On a recent solute transport laboratory experiment involving sandstone and its modeling

Timothy R. Ginn; Mohamed K. Nassar; Tamir Kamai; Katherine Klise; Vince Tidwell; Sean McKenna

doi:10.1002/2013WR013729

On a recent solute transport laboratory experiment involving sandstone and its modeling

Timothy R. Ginn, Mohamed K. Nassar, Tamir Kamai, Katherine Klise, Vince Tidwell, Sean McKenna

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

4 Scopus citations

Abstract

We analyze and simulate laboratory data on flow and solute transport in a submeter scale sample of Massillon sandstone and we re-evaluate studies that have stated that these data indicate a failure of the advection-dispersion, and that nonlocal modeling approaches are necessary. Our examination reveals experimental issues including artificial edge effects in the data, as well as inconsistency in the measured solute injection rates. When the edge effects are removed the data no longer exhibit power-law tailing. Our simulations show that failure of the advection-dispersion equation has not been demonstrated and that nonlocal approaches are not necessary.

Original language	English
Pages (from-to)	7327-7338
Number of pages	12
Journal	Water Resources Research
Volume	49
Issue number	11
DOIs	https://doi.org/10.1002/2013WR013729
State	Published - 1 Nov 2013
Externally published	Yes

Keywords

anomalous dispersion
modeling
solute transport

ASJC Scopus subject areas

Water Science and Technology

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10.1002/2013WR013729

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title = "On a recent solute transport laboratory experiment involving sandstone and its modeling",

abstract = "We analyze and simulate laboratory data on flow and solute transport in a submeter scale sample of Massillon sandstone and we re-evaluate studies that have stated that these data indicate a failure of the advection-dispersion, and that nonlocal modeling approaches are necessary. Our examination reveals experimental issues including artificial edge effects in the data, as well as inconsistency in the measured solute injection rates. When the edge effects are removed the data no longer exhibit power-law tailing. Our simulations show that failure of the advection-dispersion equation has not been demonstrated and that nonlocal approaches are not necessary.",

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AU - Ginn, Timothy R.

AU - Nassar, Mohamed K.

AU - Kamai, Tamir

AU - Klise, Katherine

AU - Tidwell, Vince

AU - McKenna, Sean

PY - 2013/11/1

Y1 - 2013/11/1

N2 - We analyze and simulate laboratory data on flow and solute transport in a submeter scale sample of Massillon sandstone and we re-evaluate studies that have stated that these data indicate a failure of the advection-dispersion, and that nonlocal modeling approaches are necessary. Our examination reveals experimental issues including artificial edge effects in the data, as well as inconsistency in the measured solute injection rates. When the edge effects are removed the data no longer exhibit power-law tailing. Our simulations show that failure of the advection-dispersion equation has not been demonstrated and that nonlocal approaches are not necessary.

AB - We analyze and simulate laboratory data on flow and solute transport in a submeter scale sample of Massillon sandstone and we re-evaluate studies that have stated that these data indicate a failure of the advection-dispersion, and that nonlocal modeling approaches are necessary. Our examination reveals experimental issues including artificial edge effects in the data, as well as inconsistency in the measured solute injection rates. When the edge effects are removed the data no longer exhibit power-law tailing. Our simulations show that failure of the advection-dispersion equation has not been demonstrated and that nonlocal approaches are not necessary.

KW - anomalous dispersion

KW - modeling

KW - solute transport

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ER -

On a recent solute transport laboratory experiment involving sandstone and its modeling

Abstract

Keywords

ASJC Scopus subject areas

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