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Crossover from viscous fingering to fracturing in cohesive wet granular media: a photoporomechanics study

Authors :
Meng, Yue
Li, Wei
Juanes, Ruben
Meng, Yue
Li, Wei
Juanes, Ruben
Source :
Royal Society of Chemistry
Publication Year :
2024

Abstract

We study fluid-induced deformation and fracture of cohesive granular media, and apply photoporomechanics to uncover the underpinning grain-scale mechanics. We fabricate photoelastic spherical particles of diameter d = 2 mm, and make a monolayer granular pack with tunable intergranular cohesion in a circular Hele–Shaw cell that is initially filled with viscous silicone oil. We inject water into the oil-filled photoelastic granular pack, varying the injection flow rate, defending-fluid viscosity, and intergranular cohesion. We find two different modes of fluid invasion: viscous fingering, and fracturing with leak-off of the injection fluid. We directly visualize the evolving effective stress field through the particles' photoelastic response, and discover a hoop effective stress region behind the water invasion front, where we observe tensile force chains in the circumferential direction. Outside the invasion front, we observe compressive force chains aligning in the radial direction. We conceptualize the system's behavior by means of a two-phase poroelastic continuum model. The model captures granular pack dilation and compaction with the boundary delineated by the invasion front, which explains the observed distinct alignments of the force chains. Finally, we rationalize the crossover from viscous fingering to fracturing by comparing the competing forces behind the process: viscous force from fluid injection that drives fractures, and intergranular cohesion and friction that resist fractures.<br />Division of Civil, Mechanical and Manufacturing Innovation

Details

Database :
OAIster
Journal :
Royal Society of Chemistry
Notes :
application/pdf
Publication Type :
Electronic Resource
Accession number :
edsoai.on1434012824
Document Type :
Electronic Resource