Course Details
Subject {L-T-P / C} : EE6201 : Power System Analysis and Control { 3-0-0 / 3}
Subject Nature : Theory
Coordinator : Ananyo Sengupta
Syllabus
| Module 1 : |
Load Flow Analysis (8 Hours)
|
| Module 2 : |
Optimal Power Flow Analysis (6 Hours)
|
| Module 3 : |
Unit Commitment (10 Hours)
|
| Module 4 : |
Electricity Grid Management in India (3 Hours)
|
| Module 5 : |
Power System Security Analysis (5 Hours)
|
| Module 6 : |
Power System State Estimation (4 Hours)
|
Course Objective
| 1 . |
To explain the advanced power system analysis and control techniques used in industries for designing, planning and controlling power systems for secure and economic operation. |
Course Outcome
| 1 . |
At the end of the course, students will be able to
|
| 2 . |
Formulate and solve optimal power flow problems under system constraints using appropriate optimization techniques. |
| 3 . |
Evaluate unit commitment problems considering economic, technical, and operational constraints, and apply classical solution methods. |
| 4 . |
Interpret the Indian Electricity Grid Code and examine scheduling, dispatch, and tariff mechanisms in the context of national grid operations.
|
| 5 . |
Assess power system security through contingency analysis and ranking to support reliable grid operation. |
| 6 . |
Apply estimation techniques to determine system states and validate observability in large power networks. |
Essential Reading
| 1 . |
John Grainger, William Stevenson Jr, Power System Analysis, Mcgraw-HillEdition |
| 2 . |
Allen J. Wood, Bruce F. Wollenberg, Gerald B. Sheblé, Power Generation, Operation, and Control, Wiley |
Supplementary Reading
| 1 . |
Jos Arrillaga and C. P. Arnold, Computer Analysis of Power Systems, Wiley |
| 2 . |
Jizhong Zhu, Optimization of Power System Operation, Wiley |
Journal and Conferences
| 1 . |