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Pore-network modeling of polymer flow in porous media

Si Suo, Sajjad Foroughi, Martin J. Blunt, Catherine O’Sullivan

2025Computers and Geotechnics12 citationsDOIOpen Access PDF

Abstract

Non-Newtonian fluid flows in porous media are critical in various subsurface and geotechnical engineering applications. However, accurately predicting such flows remains challenging due to the complex fluid rheology and intricate pore structures. This study focuses on polymer fluids with shear-thinning rheology with the motivation of advancing understanding of polymer support fluids for ground engineering applications. To address the limitations of existing models, we derive a theoretical conductance model for polymer flow in a capillary tube, based on which a customized pore-network method is developed. Our simulations reveal three distinct flow regimes, highlighting the impact of the rheology on flow dynamics. Notably, flow heterogeneity amplifies as the shear-thinning feature directs more flow through wider pores, where the effective viscosity decreases more significantly compared to narrower ones. A generalized Darcy’s law is formulated for non-Newtonian fluids, validated through pore-network modeling on 60 distinct sphere packings. The proposed framework is adaptable to a broad range of non-Newtonian fluids, offering valuable insights for scaling up to field-scale applications. • Three polymer flow regimes in porous media are identified via pore-network modeling. • Shear-thinning effects cause preferential pathways, with their physics clarified. • A generalized Darcy’s law for non-Newtonian fluids is proposed and validated.

Topics & Concepts

Porous mediumFlow (mathematics)PorosityMaterials scienceGeotechnical engineeringGeologyMechanicsPhysicsEnhanced Oil Recovery TechniquesHydraulic Fracturing and Reservoir AnalysisHydrocarbon exploration and reservoir analysis