2015
DOI: 10.1016/j.apgeochem.2015.04.002
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A modified version of Archie’s law to estimate effective diffusion coefficients of radionuclides in argillaceous rocks and its application in safety analysis studies

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Cited by 66 publications
(32 citation statements)
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“…This leads to Deff=ϕeDitalicaqτ According to Archie's law (Archie, ) Deff=Daqϕem where m [−] is the cementation factor. The applicability of Archie's law to model diffusion has been described in Van Loon and Mibus (). Comparison of and leads to a relationship between tortuosity and porosity: τ=ϕe1m The porosity follows from the scaling relationship between pore size and the grain volume fractal dimension as (Katz & Thompson, ): ϕe=l1l23Dv where l 1 is the lower limit of the self‐similar region, l 2 the upper limit, and D v the fractal dimension of the pore solid interface.…”
Section: Fractal Model For the Prediction Of Effective Diffusion Coefmentioning
confidence: 99%
See 1 more Smart Citation
“…This leads to Deff=ϕeDitalicaqτ According to Archie's law (Archie, ) Deff=Daqϕem where m [−] is the cementation factor. The applicability of Archie's law to model diffusion has been described in Van Loon and Mibus (). Comparison of and leads to a relationship between tortuosity and porosity: τ=ϕe1m The porosity follows from the scaling relationship between pore size and the grain volume fractal dimension as (Katz & Thompson, ): ϕe=l1l23Dv where l 1 is the lower limit of the self‐similar region, l 2 the upper limit, and D v the fractal dimension of the pore solid interface.…”
Section: Fractal Model For the Prediction Of Effective Diffusion Coefmentioning
confidence: 99%
“…where m [À] is the cementation factor. The applicability of Archie's law to model diffusion has been described in Van Loon and Mibus (2015). Comparison of (8) and (9) leads to a relationship between tortuosity and porosity:…”
Section: Fractal Model For the Prediction Of Effective Diffusion Coefmentioning
confidence: 99%
“…5 Dissolved CH 4 , C 2 H 6 , and C 3 H 8 concentrations measured in BPC-C1 seepage water; logarithm scale; analytical uncertainty is included within the symbol size; water pressure of the test interval measured in the drift at a vertical distance of 9.6 and 12.9 m from the bottom and from the top of the test interval, respectively; the water pressure into the test interval is 1.0 to 1.3 bar lower than the measured one Fig. 6 d 13 C of CH 4 and C 2 H 6 measured in the gas circulating in BHT-1 and in BPC-C1 seepage water; analytical uncertainty is included within the symbol size diffusion coefficient D e of each dissolved gas is related to its diffusion coefficient D w in pure water by D e = eD w /G with e the porosity and G the geometric factor (see for example Van Loon and Mibus 2015). The porosity value is 0.16.…”
Section: Model Descriptionmentioning
confidence: 99%
“…Diffusion coefficients for Opalinus Clay were measured in the laboratory using 0.8-2 cm thick discs of rock, taking into account the effect of confining pressure, sample depth, sample orientation and temperature (Van Loon et al 2003;Van Loon 2014;Van Loon and Mibus 2015). Data are available for HTO (tritiated water = mainly ordinary H2O plus 3 HOH in trace amounts), 36 Cl -, 125 I -, 22 Na + , 85 Sr 2+ and 134 Cs + and relate mostly to transport perpendicular to bedding, with some information on transport parallel to bedding.…”
Section: Diffusion Properties Laboratory and Field Experimentsmentioning
confidence: 99%