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The effect of non-uniform microscale distribution of sorption sites on solute diffusion in soil

The effect of non-uniform microscale distribution of sorption sites on solute diffusion in soil
The effect of non-uniform microscale distribution of sorption sites on solute diffusion in soil
Conventional models of solute transport in soil consider only soil volumes large enough to average over microscale heterogeneities, and it is assumed that microscale variations are unimportant at the macroscale. In this research we test this assumption for cases in which the microscale distribution of solute‐sorbing sites is patchy. We obtain a set of equations at the macroscale that allow for the effect of the microscale distribution with the mathematical technique of homogenization. We combine these equations with an image‐based model that describes the true microscale pore geometry in a real, structured soil measured with X‐ray computed tomography. The resulting models are used to test the microscale averaging assumptions inherent in conventional models. We show that, in general, macroscale diffusion is little affected by microscale variation in the distribution of sorption sites. Therefore, for most purposes the assumption of microscale averaging used in conventional models is justified. The effects of microscale heterogeneity are noticeable only when (i) the rate of sorption is slow compared with diffusion, but still fast enough to affect macroscale transport and (ii) the defined macroscale volume approaches the microscale. We discuss the effects when these conditions are met.
1351-0754
514-522
Masum, S.A.
5e159273-31b4-4033-a4df-fa551f108a25
Kirk, G.J.D
704baefe-65a4-4d64-970c-0ea8e271a97f
Daly, K.R.
e28b1acf-cdde-4b52-8d83-cf314d7c3466
Roose, T.
3581ab5b-71e1-4897-8d88-59f13f3bccfe
Masum, S.A.
5e159273-31b4-4033-a4df-fa551f108a25
Kirk, G.J.D
704baefe-65a4-4d64-970c-0ea8e271a97f
Daly, K.R.
e28b1acf-cdde-4b52-8d83-cf314d7c3466
Roose, T.
3581ab5b-71e1-4897-8d88-59f13f3bccfe

Masum, S.A., Kirk, G.J.D, Daly, K.R. and Roose, T. (2016) The effect of non-uniform microscale distribution of sorption sites on solute diffusion in soil. European Journal of Soil Science, 67 (4), 514-522. (doi:10.1111/ejss.12353).

Record type: Article

Abstract

Conventional models of solute transport in soil consider only soil volumes large enough to average over microscale heterogeneities, and it is assumed that microscale variations are unimportant at the macroscale. In this research we test this assumption for cases in which the microscale distribution of solute‐sorbing sites is patchy. We obtain a set of equations at the macroscale that allow for the effect of the microscale distribution with the mathematical technique of homogenization. We combine these equations with an image‐based model that describes the true microscale pore geometry in a real, structured soil measured with X‐ray computed tomography. The resulting models are used to test the microscale averaging assumptions inherent in conventional models. We show that, in general, macroscale diffusion is little affected by microscale variation in the distribution of sorption sites. Therefore, for most purposes the assumption of microscale averaging used in conventional models is justified. The effects of microscale heterogeneity are noticeable only when (i) the rate of sorption is slow compared with diffusion, but still fast enough to affect macroscale transport and (ii) the defined macroscale volume approaches the microscale. We discuss the effects when these conditions are met.

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More information

Accepted/In Press date: 30 March 2016
e-pub ahead of print date: 23 June 2016
Published date: July 2016
Organisations: Bioengineering Group

Identifiers

Local EPrints ID: 393525
URI: http://eprints.soton.ac.uk/id/eprint/393525
DOI: doi:10.1111/ejss.12353
ISSN: 1351-0754
PURE UUID: e5461833-150b-4e54-beac-11aad2ef5ad2
ORCID for T. Roose: ORCID iD orcid.org/0000-0001-8710-1063

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Date deposited: 28 Apr 2016 11:49
Last modified: 15 Mar 2024 05:32

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Contributors

Author: S.A. Masum
Author: G.J.D Kirk
Author: K.R. Daly
Author: T. Roose ORCID iD

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