Mechanisms for the onset of convective instability in foams

B. Embley; P. Grassia

doi:10.1080/09500830600838276

Mechanisms for the onset of convective instability in foams

B. Embley, P. Grassia

Chemical And Process Engineering

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

We introduce new mechanisms for the onset of convective motion in loaded 3D foams. This is done by balancing gravity and capillarity along a liquid-filled channel for a microstructural model of foam drainage; the weight of this non-uniform-area channel is then used to predict the onset of instability. The predictions of these models are not very different from the gravitational model, although they do allow for the concept of localized deformation and shearing of a foam. Comparison is made to existing experimental data by incorporating the dependence of yield stress on liquid fraction, which is found to have a large effect on onset.

Original language	English
Pages (from-to)	385-394
Number of pages	10
Journal	Philosophical Magazine Letters
Volume	86
Issue number	6
DOIs	https://doi.org/10.1080/09500830600838276
Publication status	Published - 1 Jun 2006

Keywords

capillarity
gravitation
microstructure
motion estimation
yield stress

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10.1080/09500830600838276

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abstract = "We introduce new mechanisms for the onset of convective motion in loaded 3D foams. This is done by balancing gravity and capillarity along a liquid-filled channel for a microstructural model of foam drainage; the weight of this non-uniform-area channel is then used to predict the onset of instability. The predictions of these models are not very different from the gravitational model, although they do allow for the concept of localized deformation and shearing of a foam. Comparison is made to existing experimental data by incorporating the dependence of yield stress on liquid fraction, which is found to have a large effect on onset.",

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AU - Grassia, P.

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AB - We introduce new mechanisms for the onset of convective motion in loaded 3D foams. This is done by balancing gravity and capillarity along a liquid-filled channel for a microstructural model of foam drainage; the weight of this non-uniform-area channel is then used to predict the onset of instability. The predictions of these models are not very different from the gravitational model, although they do allow for the concept of localized deformation and shearing of a foam. Comparison is made to existing experimental data by incorporating the dependence of yield stress on liquid fraction, which is found to have a large effect on onset.

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KW - gravitation

KW - microstructure

KW - motion estimation

KW - yield stress

UR - http://www.tandfonline.com/loi/tphl

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SP - 385

EP - 394

JO - Philosophical Magazine Letters

JF - Philosophical Magazine Letters

SN - 0950-0839

IS - 6

ER -

Mechanisms for the onset of convective instability in foams

Abstract

Keywords

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