19 research outputs found
Evolution of fracture permeability with respect to fluid/rock interactions under thermohydromechanical conditions: development of experimental reactive percolation tests
Fracture sealing and fluid overpressures in limestones of the Jabal Akhdar dome, Oman mountains
Implementation conditions for diet and physical activity interventions and policies: an umbrella review
Hydraulic Fracture Deflection at Bedding Plane Due to the Non-orthogonal Propagation and the Dissimilar Material Properties
Analytical model for simulating and analyzing the influence of interfacial slip on fracture height propagation in shale gas layers
The origin of overpressure in 'old' sedimentary basins: an example from the Cooper Basin, Australia
The definitive version is available at www.blackwell-synergy.comOverpressure in 'old' sedimentary basins that have not undergone rapid, recent sedimentation cannot be easily explained using traditional burial-driven mechanisms. The last significant burial event in the Cooper Basin, Australia, was the Late Cretaceous deposition of the Winton Formation (98.5-90 Ma). Maximum temperature in the basin was attained during the Late Cretaceous, with cooling beginning prior to 75 Ma. Hence, overpressure related to rapid burial or palaeomaximum temperatures (e.g. hydrocarbon generation) must have developed prior to 75 Ma. Retaining overpressure for 75 Ma in 'old' basins such as the Cooper Basin requires extremely low seal permeabilities. An alternative explanation is that overpressure in the Cooper Basin has been generated because of an increase in mean stress associated with an increase in horizontal compressive stress since Late Cretaceous times. Structural observations and contemporary stress data indicate that there has been an increase in mean stress of approximately 50 MPa between Late Cretaceous times to that presently measured at 3780 m. The largest measured overpressure in the Cooper Basin is 14.5 MPa at 3780 m in the Kirby 1 well. Hence, disequilibrium compaction driven by increasing mean stress can explain the magnitude of the observed overpressure in the Cooper Basin. Increases in mean stress (tectonic loading) may be a feasible mechanism for overpressure generation in other 'old' basins that have undergone a recent increase in horizontal stress (e.g. Anadarko Basin).P. Van Ruth, R. Hillis, P. Tingate and R. Swarbric