Mathematical Structure of the Black-Oil Model for Petroleum Reservoir Simulation
From MaRDI portal
Publication:3823339
DOI10.1137/0149044zbMath0669.76125OpenAlexW2065924592MaRDI QIDQ3823339
John A. Trangenstein, John B. Bell
Publication date: 1989
Published in: SIAM Journal on Applied Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1137/0149044
hyperbolic conservation lawGodunov's methodDarcy's Lawpetroleum reservoir simulationthree-component black-oil model
Related Items (44)
Numerical studies of a class of linear solvers for fine-scale petroleum reservoir simulation ⋮ A conservative sequential fully implicit method for compositional reservoir simulation ⋮ Continuous data assimilation for two-phase flow: analysis and simulations ⋮ Homogenization and simulation for compositional flow in naturally fractured reservoirs ⋮ Decoupling preconditioners in the implicit parallel accurate reservoir simulator (IPARS) ⋮ An a posteriori-based, fully adaptive algorithm with adaptive stopping criteria and mesh refinement for thermal multiphase compositional flows in porous media ⋮ Adaptive mesh refinement and multilevel iteration for flow in porous media ⋮ A higher-order Godunov scheme coupled with dynamic local grid refinement for flow in a porous medium ⋮ Accelerating multiscale simulation of complex geomodels by use of dynamically adapted basis functions ⋮ Efficient reordered nonlinear Gauss-Seidel solvers with higher order for black-oil models ⋮ Nonlinear domain decomposition scheme for sequential fully implicit formulation of compositional multiphase flow ⋮ Nonlinearly preconditioned constraint-preserving algorithms for subsurface three-phase flow with capillarity ⋮ Convergent sequential fully implicit method for reservoir simulation ⋮ An upwind finite volume element method on a Shishkin mesh for singularly perturbed convection-diffusion problems ⋮ Sequential fully implicit Newton method for flow and transport with natural black-oil formulation ⋮ Coupling-strength criteria for sequential implicit formulations ⋮ Numerical approach of a coupled pressure-saturation model describing oil-water flow in porous media ⋮ A semi-implicit method for incompressible three-phase flow in porous media ⋮ Sequential fully implicit formulation for compositional simulation using natural variables ⋮ An implicit local time-stepping method based on cell reordering for multiphase flow in porous media ⋮ Simulation of multiphase flows in porous media with gravitational effects using dominant wave method ⋮ A general finite volume based numerical algorithm for hydrocarbon reservoir simulation using blackoil model ⋮ Parallel reservoir simulators for fully implicit complementarity formulation of multicomponent compressible flows ⋮ The sequential method for the black-oil reservoir simulation on unstructured grids. ⋮ A fully implicit constraint-preserving simulator for the black oil model of petroleum reservoirs ⋮ Stochastic analysis of transient three-phase flow in heterogeneous porous media ⋮ Nearwell local space and time refinement in reservoir simulation ⋮ Toward Cost-Effective Reservoir Simulation Solvers on GPUs ⋮ Inexact methods for sequential fully implicit (SFI) reservoir simulation ⋮ The mathematical structure of multiphase thermal models of flow in porous media ⋮ Fully implicit multidimensional hybrid upwind scheme for coupled flow and transport ⋮ Implicit flux limiting schemes for petroleum reservoir simulation ⋮ Unified graph-based multi-fluid model for gas-liquid pipeline flows ⋮ Time-Lapse 3-D Seismic Wave Simulation via the Generalized Multiscale Finite Element Method ⋮ A numerical model for trickle bed reactors ⋮ Flow Simulation in Heterogeneous Porous Media With the Moving Least-Squares Method ⋮ Modeling fractured and faulted regions: local grid refinement methods for implicit solvers ⋮ Consistency and local conservation in finite-element simulation of flow in porous media ⋮ Nonlinear solver for three-phase transport problems based on approximate trust regions ⋮ An analysis of physical models and numerical schemes for polymer flooding simulations ⋮ Implicit hybrid upwinding for two-phase flow in heterogeneous porous media with buoyancy and capillarity ⋮ Application and performance comparison of high‐resolution central schemes for the black oil model ⋮ A numerical study of the additive Schwarz preconditioned exact Newton method (ASPEN) as a nonlinear preconditioner for immiscible and compositional porous media flow ⋮ A cell-centered adaptive projection method for the incompressible Euler equations
This page was built for publication: Mathematical Structure of the Black-Oil Model for Petroleum Reservoir Simulation
