The closed-loop reservoir management technique enables a dynamic and real-time optimal
production schedule under the existing reservoir conditions to be achieved by adjusting the …

This work describes an implementation of OpenMP, MPI, hybrid OpenMP/MPI parallelization
strategies for an implicit three-dimensional (3D) direct discontinuous Galerkin (DDG) solver …

This paper presents our work on developing a platform for high performance reservoir
simulations, which is developed to support the implementation of various reservoir …

The black oil model is widely used to describe multiphase porous media flow in the
petroleum industry. The fully implicit method features strong stability and weak constraints …

Reservoir simulation is to solve a set of fluid flow equations through porous media, which
are partial differential equations from the petroleum engineering industry and described by …

In recent years, CO2 flooding has become an important technical measure for oil and gas
field enterprises to further improve oil and gas recovery and achieve the goal of “dual …

New reservoir simulators designed for parallel computers enable us to overcome
performance limitations of workstations and personal computers and to simulate large-scale …

This paper presents our work on developing parallel reservoir simulators for improving oil
recovery on distributed-memory parallel systems and studying the scalability of our parallel …

This paper introduces the model, numerical methods, algorithms and parallel
implementation of a thermal reservoir simulator that designed for numerical simulations of …

This research investigates the application of Multigrid Neural Operator (MgNO), a neural
operator architecture inspired by multigrid methods, in the simulation for multiphase flow …