Chemical Enhanced Oil Recovery
Course Code
TM4014
Number of Credits
3
Semester
Course Type
Study Material
| Study Material | Depth |
|---|---|
| Sheng, J., Modern Chemical Enhanced Oil Recovery, 2011 | |
| Siregar, S., Ariadji, T., Kurnia, R., Kurnia, I., Dasar Teori dan Implementasi Peningkatan Perolehan Minyak Tahap Lanjut, 2021 | Express |
| Green, D. W., and Willhite, G. P, Enhanced Oil Recovery., Society of Petroleum Engineers, 1998 | Express |
Graduate Learning Outcomes (GLO) carried by the course
| CPMK Code | Course Learning Outcomes Elements (CLO) |
|---|---|
| CPMK 1 | Able to understand the types of methods for increasing advanced oil recovery by chemical injection. Able to understand the factors that influence the implementation of increasing further oil recovery by chemical injection. Able to understand fluid characteristics that influence the implementation of increasing further oil recovery by chemical injection, such as organic chemistry of petroleum, physical and chemical properties of petroleum, formation water composition, oil viscosity, mobility, wettability properties, phase diagram, interfacial tension. |
| CPMK 2 | Able to understand fluid characteristics that influence the implementation of increased oil recovery by chemical injection, such as oil viscosity, mobility, wettability, phase diagram, interfacial tension. Able to understand the basic principles of alkali injection, such as the factors that influence alkali injection, the reactions that occur between alkali and oil, formation water and rock, as well as the pressure mechanism by alkali injection. Able to understand laboratory tests carried out in the screening process for alkali injection, calculating the amount of alkali needed, reservoir criteria suitable for alkali injection and injection methods carried out in the field. |
| CPMK 3 | Able to understand the basic principles of surfactant injection, such as types of surfactants, characterization of surfactants and factors that influence surfactant injection. Able to understand the pressure mechanism with surfactant injection, reservoir criteria suitable for surfactant injection, calculate the amount of surfactant needed and injection methods carried out in the field. Able to understand the basic principles of polymer injection, such as types of polymers, polymer behavior in porous media, and the mechanism of oil pressure by polymer injection. |
| CPMK 4 | Able to understand the criteria for reservoirs that are suitable for polymer injection, calculate the amount of polymer needed, and injection methods carried out in the field. Able to understand the interaction between alkali and polymer in alkali-polymer injection, laboratory testing, reservoir criteria suitable for alkali-polymer injection and its application in the field. Able to understand the interaction between alkali and surfactant in alkali-surfactant injection, laboratory testing, reservoir criteria suitable for alkali-surfactant injection and its application in the field. |
| CPMK 5 | Able to understand the interaction between polymer and surfactant in polymer-surfactant injection, laboratory testing, reservoir criteria suitable for polymer-surfactant injection and its application in the field. Able to understand the interaction between polymer and surfactant in alkali-surfactant-polymer injection, laboratory testing, reservoir criteria suitable for alkali-surfactant-polymer injection and its application in the field |
Learning Method
- Group discussion Problem Based Learning Seminar Discussions and Presentations Case study
Learning Modality
- Offline Asynchronous Independent Group
Assessment Methods
- Quiz Task Midterm exam Final exams