Regional evaluation of hydraulic properties in variably fractured rock using a hydrostructural domain approach
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| Authors: | Surrette, M; Allen, DM; Journeay, M |
| Year: | 2008 |
| Journal: | Hydrogeol. J. 16: 11-30 Article Link (DOI) |
| Title: | Regional evaluation of hydraulic properties in variably fractured rock using a hydrostructural domain approach |
| Abstract: | A hydrostructural domain approach was tested and validated in fractured bedrock aquifers of the Gulf Islands, British Columbia (BC), Canada. Relative potential hydraulic properties for three hydrostructural domains in folded and faulted sedimentary rocks were derived using stochastically generated fracture data and hybrid discrete fracture network-equivalent porous media (DFN-EPM) modelling. Model-derived relative potential transmissivity values show good spatial agreement with transmissivity values obtained from pumping tests at selected sites. A spatial pattern of increasing transmissivity towards the southeast along the island chain is consistent between both datasets. Cluster analysis on relative potential permeability values obtained from a larger dataset for the region identified four clusters with geometric means of 9 x 10(-13), 4 x 10(-13), 2 x 10(-13), and 3 x 10(-14) m(2). The general trend is an increase in relative potential permeability toward the southeast, emulating the trends identified in the site-specific analyses. Relative potential permeability values increase with proximity to the hinge line of a regional northwest-trending asymmetric fault propagation fold structure, and with proximity to superimposed high-angle north- and northeast-trending brittle faults. The results are consistent with documented patterns of structurally controlled fluid flow and show promise for use in regional characterization of fractured bedrock aquifers. |
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