Viscous fingering on percolation clusters

Unni Oxaal; Michael Murat; Finn Boger; Amnon Aharony; Jens Feder; Torstein Jøssang

doi:10.1038/329032a0

Viscous fingering on percolation clusters

Unni Oxaal, Michael Murat, Finn Boger, Amnon Aharony, Jens Feder, Torstein Jøssang

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45 Scopus citations

Abstract

The displacement of a high-viscosity fluid by a low-viscosity fluid leads to fractal viscous fingering in homogeneous porous media. A study of the viscous fingering at high and low displacement rates in percolating models that are inhomogeneous on all length scales makes it possible to construct different theoretical models for these two rates. Applying these two models to computer simulations on exactly the same geometry as in the experiments suggests that the underlying geometry determines the viscous fingering structure almost entirely.

Original language	English
Pages (from-to)	32-37
Number of pages	6
Journal	Nature
Volume	329
Issue number	6134
DOIs	https://doi.org/10.1038/329032a0
State	Published - 1 Jan 1987
Externally published	Yes

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title = "Viscous fingering on percolation clusters",

abstract = "The displacement of a high-viscosity fluid by a low-viscosity fluid leads to fractal viscous fingering in homogeneous porous media. A study of the viscous fingering at high and low displacement rates in percolating models that are inhomogeneous on all length scales makes it possible to construct different theoretical models for these two rates. Applying these two models to computer simulations on exactly the same geometry as in the experiments suggests that the underlying geometry determines the viscous fingering structure almost entirely.",

author = "Unni Oxaal and Michael Murat and Finn Boger and Amnon Aharony and Jens Feder and Torstein J{\o}ssang",

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T1 - Viscous fingering on percolation clusters

AU - Oxaal, Unni

AU - Murat, Michael

AU - Boger, Finn

AU - Aharony, Amnon

AU - Feder, Jens

AU - Jøssang, Torstein

PY - 1987/1/1

Y1 - 1987/1/1

N2 - The displacement of a high-viscosity fluid by a low-viscosity fluid leads to fractal viscous fingering in homogeneous porous media. A study of the viscous fingering at high and low displacement rates in percolating models that are inhomogeneous on all length scales makes it possible to construct different theoretical models for these two rates. Applying these two models to computer simulations on exactly the same geometry as in the experiments suggests that the underlying geometry determines the viscous fingering structure almost entirely.

AB - The displacement of a high-viscosity fluid by a low-viscosity fluid leads to fractal viscous fingering in homogeneous porous media. A study of the viscous fingering at high and low displacement rates in percolating models that are inhomogeneous on all length scales makes it possible to construct different theoretical models for these two rates. Applying these two models to computer simulations on exactly the same geometry as in the experiments suggests that the underlying geometry determines the viscous fingering structure almost entirely.

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ER -

Viscous fingering on percolation clusters

Abstract

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