Power System Dynamics and Control
Power System Dynamics and Control. Instructor: Prof. A. M. Kulkarni, Department of Electrical Engineering, IIT Bombay. This course introduces a student to power stability problems and the basic concepts of modeling and analysis of dynamical systems. Modeling of power system components - generators, transmission lines, excitation and prime mover controllers - is covered in detail. Stability of single machine and multi-machine systems is analyzed using digital simulation and small-signal analysis techniques. The impact of stability problems on power system planning, and operation is also brought out.
(from nptel.ac.in)
| Lecture 01 - Introduction |
| Lecture 02 - Introduction: Voltage and Frequency Stability, Control Hierarchy |
| Lecture 03 - Analysis of Dynamical Systems |
| Lecture 04 - Analysis of Dynamical Systems (cont.) |
| Lecture 05 - Analysis of Linear Time Invariant Dynamical Systems |
| Lecture 06 - Analysis of Linear Time Invariant Dynamical Systems (cont.) |
| Lecture 07 - Stiff Systems, Multi Time Scaling Modeling |
| Lecture 08 - Numerical Integration |
| Lecture 09 - Numerical Integration (cont.) |
| Lecture 10 - Numerical Integration (cont.) |
| Lecture 11 - Modeling of Synchronous Machines |
| Lecture 12 - Modeling of Synchronous Machines (cont.) |
| Lecture 13 - Modeling of Synchronous Machines (cont.) |
| Lecture 14 - Modeling of Synchronous Machines: dq0 Transformation |
| Lecture 15 - Modeling of Synchronous Machines: Standard Parameters |
| Lecture 16 - Modeling of Synchronous Machines: Standard Parameters (cont.) |
| Lecture 17 - Synchronous Generator Models using Standard Parameters |
| Lecture 18 - Synchronous Generator Models using Standard Parameters: Per Unit Representation |
| Lecture 19 - Open Circuit Response of a Synchronous Generator |
| Lecture 20 - Synchronous Machine Modelling: Short Circuit Analysis |
| Lecture 21 - Synchronous Machine Modelling: Short Circuit Analysis; Synchronization of a Synchronous Machine |
| Lecture 22 - Synchronization of a Synchronous Machine (cont.) |
| Lecture 23 - Simplified Synchronous Machine Models |
| Lecture 24 - Excitation Systems |
| Lecture 25 - Excitation System Modeling |
| Lecture 26 - Excitation System Modeling: Automatic Voltage Regulator |
| Lecture 27 - Excitation System Modeling: Automatic Voltage Regulator (cont.) |
| Lecture 28 - Excitation System Modeling: Automatic Voltage Regulator: Simulation |
| Lecture 29 - Excitation System Modeling: Automatic Voltage Regulator: Simulation (cont.) |
| Lecture 30 - Excitation System Modeling: Automatic Voltage Regulator: Linearized Analysis |
| Lecture 31 - Load Modeling |
| Lecture 32 - Induction Machines, Transmission Lines |
| Lecture 33 - Transmission Lines, Prime Mover System |
| Lecture 34 - Transmission Lines (cont.), Prime Mover Systems |
| Lecture 35 - Prime Mover Systems, Stability in Integrated Power System |
| Lecture 36 - Stability in Integrated Power System: Two Machine Example |
| Lecture 37 - Stability in Integrated Power System: Two Machine System (cont.) |
| Lecture 38 - Stability in Integrated Power System: Large Systems |
| Lecture 39 - Frequency/Angular Stability Programs, Stability Phenomena: Voltage Stability Example |
| Lecture 40 - Voltage Stability Example (cont.), Fast Transients: Tools and Phenomena |
| Lecture 41 - Torsional Transients: Phenomena of Sub-Synchronous Resonance |
| Lecture 42 - Sub-Synchronous Resonance, Stability Improvement |
| Lecture 43 - Stability Improvement |
| Lecture 44 - Stability Improvement, Power System Stabilizers |
| Lecture 45 - Stability Improvement (Large Disturbance Stability) |
| References |
Power System Dynamics and Control
Instructor: Prof. A M Kulkarni, Department of Electrical Engineering, IIT Bombay. This course introduces a student to power stability problems and the basic concepts of modeling and analysis of dynamical systems.
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