11 skills found
je-santos / MPLBM UTLibrary for performing multiphase simulations (based on the Shan-Chen model) in complicated geometries (i.e. porous media 3D images)
Franjcf / HybridPorousInterFoamOpenFOAM solver for performing single- and two-phase flow simulations on hybrid-scale porous media.
petrobras / GeoSlicerOpen source digital rocks software platform for micro-CT, CT, thin sections and borehole image analysis. Includes tools for: annotation, AI, HPC, porous media flow simulation, porosity analysis, permeability analysis and much more.
Philliec459 / Open Source PetrophysicsA comprehensive Open Source repository for Petrophysics, providing tools, scripts, and resources for analyzing subsurface data. Ideal for geoscientists, engineers, and researchers working with porosity, permeability, and other petrophysical properties. Join us in advancing the science of subsurface exploration and reservoir characterization.
equinor / PyscalPython module for relative permeability/SCAL support in reservoir simulation
NumericalEnvironmental / Coupled Gas Water Flow And Transport Porous MediaThis Julia language (version 0.5) script solves the coupled partial differential equations associated with (1) compressible gas flow in partially water-saturated porous media, (2) partially-saturated flow of water (essentially amounting to a solution of the Richards equation using the Van Genuchten equations for capillarity and relative permeability), and (3) advective-dispersive transport of both aqueous-phase solutes and gas components in the respective media.
gfeo1 / IMPES 3DPURPOSE: Provide simulation solutions to 1D, 2D and 3D 2-PHASE reservoir problem. FEATURES Works for Any Shape & Size 1D, 2D & 3D reservoir. Matrixes are created in REAL-TIME. Works for Multiple Layer Reservoir. Calculates Areas based on direction in real-time Calculates Volumes for each grid-block in real-time Works with any size grid-blocks where DX != DY != DZ Uses Up-winding technique to calculate inter-block relative permeability Uses Harmonic Average to calculate inter-block transmissibility Calculates Gravity for 3D simulations Calculates J-Wells production based on radius, skin & PWF Handles Massive Output Data by dividing output files into smaller ones. Works with Variable Absolute Permeabilities: X,Y and Z Absolute Permeabilities can be assigned as initial conditions in input file. X,Y and Z Absolute Permeabilities can be read from a Geostatistical Grid Works with any number of user defined injectors and respective initial conditions Works with any number of user defined producers and respective initial conditions including J-wells Input All Initial Conditions are set in excel file Number of injectors and Producers are set in excel file Initial conditions for all Injectors & Producers are set in excel file Initial conditions for “J-Wells” (i.e. production data) are set in excel file Output Output 1 : List of Pressure by grid-block & iteration (CSV file) Output 2 : List of Saturation by grid-block & iteration (CSV file) Output 3 : List of Production by J-well & iteration f (CSV file) NOTE: Since the number of data can be massive, all output files are divided into smaller ones to allow softwares like excel and Google spread sheet to being able to open them.
Philliec459 / Panel Used To Create Relative Permeability Curves Using The Corey TechniqueThe Corey relative permeability technique is a widely used empirical approach to model the relative permeability curves of two-phase flow in porous media.
MouinAlmasoodi / Interactive Relative PermeabilityCreates Water-Oil and Gas-Liquid relative permeability curves with interactive gas relative perm parameters. Outputs relative perm tables needed for reservoir simulators.
trinityimma / Rock Typing With Relative PermeabilityThis repo holds the code that is used in rock typing of relative permeability curves using k-means algorithm
xclmj / SLM SLPThis repository introduces an efficient surrogate model with the aim of accelerating joint estimation of subsurface geological properties and relative permeability parameters for high-dimensional inversion problems. A combination of model linearization and our recently proposed smooth local parameterization where the Gaussian geological parameters and non-Gaussian facies indicators are locally parameterized forms a set of efficient subdomain linear models which fully replace the high-fidelity model for the forward simulations. This Subdomain Linear Model with Smooth Local Parameterization, referred to as SLM-SLP, allows us to linearize model in each subdomain simultaneously with only a few fidelity model evaluations. Furthermore, we also introduce an adaptive scheme, called weighting smooth local parameterization (WSLP) where the inversion procedure adaptively determines the weighting coefficients and the optimal domain decomposition correspondingly, to mitigate the negative effects of inappropriate domain decomposition strategies.
