Pore-Morphology-Based Simulation of Drainage in Porous Media Featuring a Locally Variable Contact Angle

Pore-Morphology-Based Simulation of Drainage in Porous Media Featuring a Locally Variable Contact Angle

Since the first publications by Hazlett (Transp Porous Med, 20:21–35, 1995 ) and Hilpert and Miller (Adv Water Res, 24:243–255, 2001 ), the pore-morphology-based method has been widely applied to determine the capillary pressure–saturation curves of porous media. The main advantage of the method is...

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Veröffentlicht in:Transport in porous media 2015-03, Vol.107 (1), p.13-25
Hauptverfasser: Schulz, Volker P., Wargo, Eric A., Kumbur, Emin C.
Format: Artikel
Sprache:eng
Schlagworte:
Capillary pressure
Civil Engineering
Classical and Continuum Physics
Composite structures
Computational efficiency
Computer simulation
Computing time
Contact angle
Contact pressure
Drainage
Earth and Environmental Science
Earth Sciences
Flow simulation
Geotechnical Engineering & Applied Earth Sciences
Hydrogeology
Hydrology/Water Resources
Industrial Chemistry/Chemical Engineering
Morphology
Porous media
Saturation
Simulation
Two phase flow
Wetting
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Zusammenfassung:Since the first publications by Hazlett (Transp Porous Med, 20:21–35, 1995 ) and Hilpert and Miller (Adv Water Res, 24:243–255, 2001 ), the pore-morphology-based method has been widely applied to determine the capillary pressure–saturation curves of porous media. The main advantage of the method is the simulation of a primary drainage process for large binary images using moderate computational time and memory compared to other two-phase flow simulations. Until now, the pore morphology model was restricted to totally wetting materials or those with a constant contact angle. Here, we introduce a similarly computationally efficient extension of the model that now enables the calculation of capillary pressure–saturation curves for porous media, where the contact angle varies locally within, due to a composite structure.
ISSN:0169-3913
1573-1634
DOI:10.1007/s11242-014-0422-4