The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based Materials

The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based Materials

In order to investigate in more detail the relation between the size of diffusing molecules and their diffusion coefficients (and geometric factors), diffusion experiments with gases of different size and tritiated water (HTO) have been performed on different clayey samples (Boom Clay, Eigenbilzen S...

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Main Authors: Elke Jacops, Marc Aertsens, Norbert Maes, Christophe Bruggeman, Rudy Swennen, Bernd Krooss, Alexandra Amann-Hildenbrand, Ralf Littke
Format: Article
Language:English
Published: Hindawi-Wiley 2017-01-01
Series:Geofluids
Online Access:http://dx.doi.org/10.1155/2017/8652560
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spelling doaj-b492523eecf64598829fd6ce8e0b70fb2020-11-25T01:49:05ZengHindawi-WileyGeofluids1468-81151468-81232017-01-01201710.1155/2017/86525608652560The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based MaterialsElke Jacops0Marc Aertsens1Norbert Maes2Christophe Bruggeman3Rudy Swennen4Bernd Krooss5Alexandra Amann-Hildenbrand6Ralf Littke7Belgian Nuclear Research Centre (SCK•CEN), Mol, BelgiumBelgian Nuclear Research Centre (SCK•CEN), Mol, BelgiumBelgian Nuclear Research Centre (SCK•CEN), Mol, BelgiumBelgian Nuclear Research Centre (SCK•CEN), Mol, BelgiumKU Leuven, Heverlee, BelgiumRWTH Aachen University, Aachen, GermanyRWTH Aachen University, Aachen, GermanyRWTH Aachen University, Aachen, GermanyIn order to investigate in more detail the relation between the size of diffusing molecules and their diffusion coefficients (and geometric factors), diffusion experiments with gases of different size and tritiated water (HTO) have been performed on different clayey samples (Boom Clay, Eigenbilzen Sands, Opalinus Clay, Callovo-Oxfordian Clay, and bentonite with different dry densities). We observed that, for unreactive gases in clayey materials, the effective diffusion coefficient varies with the size of the diffusing molecule and this variation can be described by an exponential or a power law function. The variation of the geometric factor can also be described by an exponential function. The observed experimental relations can be used to estimate diffusion coefficients; by measuring experimentally in clay the effective diffusion coefficient of two unreactive dissolved gases with a different size, the diffusion coefficients of other dissolved gases (with a size in between the two measured gases) can be estimated by using the fitted exponential relationship.http://dx.doi.org/10.1155/2017/8652560
collection DOAJ
language English
format Article
sources DOAJ
author Elke Jacops
Marc Aertsens
Norbert Maes
Christophe Bruggeman
Rudy Swennen
Bernd Krooss
Alexandra Amann-Hildenbrand
Ralf Littke
spellingShingle Elke Jacops
Marc Aertsens
Norbert Maes
Christophe Bruggeman
Rudy Swennen
Bernd Krooss
Alexandra Amann-Hildenbrand
Ralf Littke
The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based Materials
Geofluids
author_facet Elke Jacops
Marc Aertsens
Norbert Maes
Christophe Bruggeman
Rudy Swennen
Bernd Krooss
Alexandra Amann-Hildenbrand
Ralf Littke
author_sort Elke Jacops
title The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based Materials
title_short The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based Materials
title_full The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based Materials
title_fullStr The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based Materials
title_full_unstemmed The Dependency of Diffusion Coefficients and Geometric Factor on the Size of the Diffusing Molecule: Observations for Different Clay-Based Materials
title_sort dependency of diffusion coefficients and geometric factor on the size of the diffusing molecule: observations for different clay-based materials
publisher Hindawi-Wiley
series Geofluids
issn 1468-8115
1468-8123
publishDate 2017-01-01
description In order to investigate in more detail the relation between the size of diffusing molecules and their diffusion coefficients (and geometric factors), diffusion experiments with gases of different size and tritiated water (HTO) have been performed on different clayey samples (Boom Clay, Eigenbilzen Sands, Opalinus Clay, Callovo-Oxfordian Clay, and bentonite with different dry densities). We observed that, for unreactive gases in clayey materials, the effective diffusion coefficient varies with the size of the diffusing molecule and this variation can be described by an exponential or a power law function. The variation of the geometric factor can also be described by an exponential function. The observed experimental relations can be used to estimate diffusion coefficients; by measuring experimentally in clay the effective diffusion coefficient of two unreactive dissolved gases with a different size, the diffusion coefficients of other dissolved gases (with a size in between the two measured gases) can be estimated by using the fitted exponential relationship.
url http://dx.doi.org/10.1155/2017/8652560
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