Pore Size Distribution Controls Dynamic Permeability

Pore Size Distribution Controls Dynamic Permeability

Probing the flow permeability of porous media with elastic waves is a formidable challenge, also because the wave-induced oscillatory motion renders the permeability frequency dependent. Existing theoretical models for such a dynamic permeability assume that the frequency dependence is primarily con...

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Bibliographic Details
Main Authors: Li, Jimmy X., Rezaee, Reza, Müller, T.M., Sarmadivaleh, Mohammad
Format: Journal Article
Language:English
Published: AMER GEOPHYSICAL UNION 2021
Subjects:
Science & Technology
Physical Sciences
Geosciences, Multidisciplinary
Geology
dispersion and attenuation
dynamic permeability
nuclear magnetic resonance
pore size distribution
ultrasound
wave
wettability
WAVE-PROPAGATION
POROUS-MEDIA
ELASTIC WAVES
NUCLEAR-WASTE
FLOW
DISPERSION
ROUGHNESS
CURVES
Online Access:http://hdl.handle.net/20.500.11937/89541
Description
Summary:Probing the flow permeability of porous media with elastic waves is a formidable challenge, also because the wave-induced oscillatory motion renders the permeability frequency dependent. Existing theoretical models for such a dynamic permeability assume that the frequency dependence is primarily controlled by a single characteristic length scale of the pore space. However, the fact that in most natural porous media there exists a distinct range of pore sizes is ignored. To overcome this limitation, we develop a dynamic permeability model that explicitly incorporates the pore size distribution. We show that the pore size distribution has a first-order effect on the dynamic permeability. Since the pore size distribution can be deduced from techniques such as nuclear magnetic resonance, our results indicate the possibility to jointly use remote-sensing technologies for improved permeability determination and cross-fertilization of laboratory and in-field techniques.

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