--> Abstract: The Use of Terrestrial Laser Scanning in Quantifying Fault and Fracture Attributes in Reservoir Outcrop Analogues, by R. H. Wightman, J. Imber, R. R. Jones, K. J. McCaffrey, R. E. Holdsworth, and N. S. Holliman; #90078 (2008)
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The Use of Terrestrial Laser Scanning in Quantifying Fault and Fracture Previous HitAttributesNext Hit in Reservoir Outcrop Analogues

Ruth H. Wightman1, Jonathan Imber1, Richard R. Jones2, Kenneth J. McCaffrey1, Robert E. Holdsworth1, and Nicolas S. Holliman3
1Earth Sciences, University of Durham, Durham, United Kingdom
2Geospatial Research Limited, Durham, United Kingdom
3e-Science Research Institute, University of Durham, Durham, United Kingdom

Fluid flow in hydrocarbon reservoirs is influenced by the geometry, spatial distribution and hydraulic properties of faults and fractures. The resolution of Previous HitseismicNext Hit reflection data is such that whilst major faults (throws > 20 m) can be mapped in three dimensions, there is little information on the 3D geometries of small-scale (“sub-Previous HitseismicNext Hit”) faults. The Fractured Reservoirs 3D Digital Atlas (FR3DA) project has begun to address this issue by using new terrestrial laser-scanning and digital surveying techniques to construct geospatially referenced 3D structural models from rock outcrops containing sub-Previous HitseismicNext Hit fault and fracture networks in a range of tectonic and sedimentological environments. FR3DA datasets include: deformation bands in porous sandstones adjacent to Previous HitseismicNext Hit-scale normal and thrust faults; slip surface and damage zone architecture in carbonates and siliciclastics; fault zone geometry and fault rock distribution within siliciclastic coal measure sequences; sub-Previous HitseismicNext Hit normal faults and relays in sandstone-shale interbeds; and fracture density and distribution within folded carbonates. Fault and fracture Previous HitattributesNext Hit such as spatial distribution, density and connectivity have been derived from each structural model to allow comparison of fault zones architectures and fracture Previous HitattributesNext Hit between the different reservoir analogues. These Previous HitattributesNext Hit provide a unique quantitative geospatial characterisation of sub-Previous HitseismicTop scale structures in a range of tectonic and sedimentological settings.

 

AAPG Search and Discover Article #90078©2008 AAPG Annual Convention, San Antonio, Texas