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An introduction to MRST (Matlab Reservoir Simulation Toolbox)

The document presents an overview of the MRST (MATLAB Reservoir Simulation Toolbox) including its properties, functionalities, and various modules for reservoir simulation. Developed by SINTEF Applied Mathematics, it offers a comprehensive open-source platform for numerical simulations on reservoir models. It also includes comparisons with other simulation tools such as Eclipse100 and highlights various methods and solvers utilized within MRST.

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Presented by : Farshad Jafarizadeh Saeid Javidi Reza Ghahghaei Course Supervisor : Dr.Sedaee Sola 1 Number of slid: 28 April 2016 Reservoir Simulation
Introduction 2  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
Introduction 3  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
Properties 4  An open source comprehensive set of routines for reading, visualising and running numerical simulations on reservoir models.  Developed at SINTEF Applied Mathematics.  MRST core: grid + basic functionality  Add-on modules: discretizations (TPFA, MPFA, mimetic), black oil, thermal, upscaling, coarsening, multiscale, flow diagnostics, CO2 laboratory,…. • Statistics: (release 2013b)  Number of downloads: ~3000  Number of countries: ~120  Number of institutions: ~1080  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
5  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
6  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
Function 7  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
Function 8  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
Function 9  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
10  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
11 MRST – CO2 Lab  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
MRST - Flow Diagnostics 12  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
MRST - Fully Implicit Solvers 13  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
MRST- MultiscaleFinite Volumes 14  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
15 MRST–MultiscaleMixedFiniteElements  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
MRST - MPFA 16  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
MRST – IMPES Solver 17  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
MRST – Adjoint Formulations 18  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
The First Encounter With MRST 19
20
Example 21
22
23
Comparison MRST and Eclipse100 24  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
Comparison MRST and Eclipse100 25  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
Comparison MRST and Eclipse100 26  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
Comparison MRST and Eclipse100 27  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
References • An open-source framework for rapid prototyping and evaluation of reservoir simulation Problems- SPE 173317-MS • Sintef.no/mrst 28
Thanks For Your Attention

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An introduction to MRST (Matlab Reservoir Simulation Toolbox)

  • 1.
    Presented by : FarshadJafarizadeh Saeid Javidi Reza Ghahghaei Course Supervisor : Dr.Sedaee Sola 1 Number of slid: 28 April 2016 Reservoir Simulation
  • 2.
    Introduction 2  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 3.
    Introduction 3  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 4.
    Properties 4  An opensource comprehensive set of routines for reading, visualising and running numerical simulations on reservoir models.  Developed at SINTEF Applied Mathematics.  MRST core: grid + basic functionality  Add-on modules: discretizations (TPFA, MPFA, mimetic), black oil, thermal, upscaling, coarsening, multiscale, flow diagnostics, CO2 laboratory,…. • Statistics: (release 2013b)  Number of downloads: ~3000  Number of countries: ~120  Number of institutions: ~1080  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 5.
    5  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 6.
    6  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 7.
    Function 7  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 8.
    Function 8  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 9.
    Function 9  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 10.
    10  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 11.
    11 MRST – CO2Lab  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 12.
    MRST - FlowDiagnostics 12  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 13.
    MRST - FullyImplicit Solvers 13  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 14.
    MRST- MultiscaleFinite Volumes 14 Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 15.
    15 MRST–MultiscaleMixedFiniteElements  Introduction  Properties Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 16.
    MRST - MPFA 16 Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 17.
    MRST – IMPESSolver 17  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 18.
    MRST – AdjointFormulations 18  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 19.
    The First EncounterWith MRST 19
  • 20.
  • 21.
  • 22.
  • 23.
  • 24.
    Comparison MRST andEclipse100 24  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 25.
    Comparison MRST andEclipse100 25  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 26.
    Comparison MRST andEclipse100 26  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 27.
    Comparison MRST andEclipse100 27  Introduction  Properties  Design  Grids  Function  Modules  MRST – CO2 Lab  Flow Diagnostics  Fully Implicit Solvers  Multiscale Finite Volumes  Multiscale Mixed Finite Elements  MPFA  IMPES Solver  Adjoint Formulations
  • 28.
    References • An open-sourceframework for rapid prototyping and evaluation of reservoir simulation Problems- SPE 173317-MS • Sintef.no/mrst 28
  • 29.
    Thanks For YourAttention