S. Gabbanelli scite author profile

We study an ad hoc extension of the Lattice-Boltzmann method that allows the simulation of non-Newtonian fluids described by generalized Newtonian models. We extensively test the accuracy of the method for the case of shear-thinning and shear-thickening truncated power-law fluids in the parallel plate geometry, and show that the relative error compared to analytical solutions decays approximately linear with the lattice resolution. Finally, we also tested the method in the reentrant-flow geometry, in which the shear-rate is no-longer a scalar and the presence of two singular points requires high accuracy in order to obtain satisfactory resolution in the local stress near these points. In this geometry, we also found excellent agreement with the solutions obtained by standard finite-element methods, and the agreement improves with higher lattice resolution.

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Enhancement of velocity contrasts by shear-thinning solutions flowing in a rough fracture

Auradou

Boschan

Chertcoff

et al. 2008

Journal of Non-Newtonian Fluid Mechanics

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Tracer dispersion of non-Newtonian fluids in a Hele–Shaw cell

Boschan¹,

Charette²,

Gabbanelli³

et al. 2003

Physica A: Statistical Mechanics and its Applications

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Surface fluctuations and the inertia effect in sandpiles

Nerone

Gabbanelli

2001

Granular Matter

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A single dumbbell falling under gravity in a cellular flow field

Piva¹,

Gabbanelli²

2003

J. Phys. A: Math. Gen.

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S. Gabbanelli

Lattice Boltzmann method for non-Newtonian (power-law) fluids

Enhancement of velocity contrasts by shear-thinning solutions flowing in a rough fracture

Tracer dispersion of non-Newtonian fluids in a Hele–Shaw cell

Surface fluctuations and the inertia effect in sandpiles

A single dumbbell falling under gravity in a cellular flow field

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