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Experimental investigation of hysteretic dynamic effect in capillary pressure-saturation relationship for two-phase flow in porous media

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journal contribution
posted on 26.03.2014, 12:54 by Mahsanam Mirzaei, Diganta DasDiganta Das
Well-defined laboratory experiments have been carried out to investigate hysteretic dynamic effect in capillary pressure–saturation relationships for two-phase flow in homogeneous and heterogeneous (layered) porous media. Conceptually, the dependence of the capillary pressure curves on the rate of change of saturation (dSw/dt) is defined as the dynamic effect in capillary pressure relationship, which is indicated by a dynamic coefficient, τ (Pa s) and it determines the rate at which two-phase flow equilibrium is reached, i.e., dSw/dt = 0 where Sw and t are the water saturation and time, respectively. The dependences of τ on various fluid and porous materials properties have been studied in the context of drainage; but, there is limited study for imbibition and the hysteresis of τ−Sw relationships. As such, the emphasis in this article is on reporting τ−Sw curves for imbibition while also demonstrating the hysteresis in the τ−Sw relationships by comparing τ−Sw curves for drainage (previously reported) and imbibition (this study) in carefully designed laboratory experiments. Homogeneous sand samples composed of either fine (small particle size and lower permeability) or coarse (larger particle size and higher permeability) sand have been used for these experiments. Furthermore, a layered domain made of a find sand layer sandwiched between two coarse sand layers is used as a model of heterogeneous domain. The results of the study confirm that the τ−Sw relationships are hysteretic in nature and, as such, the speed to flow equilibrium should vary depending on whether drainage or imbibition takes place. At a particular water saturation, the magnitudes of the dynamic coefficient (τ) are found to be generally higher for imbibition, which imply that the speed to flow equilibrium at the same saturation will be slower for imbibition.

Funding

This study has been carried out in the framework of the EPSRC (UK) Project GR/S94315/01, “micro-heterogeneity and temperature effects on dynamic capillary pressure–saturation relationships for two-phase flow in porous media”.

History

School

  • Aeronautical, Automotive, Chemical and Materials Engineering

Department

  • Chemical Engineering

Citation

MIRZAEI, M. and DAS, D.B., 2013. Experimental investigation of hysteretic dynamic effect in capillary pressure-saturation relationship for two-phase flow in porous media. AIChE Journal, 59 (10), pp. 3958 - 3974.

Publisher

Wiley / © American Institute of Chemical Engineers

Version

AM (Accepted Manuscript)

Publication date

2013

Notes

This article was published in the serial AIChE Journal [Wiley / © American Institute of Chemical Engineers]. The definitive version is available at: http://dx.doi.org/10.1002/aic.14121

ISSN

0001-1541

Language

en