Scale up of two-dimensional conductivity tensor for heterogeneous fracture networks
Scale up of two-dimensional conductivity tensor for heterogeneous fracture networks
An approach is developed to scale up the two-dimensional conductivity tensor for highly heterogenous fracture networks, based on a numerical modelling approach that was proposed previously by Zhang et al., J. Rock Mech. Min. Sci. 33, 17–37 (1996). In that approach, it was assumed that the fractured rock mass was statistically uniform and only a unit square of sample rock was needed to work out the conductivity tensor. Hence, its application was limited where the heterogenous characteristics of a fracture network was not negligible. In the present paper, the local conductivity tensors, both magnitude and direction, either calculated based on small fracture networks or samples measured on separate exposures are scaled up to estimate the overall nature of conductivity for a relatively large region.
The approach developed is used to estimate the two-dimensional conductivity tensor of naturally fractured rock masses for two types of fracture networks, constant aperture and variable aperture under stress. The effects of sample number and sample size of local sub-areas were examined against the totally sampled area. Finally, field data were used to predict the overall conductivity tensor of a large region, based on four fracture networks sampled on separate exposures within the region.
conductivity, fracture network, heterogeneity, numerical modelling, scaling up
83-99
Zhang, Xing
e92abcc2-6163-40b0-9b53-0a61bdf864d7
Sanderson, David J.
5653bc11-b905-4985-8c16-c655b2170ba9
May 1999
Zhang, Xing
e92abcc2-6163-40b0-9b53-0a61bdf864d7
Sanderson, David J.
5653bc11-b905-4985-8c16-c655b2170ba9
Zhang, Xing and Sanderson, David J.
(1999)
Scale up of two-dimensional conductivity tensor for heterogeneous fracture networks.
Engineering Geology, 53 (1), .
(doi:10.1016/S0013-7952(98)00082-9).
Abstract
An approach is developed to scale up the two-dimensional conductivity tensor for highly heterogenous fracture networks, based on a numerical modelling approach that was proposed previously by Zhang et al., J. Rock Mech. Min. Sci. 33, 17–37 (1996). In that approach, it was assumed that the fractured rock mass was statistically uniform and only a unit square of sample rock was needed to work out the conductivity tensor. Hence, its application was limited where the heterogenous characteristics of a fracture network was not negligible. In the present paper, the local conductivity tensors, both magnitude and direction, either calculated based on small fracture networks or samples measured on separate exposures are scaled up to estimate the overall nature of conductivity for a relatively large region.
The approach developed is used to estimate the two-dimensional conductivity tensor of naturally fractured rock masses for two types of fracture networks, constant aperture and variable aperture under stress. The effects of sample number and sample size of local sub-areas were examined against the totally sampled area. Finally, field data were used to predict the overall conductivity tensor of a large region, based on four fracture networks sampled on separate exposures within the region.
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Published date: May 1999
Keywords:
conductivity, fracture network, heterogeneity, numerical modelling, scaling up
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Local EPrints ID: 75110
URI: http://eprints.soton.ac.uk/id/eprint/75110
ISSN: 0013-7952
PURE UUID: 02a31ef8-100f-4d7e-bd76-78fd837375a0
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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 02:53
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Author:
Xing Zhang
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