Power System Dynamics and Control by Indian Institute of Technology Bombay
Power System Dynamics and Control free videos and free material uploaded by IIT Bombay Staff .
Introduction.
Analysis of Dynamical Systems.
Analysis of Dynamical Systems (Contd.).
Analysis of LINEAR Time Invariant Dynamical Systems.
Analysis of LINEAR Time Invariant Dynamical Systems (Contd.).
Stiff Systems, Multi Time Scale Modeling.
Numerical Integration.
Numerical Integration (Contd.).
Numerical Integration (Contd.).
Modeling of Synchronous Machines.
Modeling of Synchronous Machines (Contd.).
Modeling of Synchronous Machines (Contd.).
Modeling of Synchronous Machines. dq0 transformation (Contd.).
Modeling of Synchronous Machines. Standard Parameters.
Modeling of Synchronous Machines. Standard Parameters.
Synchronous Generator Models using Standard Parameters.
Synchronous Generator Models using Standard Parameters. PER UNIT REPRESENTATION.
Open Circuit Response of a Synchronous Generator.Synchronous Machine Modeling. Short Circuit Analysis (Contd.).
Synchronous Machine Modeling..
Synchronization of a Synchronous Machine (Contd.).
Simplified Synchronous Machine Models.
Excitation Systems.
Excitation System Modeling.
Excitation System Modeling. Automatic Voltage Regulator.
Excitation System Modeling. Automatic Voltage Regulator (Contd.).
Excitation System Modeling. Automatic Voltage Regulator (Simulation).
Excitation System Modeling. Automatic Voltage Regulator (Simulation) – Contd..
Excitation System Modeling. Automatic Voltage Regulator. Linearized Analysis.
Load Modeling.
Induction Machines, Transmission Lines.
Transmission Lines. Prime Mover Systems.
Transmission Lines (Contd.). Prime Mover Systems.
Prime Mover Systems. Stability in Integrated Power System.
Stability in Integrated Power System: Two Machine Example.
Two Machine System (Contd.).
Stability in Integrated Power System: Large Systems.
Frequency/Angular Stability Programs. Stability Phenomena: Voltage Stability Example.
Voltage Stability Example (Contd.). Fast Transients: Tools and Phenomena.
Torsional Transients: Phenomena of Sub-Synchronous Resonance. Sub-Synchronous Resonance. Stability Improvement.
Stability Improvement.
Stability Improvement. Power System Stabilizers. Stability Improvement (Large Disturbance Stability).
This course first 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.
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