Graduate courses Curriculum
2023 General Education
The department of Energy Systems Engineering which is composed of Energy Resources Engineering and Nuclear Engineering. If an applicant wants to study Energy Resources Engineering, he/she has to apply for admission to the department of Energy Systems Engineering. The applicant also needs to choose a major
field of study and an adviser.
|
Eligibility |
The applicant should hold a Bachelor’s degree (in case of Masters program)
or a Master’s degree (in case of Doctoral program). |
|---|---|
|
Application Period |
Twice a year (April, October) |
|
Criteria |
Document review and interview |
|
Language Proficiency |
Korean : TOPIK level 3 or higher
English : TOEFL(iBT) 86, TEPS 601 or higher |
|
Tel |
+82-2-880-4093 |
| Course No. | Course Title | Credits | Remark |
|---|---|---|---|
| 459.500 | Seminar in Energy Issues | 3 | Energy Systems Engineering Common Courses |
| 459.501 | Fundamental Waste Disposal Engineering in Underground Rock Mass | 3 | |
| 459.502 | Advanced Energy and Energy Technology Economics | 3 | |
| 459.503 | Topics in Seismic Prospecting | 3 | |
| 459.570A | Topics in Energy Systems Engineering | 3 | |
| 459.575 | Nuclear Control and International Cooperation | 3 | |
| 459.600 | Topics in Petroleum and Gas Engineering | 3 | |
| 459.601 | Energy System Reliability Analysis | 3 | |
| 459.700 | Environmental Surface Chemistry | 3 | |
| 459.803 | Dissertation Research | 3 | |
| M1589.000300 | Special Topic on Advanced Energy System Materials | 3 | |
| 33 | |||
| 459.525 | Energy Resources Seminar* | 1 | |
| 459.620 | Topics in Electrical Prospecting | 3 | |
| 459.621 | Topics in Applied Geochemistry | 3 | |
| 459.624 | Numerical Analysis in Geophysics | 3 | |
| 459.627 | Rock Stress Analysis | 3 | |
| 459.628 | Geohazards Assessment | 3 | |
| 459.629 | Topics in Environmental Geochemistry | 3 | |
| 459.630 | Separation Process in Waste Minimization | 3 | |
| 459.632 | Topics in Energy and Environmental Geomechanics | 3 | |
| 459.720 | Econometric Analysis of Industry and Technology | 3 | |
| 459.722 | Topics in Geophysical Inverse Theory | 3 | |
| 459.723 | Advanced Geostatistics | 3 | |
| 459.725 | Fracture Mechanics of Rocks and Other Brittle Materials | 3 | |
| 459.726 | Topics in Electromagnetic Prospecting | 3 | |
| 459.727A | GIS for Energy System Design | 3 | |
| 459.729 | Analysis of Rock Mass Discontinuities | 3 | |
| 459.731 | Theory of Poroelasticity | 3 | |
| 459.732 | Numerical Analysis in Rock Engineering | 3 | |
| M0000.012400 | Fundamentals of Geomechanics | 3 | |
| M0000.019800 | Optimization of Reservoir Management | 3 | |
| M0000.019900 | Topics in Petrophysics | 3 | |
| M0000.020000 | Topics in Reservoir Engineering | 3 | |
| M0000.027200 | Digital Rock Mass Survey | 3 | |
| M0000.027300 | Machine Learning Applications in Petroleum Engineering | 3 | |
| M0000.027400 | Rock Excavation Data Analysis | 3 | |
| M0000.027500 | Learning Based Optimization of Well Operation | 3 | |
| M0000.027600 | Advanced Principles of Resource Business Data Analysis | 3 | |
| M3510.000100 | Carbon Capture, Utilization and Storage Technology | 3 | |
| M3510.000200 | Electrochemical Energy Systems Analysis | 3 | |
| 85 | |||
* Students admitted since 2020 must take repeatedly 「459.525 Energy Resources Seminar(1 credit)」 courses which have numbers/titles that are identical but whose subtitles differ from each other to earn 2~3 credits per degree program.
– Master’s : at least 2 credits
– Doctoral : at least 2 credits
– Combined Masters/Doctorate : at least 3 credits
