Layer | Fill | Outline |
---|
Map layers
Theme | Visible | Selectable | Appearance | Zoom Range (now: 0) |
---|
Fill | Stroke |
---|---|
Collaborating Authors
Results
Therefore, we conducted model studies for planning field delineate the major geological boundary member of the high-resolution inter-well seismic experiments to map the Twin Creek reservoir. The petrophysical analysis provides fracture zones in the Twin Creek at Lodgepole field (Parra, the rock physical properties and thickness of the Leeds et al., 1997).
- North America > United States > Utah > Summit County (0.36)
- North America > United States > Texas > Dawson County (0.27)
- Geology > Rock Type > Sedimentary Rock (0.72)
- Geology > Structural Geology > Tectonics > Compressional Tectonics > Fold and Thrust Belt (0.65)
- North America > United States > Utah > Lodgepole Field (0.99)
- North America > United States > Utah > Pineview Field (0.89)
- North America > United States > Utah > Elkhorn Ridge Field (0.89)
- North America > Canada > Alberta > Rich Field > 1885712 Ab Rich 8-13-35-21 Well (0.89)
Full-wave Synthetic Borehole Logging For Formations With Azimuthal Anisotropy
Xu, Pei-cheng (Datatrends Research) | Parra, Jorge O. (Southwest Research Institute)
SUMMARY A boundary element equation (BIE) based technique is proposed to simulate borehole logging in formations with weak or strong azimuthal anisotropy. This three dimensional problem is reduced to two dimensional through the use of an integral transform. Green's functions in far field are obtained asymptotically. Oscillatory integrals are evaluated by an advanced quadrature scheme. These steps enable an efficient simulation of full wave form borehole logging.