course-details-portlet

PG8609

Numerical Methods in Reservoir Simulation

Lessons are not given in the academic year 2026/2027

Credits 10
Level Doctoral degree level
Course start Autumn
Duration 1 semester
Language of instruction English
Location Trondheim

About

About the course

Course content

The course is taught every second year.

The subject investigates numerical methods used in reservoir simulation models. The subject contains:

  1. Difference methods.
  2. Control-volume methods.
  3. Linear equation solvers.
  4. Stability and numerical dispersion.
  5. Streamline methods.
  6. Up-scaling methods.

Learning outcome

Knowledge: By fulfilling the course, the candidate will have a deeper understanding of the mathematical building blocks that go into various reservoir simulators, different numerical representations, and solution methods. The candidate will be able to build on his knowledge through the reading of publications used in the course.

Skills: The candidate shall, after fulfilling the course, be able to:

  • Describe the various difference methods that are used to solve the transport equations applied in reservoir simulation software.
  • Describe the different linear equation solvers solution methods used in reservoir simulators.
  • Argue for the consequences for stability and dispersion when applying reservoir simulation software.

General competence: The candidate will gain insight into the workings of today's reservoir simulation software, their formulation, and solution methods. The candidate will be able to communicate this know-how to others and pursue further his/her own development within the subject.

Learning methods and activities

Self study and colloquium, schedule is planned by the participants.

Further on evaluation

To pass the course, a score of at least 70 percent is required.

Specific conditions

Admission to a programme of study is required:
Engineering (PHIV)

Required previous knowledge

TPG4160 Reservoir Simulation or equivalent. Requires admission to the PhD programme Engineering, specialization within Reservoir Engineering and Petrophysics, or approval from the person with course responsibility.

Course materials

1. Reservoir Simulation, SPE Monograph, Volume 13. 2. Basic Applied Reservoir Simulation Textbook, Volume 7.

2. Reservoir simulation - Through open source software: https://folk.ntnu.no/carlfrbe/books/resSim.pdf

Credit reductions

Course code Reduction From
PG8607 7.5 sp Autumn 2027
This course has academic overlap with the course in the table above. If you take overlapping courses, you will receive a credit reduction in the course where you have the lowest grade. If the grades are the same, the reduction will be applied to the course completed most recently.

Subject areas

  • Reservoir Simulation
  • Reservoir Engineering

Contact information

Course coordinator

Department with academic responsibility

Department of Geoscience

Timetable

Timetable

Calendar view
List view
Show detailed timetable in TP Download .ics file iCal

Examination

Examination

All about examinations at NTNU