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AAPG Bulletin

Abstract

(Begin page 1183)

AAPG Bulletin, V. 85, No. 7 (July 2001), P. 1183-1210.

Copyright ©2001. The American Association of Petroleum Geologists. All rights reserved.

Integrating 3-D seismic data, field analogs, and mechanical models in the analysis of segmented normal faults in the Wytch Farm oil field, southern England, United Kingdom

Simon A. Kattenhorn, David D. Pollard

1Department of Geological Sciences, University of Idaho, Moscow, Idaho, 83844-3022; email: [email protected]
2Rock Fracture Project, Department of Geological and Environmental Sciences, Stanford University, Stanford, California, 94305; email: [email protected]

AUTHORS

Simon A. Kattenhorn received B.Sc. and M.Sc. degrees in geology from the University of Natal-Durban, South Africa, an M.S. degree in geology from the University of Akron, and a Ph.D. in geological and environmental sciences from Stanford University. He is currently an assistant professor of geological sciences at the University of Idaho. His research interests include applying principles of rock and fracture mechanics to fracture development, Previous HitfaultNext Hit evolution, earthquakes, and planetary tectonics, using field mapping, numerical modeling, seismic reflection data, and seismological data.

David D. Pollard received a B.A. degree from Pomona College, a Ph.D. from Stanford University, and a D.I.C. from Imperial College, all in geology. He is a professor in the Department of Geological and Environmental Sciences at Stanford and is codirector of the Rock Fracture Project, an industrial affiliates program. His research interests focus on understanding rock fracturing and faulting using applications to fluid flow in heterogeneous reservoirs using outcrop and subsurface data, laboratory experiments, and numerical modeling.

ACKNOWLEDGMENTS

Three-dimensional seismic reflection data for this study were provided by BP Exploration Operating Company Limited and the Wytch Farm partnership companies: Arco British Ltd., Premier Oil Plc., ONEPM Ltd., Talisman North Sea Ltd., and Kerr-McGee Oil (UK) Plc. Previous HitInterpretationNext Hit software was provided to Stanford University and the University of Idaho by Schlumberger GeoQuest. Previous HitFaultNext Hit rendering used FAPS software provided by Badley Earth Sciences Ltd. Thanks to Richard Fox at BP for field assistance in southern England and to Giles Watts at BP for detailed information about Wytch Farm oil field. We thank Scott Young, Laurent Maerten, and Bashir Koledoye for technical support. Funding for this project was provided by BP Exploration Operating Company Limited and the Rock Fracture Project at Stanford University. Simon Kattenhorn acknowledges a McGee Grant Award from the School of Earth Sciences at Stanford University. We are grateful to Bruce Trudgill, Nancye Dawers, and Barry McBride for their constructive reviews of the manuscript.

ABSTRACT

We propose a methodology for the analysis of normal Previous HitfaultNext Hit geometries in three-dimensional (3-D) seismic data sets to provide insights into the evolution of segmented normal Previous HitfaultNext Hit systems and to improve recovery efforts in Previous HitfaultNext Hit-controlled oil fields. Limited seismic resolution can obscure subtle Previous HitfaultNext Hit characteristics such as segmentation and gaps in Previous HitfaultNext Hit continuity that are significant for oil migration and thus accurate reservoir characterization. Detailed seismic data analyses that incorporate principles of normal Previous HitfaultNext Hit mechanics, however, can reveal evidence of Previous HitfaultNext Hit segmentation. We integrate seismic attribute analyses, outcrop analog observations, and numerical models of Previous HitfaultNext Hit slip and displacement fields to augment the use of 3-D seismic data for Previous HitfaultNext Hit Previous HitinterpretationNext Hit. We applied these techniques to the Wytch Farm oil field in southern England, resulting in the recognition of significant lateral and, to a lesser extent, vertical segmentation of reservoir-scale faults. Slip maxima on Previous HitfaultNext Hit surfaces indicate two unambiguous segment nucleation depths, controlled by the lithological heterogeneity of the faulted section. Faults initiated preferentially in brittle sandstone and limestone units. Subsequent growth and linkage of segments, predominantly in the lateral direction, resulted in composite Previous HitfaultNext Hit surfaces that have long lateral dimensions and multiple slip maxima. Reservoir compartmentalization is greatest at the level of prevalent segment linkages, which corresponds at Wytch Farm with the predominant hydrocarbon-producing unit, the Sherwood Sandstone. At relatively shallower depths, Previous HitfaultTop segments are younger and less evolved, resulting in a greater degree of segmentation with intact relay zones.

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