Reservoir Engineering II
Course Code
TM3201
Number of Credits
3
Semester
Course Type
Study Material
| Study Material | Depth |
|---|---|
| Fluid flow modeling in reservoirs | |
| The phenomenon of water seepage (water influx) | |
| Water Coning | |
| Linear Water Displacement | |
| Segregation Drive |
Graduate Learning Outcomes (GLO) carried by the course
| CPMK Code | Course Learning Outcomes Elements (CLO) |
|---|---|
| CPMK 1 | Able to understand and be able to apply the concept of the water coning phenomenon in bottom water reservoirs and how to determine the critical flow rate so that coning does not occur. Able to understand the performance of the bottom water drive after water penetrates and able to determine the pressure of an infinitely sized aquifer. |
| CPMK 2 | Able to understand the mechanism of linear forcing by paying attention to the gravity number and understand the mechanism of pressing with the concept of desaturation using the fractional flow equation and the frontal advance equation. |
| CPMK 3 | Understand and able to apply the Buckley-Leverett method which produces an equation for the position of water saturation and able to determine the average water saturation behind the front at the time of water penetration. |
| CPMK 4 | Understand the segregation process which consists of processes without and with reverse flow. Able to carry out mathematical modeling of the segregation process |
| CPMK 5 | Understand and able to apply the convolution method (Fast Convolution Method, FCM) to solve the finite/infinite aquifer model equation in determining water influx |
Learning Method
- Group Discussions, Problem Based Learning, Seminar Discussions and Presentations, Case Studies
Learning Modality
- Offline, Asynchronous, Independent, Group
Assessment Methods
- Quiz, Assignments, Midterm Exams, Final Exams