2018
DOI: 10.1093/gji/ggy537
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Comparison of REV size and tensor characteristics for the electrical and hydraulic conductivities in fractured rock

Abstract: The representative elementary volume (REV) is a critically important concept in fractured rock investigations as it tells us at what scale the fractured domain can be represented by an anisotropic tensor as opposed to requiring the details of each individual fracture for modelling purposes. Whereas the REV size and corresponding tensor characteristics for the hydraulic conductivity (K) in fractured rock have been the subject of numerous previous investigations, no studies to date have focused on the electrical… Show more

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Cited by 15 publications
(4 citation statements)
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“…Few geophysical techniques can provide non‐invasive means to study the water flow in fractured media but they are mostly still under development. These techniques include the analysis of seismic attenuation produced by wave‐induced fluid flow and associated seismoelectrical signals (e.g., Jougnot et al., 2013; Rosas‐Carbajal et al., 2020; Rubino et al., 2013), ground penetrating radar (e.g., Shakas et al., 2018), electrical resistivity tomography (e.g., Demirel et al., 2018; Roubinet & Irving, 2014), and the self‐potential method (e.g., Jougnot et al., 2020; Roubinet et al., 2016).…”
Section: Introductionmentioning
confidence: 99%
“…Few geophysical techniques can provide non‐invasive means to study the water flow in fractured media but they are mostly still under development. These techniques include the analysis of seismic attenuation produced by wave‐induced fluid flow and associated seismoelectrical signals (e.g., Jougnot et al., 2013; Rosas‐Carbajal et al., 2020; Rubino et al., 2013), ground penetrating radar (e.g., Shakas et al., 2018), electrical resistivity tomography (e.g., Demirel et al., 2018; Roubinet & Irving, 2014), and the self‐potential method (e.g., Jougnot et al., 2020; Roubinet et al., 2016).…”
Section: Introductionmentioning
confidence: 99%
“…This inadequacy is primarily due to the unique geo-structural characteristics of marine clay sediments. Moreover, a significant limitation of most existing approaches is their failure to account for the effects of cyclic loading and unloading of confinement pressure [32][33][34][35]. Field tests pose challenges for quantifying the permeability anisotropy of marine clay sediments containing cracks, let alone determining their stress-dependent permeability tensors.…”
Section: Engineering Applicationmentioning
confidence: 99%
“…The total length of fractures is related to the shape of the seepage channel. Demirel et al (2018) used the numerical simulation to study the influence of changes of fracture-network on the characteristics of the REV and permeability tensor. Wang et al (2018) used a radial seepage device and unidirectional seepage device to estimate the representative elementary volume (REV) of fractured rock mass.…”
Section: Introductionmentioning
confidence: 99%