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Master/Ph.D. Programs, Sustainability in Green Energy
(Applicable to students admitted in the 2024 academic year)Master’s students in the program (hereinafter referred to as "master’s students") must complete a total of 24 credits prior to graduation. This includes 3 credits of required College courses, at least 9 credits of core courses, and at least 12 credits of elective courses. The College's "Seminar" course is a non-credit required course that must be completed for four semesters prior to graduation. Master’s students graduating early must complete the course for the number of enrolled semesters.
PhD students in the program (hereinafter referred to as "doctoral students") must complete a total of 18 credits prior to graduation. This includes 3 credits of required College courses, at least 6 credits of core courses, and at least 9 credits of elective courses. The College's "Seminar" course is a non-credit required course that must be completed for six semesters prior to graduation. Doctoral students graduating early must complete the course for the number of enrolled semesters.
|
Program in Sustainability and Green Energy (Applicable to students admitted in the 2024 academic year) |
Credit | Semester | ||
| Compulsory Course | Seminar (0 credits, must be completed for four semesters) |
0 | Fall / Spring | |
| Earth Environment | 3 | Fall | ||
| Core Course | Fault Analysis of Power Systems | 3 | Fall | |
| Analysis and Design of Power Electronics Circuits | 3 | Fall | ||
| Reading and Interpreting IPCC Reports | 3 | Spring | ||
| Switched-Mode Power Converters | 3 | Spring | ||
| Practical Energy Technology | -- | -- | ||
| Intelligent Control Systems Design and Applications | 3 | Fall | ||
| Power System Engineering | -- | -- | ||
| Power Quality Signal Processing | 3 | Fall | ||
| Artificial Intelligence (SG5006) | 3 | Fall | ||
| Internet of Things Technology | 3 | Fall | ||
| Green Energy Overview | 3 | Spring | ||
| Elective Course | Program Electives | Solar Energy Engineering # | 3 | Spring |
| Hydrogen Energy and Fuel Cells # | 3 | Fall | ||
| Energy Information and Communication Technology # | -- | -- | ||
| Distributed Networks | 3 | Fall | ||
| Climate Change Risk and Assessment | 2 | Spring | ||
| Meteorological Information and Solar/Wind Power Practice | 2 | Spring | ||
| Advanced Electrical Control | 3 | Spring | ||
| Power Electronics Technology | -- | -- | ||
| Electric Vehicle Integration Systems | -- | -- | ||
| Geothermal Resource Exploration and Practice | 2 | Fall | ||
| Introduction to Hybrid Ocean Energy | 2 | Spring | ||
| Lithium-Ion Battery Technology and Materials | 3 | Fall | ||
| Principles and Technologies of Energy Storage | 3 | Fall | ||
| Offshore Wind Energy and Multidimensional Environmental Parameters and Assessment | 3 | Fall | ||
| Introduction to Offshore Wind Maritime Engineering | 3 | Fall | ||
| College Electives | Natural Disaster Risk Assessment and Adaptation | 2 | Spring | |
| Development and Risk Assessment of Water Resources | 3 | Spring | ||
| Site Survey and Development for Carbon Sequestration | 2 | Spring | ||
| Air Pollution Monitoring and Control | 3 | Spring | ||
# “Solar Energy Engineering”, “Hydrogen Energy and Fuel Cells”, and ‘Energy Information and Communication Technology’ are core courses of the Green Energy Ph.D. Program.
*Some courses may not be offered every academic year. Please refer to the University’s course catalog and course registration system for planning.
* Elective courses may be taken across programs (course codes beginning with SA, SL, SD, SG are recommended, excluding “Seminar”).
* The actual number of credits shall be based on the University’s course catalog and course registration system.
Last Updated:2025/09/19
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(Applicable to students admitted in the 2025 academic year)
Master’s students in the program (hereinafter referred to as "master’s students") must complete a total of 24 credits prior to graduation. This includes 3 credits of required College courses, 3 credits of required Program courses, at least 6 credits of core courses, and at least 12 credits of elective courses. The College's "Seminar" course is a non-credit required course that must be completed for four semesters prior to graduation. Master’s students graduating early must complete the course for the number of enrolled semesters.
PhD students in the program (hereinafter referred to as "doctoral students") must complete a total of 18 credits prior to graduation. This includes 3 credits of required College courses, 3 credits of required Program courses, at least 6 credits of core courses, and at least 6 credits of elective courses. The College's "Seminar" course is a non-credit required course that must be completed for six semesters prior to graduation. Doctoral students graduating early must complete the course for the number of enrolled semesters.
|
Program in Sustainability and Green Energy (Applicable to students admitted in the 2025 academic year) |
Credit | Semester | ||
| Compulsory Course | College Required | Seminar (0 credits, must be completed for four semesters) |
0 | Fall / Spring |
| Earth Environment | 3 | Fall | ||
| Program Required | General Introduction to Green Energy | 3 | Spring | |
| Core Course | Power System Fault Analysis | 3 | Fall | |
| Analysis and Design of Power Electronics | 3 | Fall | ||
| Introduction to the IPCC assessment reports | 3 | Spring | ||
| Switching Mode Power Converters | 3 | Spring | ||
| Research Project on Energy Technology | -- | -- | ||
| Design and Applications of Intelligent Control Systems | 3 | Fall | ||
| Power system engineering | -- | -- | ||
| Signal Processing of Power Quality Disturbances | 3 | Fall | ||
| Artificial Intelligence(SG5006) | 3 | Fall | ||
| Internet of Things Technology | 3 | Fall | ||
| Elective Course | Program Electives | Solar Energy Engineering # | 3 | Spring |
| Hydrogen Energy and Fuel Cells # | 3 | Fall | ||
| Energy Information and Communication Technology # | -- | -- | ||
| Distributed Networks | 3 | Fall | ||
| Climate Change Risk and Assessment | 2 | Spring | ||
| Wind and Solar Energy Practice with Weather Data | 2 | Spring | ||
| Advanced Electric Motor Drives and Control | 3 | Spring | ||
| Power Electronics Technologies | -- | -- | ||
| Electric Vehicle Integration System | -- | -- | ||
| Geothermal Resource Survey and Implementation | 2 | Fall | ||
| Introduction to Integrated Offshore Energy Development | 2 | Spring | ||
| Lithium-ion battery technology and materials | 3 | Fall | ||
| Theory and Technology of energy storage | 3 | Fall | ||
| Offshore Wind Power and Multidimensional Environmental Parameters and Assessment | 3 | Fall | ||
| Fundamentals of Maritime Engineering | 3 | Fall | ||
| College Electives | Assessing and Adapting to Natural Hazard Risks | 2 | Spring | |
| Water Resource Development and Risk Assessment | 3 | Spring | ||
| Assessment and Development of Carbon Storage Sites | 2 | Spring | ||
| Air pollution monitoring and control | 3 | Spring | ||
# “Solar Energy Engineering”, “Hydrogen Energy and Fuel Cells”, and ‘Energy Information and Communication Technology’ are core courses of the Green Energy Ph.D. Program.
*Some courses may not be offered every academic year. Please refer to the University’s course catalog and course registration system for planning.
* Elective courses may be taken across programs (course codes beginning with SA, SL, SD, SG are recommended, excluding “Seminar”).
* The actual number of credits shall be based on the University’s course catalog and course registration system.
Last Updated:2025/09/19