The reversing of interfaces in slow diffusion processes with strong absorbtion
The reversing of interfaces in slow diffusion processes with strong absorbtion
This paper considers a family of one-dimensional nonlinear diffusion equations with absorption. In particular, the solutions that have interfaces that change their direction of propagation are examined. Although this phenomenon of reversing interfaces has been seen numerically, and some special exact solutions have been obtained, there was previously no analytical insight into how this occurs in the general case. The approach taken here is to seek self-similar solutions local to the interface and local to the reversing time. The analysis is split into two parts, one for the solution prior to the reversing time and the other for the solution after the reversing time. In each case the governing PDE is reduced to an ODE by introducing a self-similar coordinate system. These ODEs do not readily admit any nontrivial exact solutions and so the asymptotic behavior of solutions is studied. By doing this the adjustable parameters, or degrees of freedom, which may be used in a numerical shooting scheme are determined. A numerical algorithm is then proposed to furnish solutions to the ODEs and hence the PDE in the limit of interest. As examples of physical problems in which a PDE of this type may be used as a model the authors study the spreading of a viscous film under gravity and subject to evaporation, the dispersion of a population, and a nonlinear heat conduction problem. The numerical algorithm is demonstrated using these examples. Results are also given on the possible existence of self-similar solutions and types of reversing behavior that can be exhibited by PDEs in the family of interest.
nonlinear diffusion, slow diffusion, strong absorption, porous medium equation, interface, reversing, self-similarity
144-162
Foster, J.M.
b93acb2c-f981-4d4b-bc01-b1bc8332facf
Please, C.P.
118dffe7-4b38-4787-a972-9feec535839e
Fitt, A.D.
51b348d7-b553-43ac-83f2-3adbea3d69ab
Richardson, Giles
3fd8e08f-e615-42bb-a1ff-3346c5847b91
2012
Foster, J.M.
b93acb2c-f981-4d4b-bc01-b1bc8332facf
Please, C.P.
118dffe7-4b38-4787-a972-9feec535839e
Fitt, A.D.
51b348d7-b553-43ac-83f2-3adbea3d69ab
Richardson, Giles
3fd8e08f-e615-42bb-a1ff-3346c5847b91
Foster, J.M., Please, C.P., Fitt, A.D. and Richardson, Giles
(2012)
The reversing of interfaces in slow diffusion processes with strong absorbtion.
SIAM Journal on Applied Mathematics, 72 (1), .
(doi:10.1137/100798089).
Abstract
This paper considers a family of one-dimensional nonlinear diffusion equations with absorption. In particular, the solutions that have interfaces that change their direction of propagation are examined. Although this phenomenon of reversing interfaces has been seen numerically, and some special exact solutions have been obtained, there was previously no analytical insight into how this occurs in the general case. The approach taken here is to seek self-similar solutions local to the interface and local to the reversing time. The analysis is split into two parts, one for the solution prior to the reversing time and the other for the solution after the reversing time. In each case the governing PDE is reduced to an ODE by introducing a self-similar coordinate system. These ODEs do not readily admit any nontrivial exact solutions and so the asymptotic behavior of solutions is studied. By doing this the adjustable parameters, or degrees of freedom, which may be used in a numerical shooting scheme are determined. A numerical algorithm is then proposed to furnish solutions to the ODEs and hence the PDE in the limit of interest. As examples of physical problems in which a PDE of this type may be used as a model the authors study the spreading of a viscous film under gravity and subject to evaporation, the dispersion of a population, and a nonlinear heat conduction problem. The numerical algorithm is demonstrated using these examples. Results are also given on the possible existence of self-similar solutions and types of reversing behavior that can be exhibited by PDEs in the family of interest.
Text
SIAM_Journal_on_Applied_Mathematics_2012_Foster.pdf
- Version of Record
More information
Accepted/In Press date: September 2011
Published date: 2012
Keywords:
nonlinear diffusion, slow diffusion, strong absorption, porous medium equation, interface, reversing, self-similarity
Organisations:
Applied Mathematics
Identifiers
Local EPrints ID: 202891
URI: http://eprints.soton.ac.uk/id/eprint/202891
ISSN: 0036-1399
PURE UUID: 5cb0693d-8a54-415d-a2d8-595d6bccd112
Catalogue record
Date deposited: 09 Nov 2011 16:52
Last modified: 15 Mar 2024 03:33
Export record
Altmetrics
Contributors
Author:
J.M. Foster
Author:
C.P. Please
Author:
A.D. Fitt
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
