Faculty: School of Electric Power
Degree: MS
Specialty: High Voltage and Insulation Technology
Minimum Total Credits: 25.0
Minimum Compulsory Course Credits: 15.0
Minimum Optional Course Credits: 10.0
Objectives
Students under this program are expected to acquire a solid theoretical foundation and systematic professional knowledge of high voltage and insulation technology; who are well-informed with current issues and developing trend both at home and abroad of the research field; who have the capability of independent analysis and the ability of solving technical problems and possess the scientific attitude and style of work of rigorous and practical nature; who are proficient in one foreign language and able to read references in foreign languages. Graduates are expected be capable of undertaking researches, teaching or engineering technology jobs in research institutes, educational departments and companies of related fields.
Years of Study
3 years
Major Research Fields
1. Gas Discharge and Its Application
2. Over-Voltage and Its Protection
3. Outer Insulation Characteristics of AC Power Transmission
4. On-Line Monitoring and Fault Diagnostic of Electric Equipments
Cultivation Mode
Students are required to draw up a working plan under the instruction of supervisors in the two weeks after registration and bound to participate in the stage assessment between the 13th and the 16th weeks in the third semester according toMaster Degree Candidate Medium-Term Screening Method of South China University of Technology and complete social practices before the 20th week in the third semester. Regular seminar reports are required. In-service graduates are excused from the required social practice.
Dissertation
Students are required to draw up the working plan of thesis writing and prepare Thesis Proposals between the 11th and 20th weeks in the third semester. Before applying for Thesis Defense, graduates are required to publish officially at least one academic paper in core journals both at home and abroad, or to have papers published or recruited in the paper collections of both national and international academic conferences. Thesis defense will be arranged according to Rules for the Implementation of Graduation Degrees of South China University of Technology and Regulations of the Applications for Thesis Defense of South China University of Technology on the completion of theses.
Curriculum
Compulsory Courses | Course Code | Course Title | Credit |
S0001001 | Scientific Socialism Theory and Practice | 1 | |
S0001002 | Introduction to Dialectics of Nature | 2 | |
S0002011 | First Foreign Language (Essential English) | 3 | |
S0003005 | Mathematical Modeling and Mathematical Experiment | 2 | |
S0808056 | Discussion on Gas Discharge | 2 | |
S0808062 | High Voltage Technology in DC Power Transmission | 2 | |
S0808066 | On-Line Monitoring and Fault Diagnostic of Electric Equipments | 2 | |
S0808067 | Outer Insulation of Electric Equipments | 2 | |
Optional Courses | S0001005 | Selected Readings of Classics of Law ? | 2 |
S0002014 | Cross-Culture Communication ? | 2 | |
S0003001 | Mathematical Statistics Theory and Method | 2 | |
S0003002 | Partial Differential Equation and Finite Element Analysis | 2 | |
S0003003 | Method of Mathematical Physics | 4 | |
S0003004 | Numerical Analysis (Basis of Science and Engineering Computation) | 2 | |
S0003006 | Fuzzy Mathematics | 3 | |
S0003007 | Matrix Analysis | 2 | |
S0003010 | Optimal Computation | 2 | |
S0003011 | Applied Modern Algebra | 2 | |
S0003012 | Stochastic Process | 2 | |
S0004013 | Principles of Economics | 2 | |
S0004015 | Principles of Management | 2 | |
S0004021 | Career Planning and Quality Cultivation | 2 | |
S0004022 | Opera Masterpieces | 2 | |
S0004027 | Experiment Design and Data Evaluation | 3 | |
S0004034 | Scientific Writing and Submission Guidance | 1 | |
S0808020 | Electric Power System Dynamic Simulation | 2 | |
S0808022 | Frontier Technology of Modern Electric Power System | 2 | |
S0808024 | Electric Power Market Operation and Enterprise Management | 2 | |
S0808059 | Optimal Power Flow Calculation of Large-Scale Power System | 2 | |
S0808063 | Numerical Simulation of Over Voltage of Electric Power System | 2 | |
S0808064 | Lightning Protection and Grounding Technology | 2 |