On the rotation of porous ellipsoids in simple shear flows
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Publication:2878437
DOI10.1017/jfm.2013.476zbMath1294.76240OpenAlexW2163032148MaRDI QIDQ2878437
Howard A. Stone, Hassan Masoud, Michael J. Shelley
Publication date: 29 August 2014
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/6e0e31d162d45788b4bfbd4e2be36873c41a3731
Flows in porous media; filtration; seepage (76S05) Stokes and related (Oseen, etc.) flows (76D07) Suspensions (76T20)
Related Items (8)
The effect of Navier slip on the rheology of a dilute two-dimensional suspension of plate-like particles ⋮ Viscous flow around three-dimensional macroscopic cavities in a granular material: asymptotic theory for two sufficiently distant spherical cavities of arbitrary configuration ⋮ Numerical methods for simulating the motion of porous balls in simple 3D shear flows under creeping conditions ⋮ Hydrodynamics of micro-swimmers in films ⋮ Faxén formulas for particles of arbitrary shape and material composition ⋮ Lattice Boltzmann study of effective viscosities of porous particle suspensions ⋮ On the rotation of a circular porous particle in 2D simple shear flow with fluid inertia ⋮ Optimal viscous damping of vibrating porous cylinders
Cites Work
- Hydrodynamic forces on steady and oscillating porous particles
- Analysis of the Brinkman equation as a model for flow in porous media
- The motion of rigid particles in a shear flow at low Reynolds number
- Motion and Rupture of a Porous Sphere in a Linear Flow Field
- On the calculation of Stokes' flow past porous particles
- Boundary Integral and Singularity Methods for Linearized Viscous Flow
- Hydromechanics of low-Reynolds-number flow. Part 2. Singularity method for Stokes flows
- A porous prolate-spheroidal model for ciliated micro-organisms
- Axisymmetric creeping flow past a porous prolate spheroidal particle using the Brinkman model
- A method for computing Stokes flow interactions among spherical objects and its application to suspensions of drops and porous particles
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