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Relating 4D seismics to reservoir geomechanical changes using a discrete element approach
Authors:Haitham Alassi  Rune Holt  Martin Landrø
Institution:1. SINTEF Petroleum Research, S.P. Andersens Vei 15B, 7031 Trondheim, Norway;2. NTNU, Department of Petroleum Engineering and Applied Geophysics, S.P. Andersens Vei 15A, 7491 Trondheim, Norway
Abstract:A modified discrete element method is briefly introduced and used for modelling reservoir geomechanical response during fluid injection and depletion. The modified approach works as a continuum method until some local failure is initiated, after which it behaves like a discrete element method on a polygonal lattice. The method is advantageous for modelling fracture developments in rocks. It is applied here to synthetic models of two reservoirs taken from the North Sea (Gullfaks and Elgin‐Franklin). For Gullfaks, two cases of water injection were modelled, one with low horizontal effective stress and the other with low vertical effective stress. Vertical fractures are developed in the first case, whereas horizontal fractures are developed in the second case. This would not have been seen using traditional methods. Based on 4D seismics data for the Gullfaks field, one may envision that horizontal fractures could have been formed. The Elgin‐Franklin synthetic model is used to study various scenarios of changing stress field around the depleting reservoir. Based on 4D seismics data from this field, one may see changes that could be interpreted in terms of possible fault reactivation.
Keywords:Modelling  Monitoring  Time lapse
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