Explicit Fracture Network Modelling: From Multiple Point Statistics to Dynamic Simulation |
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Authors: | T. Chugunova V. Corpel J.-P. Gomez |
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Affiliation: | 1.Geostatistics and Uncertainty, Total SA,CSTJF,Pau,France;2.Structural Geology, Total SA,CSTJF,Pau,France |
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Abstract: | This paper addresses the problem of explicit fractured media modelling in an operational case. On one side, realistic fracture models are mainly used for research purposes in order to investigate better the flow behaviour impacted by the complex multi-scale fracture network. Often, a very fine grid and hence an increased computation time are needed. On the other hand, an operational fractured reservoir is still generally modelled using an implicit fracture media representation. The upscaled petrophysical properties and dual media are defined on a coarse grid to limit the computational time of dynamic simulation. The challenge of this work is to demonstrate that an explicit fracture modelling is not reserved only for the research domain, but can be applied to an operational case study. The static model is constructed using a multiple point statistics approach in order to represent complex interaction patterns of fractures and faults observed at the analogue outcrop. The dynamic behaviour is simulated based on this spatial fracture network representation. |
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