Master of Science in Electrical Power Engineering program - Curriculum Structure

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Master of Science in Electrical Power Engineering program

Curriculum Structure

The program 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. This is a two-year program spread over four semesters. A student needs to successfully complete 60 credit hours of course work, research and project work and Dissertation for graduation. 

Semester I

S.N.

Course Code

Course Title

Periods per week

Full Marks

No. of Credits

L

P

Total

Internal

Final

Total

1

EE 711

Optimization Techniques

4

 

4

50

50

100

4

2

EE 712

Computer Aided Power System Analysis

4

 

4

50

50

100

4

3

EE 713

Distribution System Planning and Design

4

 

4

50

50

100

4

4

EE 714

Advanced Power Electronics

4

 

4

50

50

100

4

Semester II

S. N.

Course Code

Course Title

Periods per week

Full Marks

No. of Credits

L

P

Total

Internal

Final

Total

1

EE 721

Power System Operation and Control

4

 

4

50

50

100

4

2

EE 722

Power System Reliability

4

 

4

50

50

100

4

3

EE 72…

Elective I

4

 

4

50

50

100

4

4

EE 72…

Elective II

4

 

4

50

50

100

4

Semester III

S. N.

Course Code

Course Title

Periods per week

Full Marks

No. of Credits

L

P

Total

Internal

Final

Total

1

EE 831

Project

4

 

4

100

-

100

4

2

EE 83…

Elective III

4

 

4

50

50

100

4

3

EE 83…

Elective IV

4

 

4

50

50

100

4

Semester IV

S. N.

Course Code

Course Title

Periods per week

Full Marks

No. of Credits

L

P

Total

Internal

Final

Total

1

EE 841

Thesis

 

 

16

200

200

400

16

S.No.

Course Code

Course Title

Course Credits

Elective I & II

1.

EE 723

Power System Dynamics and Stability

4 (Four)

2.

EE 724

Dynamic Modeling of Electrical Machines

4 (Four)

3.

EE 725

Electricity Markets

4 (Four)

4.

EE 726

FACTS and HVDC

4 (Four)

5.

EE 727

Extra HV AC Transmission

4 (Four)

6.

EE 728

AI Applications in Power Systems

4 (Four)

7.

EE 729

Distributed Generation Technology

4 (Four)

Elective III & IV

1.

EE 833

Smart Grids

4 (Four)

2.

EE 834

Electric Vehicle Technology

4 (Four)

3.

EE 835

Digital Protection of Power Systems

4 (Four)

4.

EE 836

Risk Assessment of Power Systems

4 (Four)

5.

EE 837

Power System Planning and Economics

4 (Four)

6.

EE 838

Project Appraisal Techniques

4 (Four)

7.

EE 839

Advanced Electrical Drives

4 (Four)

8.

EE 840

Power Quality and Harmonics

4 (Four)

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1 Syllabus