The university is committed to introduce new program M.Sc. Electrical Engineering in Electrical Power System Engineering from 2019 February –March which will be new program in our contest. The Master’s programme in Electric Power system engineering covers courses in Electric Power Engineering including systems and components where electricity is principally used to transfer energy. The programme is concerned with understanding, modelling and analysing a wide range of topics related to design, operation, and control of individual power system components as well as power system in its entirety. After successful completion of the programme, participants shall be able to pursue a professional career in industry as well as an academic research career. An important influence of this master programme is real life problem based learning including case studies and problem solving with quantitative and qualitative models using commercially available modelling software.
The course structure is based on the Semester system. Each Year is divided in first and second Semester. In first year first semester, five core courses are offered and in second semester, four core courses are offered. Three different elective subjects are offered in second semester and students can choose any one of them. The second year, first semester consists of two regular courses and six electives from different fields are offered in this semester and students can chose two of them. The second year second semester is entirely allocated for dissertation work. The dissertation shall be individual’s work and be entirely research based . Students shall be encouraged to publish research papers in national and international journals as a outcome of their dissertation work.
The Master of Science in Electrical Engineering in Power System (M.Sc. EEPS) program focuses in providing a domain capability to each student that allows them to have a meaningful career in power system analysis, design and development, making reliable and economic power system. The course offers several optional and self-contained modules in the field of Power System Engineering. Different areas, such as power system dynamics, power electronics in power system, operation and control of power system, power quality and many more are covered through different modules of this program. The specific objectives of the program are as follows:
The curriculum is designed to equip students with the competencies, knowledge, skills, and attitudes needed for success in technical positions. The coursework gives students a broad and holistic view of the complexity of technologies concerning different power system analysis and design in today’s world. The curriculum comprises the following distinct components
Year 1 –Semester -1 | |||||
S.No. | Course Code | Course | Credit | Contact hr/week | Type |
1 | EEPS | Computer Aided Power System Analysis | 4-0-2 | 6 | C |
2 | EEPS | Distribution System planning and Design | 3-0-0 | 3 | C |
3 | EEPS | Advanced Power Electronics | 3-0-2 | 5 | C |
4 | EEPS | Optimization Techniques | 3-0-0 | 3 | C |
5 | EEPS | Power Market and Deregulation | 3-0-0 | 3 | C |
16 | 20 |
Year 1 –Semester -2 | |||||
S.No. | Course Code | Course | Credit | Contact hr/week | Type |
1 | EEPS | Power System Dynamics and Stability | 4-0-2 | 6 | C |
2 | EEPS | Advanced High Voltage Engineering | 3-0-0 | 3 | C |
3 | EEPS | Power System Operation And Control | 3-0-0 | 3 | C |
4 | EEPS | Project | 2-0-0 | 2 | C |
5 | EEPS | Elective I | 3-0-0 | 3 | E |
15 | 17 |
Year 2–Semester -1 | |||||
S.No. | Course Code | Course | Credit | Contact hr/week | Type |
1 | EEPS | Power System Reliability | 3-0-0 | 3 | C |
2 | EEPS | Engineering Project Management | 3-0-0 | 3 | C |
3 | EEPS | Seminar | 2-0-0 | 2 | C |
4 | EEPS | Elective II | 3-0-0 | 3 | E |
5 | EEPS | Elective III | 3-0-0 | 3 | E |
14 | 14 |
Year 2–Semester -2 | |||||
S.No. | Course Code | Course | Credit | Contact hr/week | Type |
1 | EEPS | Dissertation | 15-0-0 | 15 | |
15 | 15 | ||||
Total Credit | 60 |
Electives | ||
Elective 1 | Elective 2 | Elective 3 |
Electrical Drives | Adv. Power System Protection | Power Quality and Harmonics |
Dynamic Modeling of Electrical Machines | Distributed Generation and Micro Grid | Artificial Intelligence |
FACTS and HVDC in Electric Power Systems | Risk Assessments of Power system | Social and environment impact of Engineering System |
Micro Controller and DSP based System Design | Non Linear Control system design | Renewable Energy Sources and Grid Integration |
The main objective of Master’s Degree Dissertation is to carry out original research work concerning Electrical Power related problems and solve those problems. Seminar course is also integral part of the dissertation which is introduced in second semester . In seminar work , the student shall complete the partial work of the dissertation which will consist of problem statement, literature review, project overview, scheme of implementation (Mathematical Model/block diagram, etc.) and Design of the Set-up. As a part of the progress report of seminar course, the candidate shall deliver a presentation on the advancement in Technology pertaining to the selected dissertation topic. The student shall submit the proposal in standard format for satisfactory completion of the work by the consulting supervisor by the end of 2nd . Project work is introduced in third Semester which is integral part of the dissertation . The student must defend the dissertation at end of 4th semester .Seminars, project works and dissertation will be evaluated by the panel of experts on the basics of Quality of Literature survey and Novelty in the topic, Relevance to the specialization , Understanding of the topic, validation of the results and Quality of Written and Oral Presentation. Students are eligible for final defense of the dissertation only completing all courses of the program.