MRST - The Matlab Reservoir Simulation Toolbox is delveloped by SINTEF Applied Mathematics as a MATLAB toolbox.

1. Presented by :
Farshad Jafarizadeh
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 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. 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 – 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

12. 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

13. 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

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 – 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

18. 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

19. The First Encounter With MRST
19

20. 20

21. Example
21

22. 22

23. 23

24. 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

25. 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

26. 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

27. 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

28. References
• An open-source framework for rapid prototyping and
evaluation of reservoir simulation Problems- SPE 173317-MS
• Sintef.no/mrst
28

29. Thanks For Your Attention