Geomechanical modelling of fault reactivation in the Ceduna Sub-basin, Bight Basin, Australia-Reference-Cited by-同舟云学术

Geomechanical modelling of fault reactivation in the Ceduna Sub-basin, Bight Basin, Australia

Published:2012 Issue:1 Volume:367 Page:71-89
ISSN:0305-8719
Container-title:Geological Society, London, Special Publications
language:en
Short-container-title:Geological Society, London, Special Publications

Author:

Macdonald J.¹,Backé G.¹,King R.²,Holford S.¹,Hillis R.³

Affiliation:

1. Australian School of Petroleum, University of Adelaide, Santos Petroleum Engineering Building, Adelaide, 5005, Australia

2. School of Earth and Environmental Sciences, University of Adelaide, Mawson Laboratories, Adelaide, 5005, Australia

3. Deep Exploration Technologies Cooperative Research Centre, University of Adelaide, Mawson Laboratories, Adelaide, 5005, Australia

Abstract

AbstractThe Ceduna Sub-basin is located within the Bight Basin on the Australian southern margin. Recent structural analysis using newly acquired two-dimensional (2D) and three-dimensional (3D) seismic data demonstrates two Late Cretaceous delta–deepwater fold–thrust belts (DDWFTBs), which are overlain by Cenozoic sediments. The present-day normal fault stress regime identified in the Bight Basin indicates that the maximum horizontal stress (SHmax) is margin parallel; Andersonain faulting theory therefore suggests the delta-top extensional faults are oriented favourably for reactivation. A breached hydrocarbon trap encountered in the Jerboa-1 well demonstrates this fault reactivation. Faults interpreted from 3D seismic data were modelled using the Poly3D© geomechanical code to determine the risk of reactivation. Results indicate delta-top extensional faults that dip 40–70° are at moderate–high risk of reactivation, while variations in the orientation of the fault planes results in an increased risk of reactivation. Two pulses of inversion are identified in the Ceduna Sub-basin and correlate with the onset of rifting and fault reactivation in the Santonian. We propose a ridge-push mechanism for this stress which selectively reactivates extensional faults on the delta-top, forming inversion anticlines that are prospective for hydrocarbon exploration.

Publisher

Geological Society of London

Subject

Geology,Ocean Engineering,Water Science and Technology

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