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Main Authors: Primkulov, Bauyrzhan K., Pahlavan, Amir A., Fu, Xiaojing, Zhao, Benzhong, MacMinn, Christopher W., Juanes, Ruben
Format: Preprint
Published: 2019
Subjects:
Online Access:https://arxiv.org/abs/1906.02364
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author Primkulov, Bauyrzhan K.
Pahlavan, Amir A.
Fu, Xiaojing
Zhao, Benzhong
MacMinn, Christopher W.
Juanes, Ruben
author_facet Primkulov, Bauyrzhan K.
Pahlavan, Amir A.
Fu, Xiaojing
Zhao, Benzhong
MacMinn, Christopher W.
Juanes, Ruben
contents We develop a novel `moving capacitor' dynamic network model to simulate immiscible fluid-fluid displacement in porous media. Traditional network models approximate the pore geometry as a network of fixed resistors, directly analogous to an electrical circuit. Our model additionally captures the motion of individual fluid-fluid interfaces through the pore geometry by completing this analogy, representing interfaces as a set of moving capacitors. By incorporating pore-scale invasion events, the model reproduces, for the first time, both the displacement pattern and the injection pressure signal under a wide range of capillary numbers and substrate wettabilities. We show that at high capillary numbers the invading patterns advance symmetrically through viscous fingers. In contrast, at low capillary numbers the flow is governed by the wettability-dependent fluid-fluid interactions with the pore structure. The signature of the transition between the two regimes manifests itself in the fluctuations of the injection pressure signal.
format Preprint
id arxiv_https___arxiv_org_abs_1906_02364
institution arXiv
publishDate 2019
record_format arxiv
spellingShingle Signatures of fluid-fluid displacement in porous media: wettability, patterns, and pressures
Primkulov, Bauyrzhan K.
Pahlavan, Amir A.
Fu, Xiaojing
Zhao, Benzhong
MacMinn, Christopher W.
Juanes, Ruben
Fluid Dynamics
We develop a novel `moving capacitor' dynamic network model to simulate immiscible fluid-fluid displacement in porous media. Traditional network models approximate the pore geometry as a network of fixed resistors, directly analogous to an electrical circuit. Our model additionally captures the motion of individual fluid-fluid interfaces through the pore geometry by completing this analogy, representing interfaces as a set of moving capacitors. By incorporating pore-scale invasion events, the model reproduces, for the first time, both the displacement pattern and the injection pressure signal under a wide range of capillary numbers and substrate wettabilities. We show that at high capillary numbers the invading patterns advance symmetrically through viscous fingers. In contrast, at low capillary numbers the flow is governed by the wettability-dependent fluid-fluid interactions with the pore structure. The signature of the transition between the two regimes manifests itself in the fluctuations of the injection pressure signal.
title Signatures of fluid-fluid displacement in porous media: wettability, patterns, and pressures
topic Fluid Dynamics
url https://arxiv.org/abs/1906.02364