oil-bearing rock structure (convex Voronoi polyhedra modeling) |
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