Patent ID: 7720658

Claim:
A method for optimizing recovery of reserves from an oil reservoir, from a geologic model representing the reservoir by geometry and petrophysical properties of the reservoir, with which is associated a set of absolute permeability values obtained from measurements of the reservoir and from a reservoir model associated with a grid containing grid cells with faces being constructed at a scale of steady flow simulations representative of the reservoir, comprising: (a) upscaling the absolute permeability values with the geologic model by calculating inter-cell absolute permeability values associated with the reservoir model, including calculating pressure, pressure gradient and first filtration rate values associated with the grid cells using steady single-phase flow simulations represented with the geologic model, isolating a spatial domain of non-zero volume containing each face of the grid cells and extracting from the geologic model grid cells of the geologic model contained in the domain and an associated absolute permeability, the pressure, the pressure gradient and the first filtration rate values to provide a local model of the spatial domain relative to each face, calculating a first filtration rate mean value of the first filtration rate values relative to the local model of the spatial domain, determining boundary conditions of the local model of the spatial domain relative to each face of the grid cells by using results of the steady single-phase flow simulation with the geologic model, sequentially perturbing the boundary conditions in three spatial directions, by adding a perturbation to values of the boundary conditions along an axis in each direction to construct three sets of boundary conditions with a set of boundary conditions being associated with each direction, calculating a pressure gradient value and a second filtration rate values of each grid cell relative to each face by carrying out the steady single-phase flow simulations according to the three sets of boundary conditions for each local model relative to faces of the grid cells, calculating a second filtration rate mean value of the second filtration rate value of each grid cell for each of the three sets of boundary conditions, and using Darcy's law to calculate inter-cell absolute permeability associated with each grid cell from the first and second filtration rate mean values and pressure gradient values of each grid cell; and (b) using the inter-cell absolute permeabilities associated with each grid cell for estimating the reserves of the oil reservoir and optimizing recovery of the reserves from the reservoir.