Gas Compression Systematically Delays the Onset of Viscous Fingering
Liam C. Morrow, Callum Cuttle, Christopher W. MacMinn
Abstract
Using gas to drive liquid from a Hele-Shaw cell leads to classical viscous fingering. Strategies for suppressing fingering have received substantial attention. For steady injection of an incompressible gas, the intensity of fingering is controlled by the capillary number Ca. Here, we show that gas compression leads to an unsteady injection rate controlled primarily by a dimensionless compressibility number C. Increasing C systematically delays the onset of fingering at high Ca, highlighting compressibility as an overlooked but fundamental aspect of gas-driven fingering.
Topics & Concepts
Viscous fingeringCompressibilityDimensionless quantityLicenseMechanicsCapillary actionMaterials scienceThermodynamicsPhysicsComputer sciencePorosityOperating systemComposite materialPorous mediumLattice Boltzmann Simulation StudiesPickering emulsions and particle stabilizationCharacterization and Applications of Magnetic Nanoparticles