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dc.contributor.authorVerwoerd, Wynand S.en
dc.contributor.editorPost, D. A.en
dc.date.accessioned2014-03-20T00:32:07Z
dc.date.issued2003-07en
dc.identifier.citationVerwoerd, W.S. (2003). Scale-dependent dispersivity: a velocity fluctuation. In Post, D. A. (ed) MODSIM 2003 International Congress on Modelling and Simulation: Integrative Modelling of Biophysical, Social, and Economic Systems for Resource Management Solutions. Modelling and Simulation Society of Australia and New Zealand, July 2003.en
dc.identifier.urihttps://hdl.handle.net/10182/5931
dc.description.abstractIn the previous paper, it was shown that the cumulative effect of multiple one-dimensional velocity fluctuations can explain qualitative features of the observed scale dependent dispersivity in natural aquifers, but not the magnitude of the effect. It is plausible that in real systems the enhancement of dispersion caused by a single fluctuation may be larger than that derived for the 1-dimensional stepped fluctuation, because for example there are additional enhancement mechanisms in 2- and 3-dimensional systems. However this paper shows that to achieve the observed magnitude, it is not enough to increase the size of enhancement factor but in addition the rate at which the effect of a single fluctuation changes with fluctuation length and with position along the fluctuation sequence need to be modified. Several variations are explored. Simple assumptions are shown to lead to dispersivity formulas in terms of purely algebraic power laws, while more elaborate assumptions yield expressions that are still analytic but contain non-elementary functions. In either case it is possible to find the required variation of the dispersivity over 3 or more orders of magnitude and with curve shapes that are consistent with historical observations Moreover, this is achieved with plausible parameter values, leading for example to the conjecture that in the observed systems the porous medium could not have been homogeneous on a scale of more than centimeters. The model presented is schematic in the sense that it contains some detail assumptions not derived from first principles, but is believed to capture the essentials of the mechanism that causes scale dependent dispersivity. It sets some boundaries for viable detail models, but within those boundaries the final predictions are not very sensitive to the detail assumptions. A key merit of the treatment is that it identifies crucial variables that need to be measured or controlled in experimental studies.en
dc.format.extent278-283 (6)en
dc.language.isoenen
dc.publisherModelling and Simulation Society of Australia and New Zealanden
dc.relationThe original publication is available from - Modelling and Simulation Society of Australia and New Zealand - http://www.mssanz.org.au/MODSIM03/MODSIM03.htmen
dc.rights© 2003 Modelling & Simulation Society of Australia & New Zealand Incen
dc.sourceMODSIM 2003 International Congress on Modelling and Simulation: Integrative Modelling of Biophysical, Social, and Economic Systems for Resource Management Solutionsen
dc.subjectporous mediumen
dc.subjectsolute transporten
dc.subjectdispersivityen
dc.subjectscale-dependenten
dc.titleScale-dependent dispersivity: a velocity fluctuation modelen
dc.typeConference Contribution - Published
lu.contributor.unitLincoln Universityen
lu.contributor.unitFaculty of Agriculture and Life Sciencesen
lu.contributor.unitDepartment of Wine, Food and Molecular Biosciencesen
dc.subject.anzsrc040608 Surfacewater Hydrologyen
dc.subject.anzsrc010406 Stochastic Analysis and Modellingen
dc.relation.isPartOfMODSIM 2003 Proceedingsen
pubs.finish-date2003-07-17en
pubs.organisational-group/LU
pubs.organisational-group/LU/Agriculture and Life Sciences
pubs.organisational-group/LU/Agriculture and Life Sciences/WFMB
pubs.publication-statusPublisheden
pubs.publisher-urlhttp://www.mssanz.org.au/MODSIM03/MODSIM03.htmen
pubs.start-date2003-07-14en
lu.subtypeConference Paperen


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