Contents:
Introduction to Power System Stability Problem
Solution of Switching Equation
The Equal Area Criterion for Stability
Transient Stability Analysis of a Multi Machine System
Modeling of Synchronous Machine
Synchronous Machine Representation for Stability Studies
Excitation Systems
Modeling of Excitation Systems
Small Signal Stability of a Single Machine Infinite Bus System
Dynamic Modeling of Steam turbines and Governors
Load modeling for Stability Studies
Numerical Integration Methods for Solving a Set of Ordinary Nonlinear Differential Equation
Simulation of Power System Dynamic Response
Dynamic Equivalents for Large Scale Systems
Direct Method of Transient Stability Analysis
Sub Synchronous Oscillations
Voltage Stability
Methods of Improving Stability

Other Resources

Course Curriculum

Lec-1 Introduction to Power System Stability Problem-Part-1 Details 52:8
Lec-2 Introduction to Power System Stability Problem-Part-2 Details 52:19
Lec-3 Introduction to Power System Stability Problem-Part-3 Details 41:55
Lec-4 Solution of Switching Equation Details 59:17
Lec-5 The Equal Area Criterion for Stability-Part-1 Details 52:42
Lec-6 The Equal Area Criterion for Stability-Part-2 Details 57:35
Lec-7 Transient Stability Analysis of a Multi Machine System Details 51:33
Lec-8 Modeling of Synchronous Machine-Part-1 Details 55:12
Lec-9 Modeling of Synchronous Machine-Part-2 Details 55:43
Lec-10 Modeling of Synchronous Machine-Part-3 Details 58:9
Lec-11 Modeling of Synchronous Machine-Part-4 Details 54:21
Lec-12 Synchronous Machine Representation for Stability Studies-Part-1 Details 55:4
Lec-13 Synchronous Machine Representation for Stability Studies-Part-2 Details 56:9
Lec-14 Excitation Systems-Part-1 Details 58:11
Lec-15 Excitation Systems-Part-2 Details 52:14
Lec-16 Modeling of Excitation Systems-Part-1 Details 56:41
Lec-17 Modeling of Excitation Systems-Part-2 Details 56:28
Lec-18 Small Signal Stability of a Single Machine Infinite Bus System-Part-1 Details 52:16
Lec-19 Small Signal Stability of a Single Machine Infinite Bus System-Part-2 Details 55:17
Lec-20 Small Signal Stability of a Single Machine Infinite Bus System-Part-3 Details 57:35
Lec-21 Small Signal Stability of a Single Machine Infinite Bus System-Part-4 Details 58:33
Lec-22 Small Signal Stability of a Single Machine Infinite Bus System-Part-5 Details 56:45
Lec-23 Dynamic Modeling of Steam turbines and Governors Details 51:38
Lec-24 Dynamic modeling of Hydro Turbines and Governors Details 47:2
Lec-25 Load modeling for Stability Studies Details 55:20
Lec-26 Numerical Integration Methods for Solving a Set of Ordinary Nonlinear Differential Equation Details 58:16
Lec-27 Simulation of Power System Dynamic Response Details 53:46
Lec-28 Dynamic Equivalents for Large Scale Systems-Part-1 Details 57:31
Lec-29 Dynamic Equivalents for Large Scale Systems-Part-2 Details 55:42
Lec-30 Dynamic Equivalents for Large Scale Systems-Part-3 Details 52:23
Lec-31 Direct Method of Transient Stability Analysis-Part-1 Details 55:57
Lec-32 Direct Method of Transient Stability Analysis-Part-2 Details 58:19
Lec-33 Sub Synchronous Oscillations-Part-1 Details 58:38
Lec-34 Sub Synchronous Oscillations-Part-2 Details 58:46
Lec-35 Voltage Stability-Part-1 Details 57:44
Lec-36 Voltage Stability-Part-2 Details 57:15
Lec-37 Voltage Stability-Part-3 Details 1:2
Lec-38 Voltage Stability-Part-4 Details 59:7
Lec-39 Methods of Improving Stability-Part-1 Details 1:13
Lec-40 Methods of Improving Stability-Part-2 Details 52:50

This video course is part of NPTEL courses delivered by IIT Delhi.

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