Power System Dynamics
Offered By: NPTEL via YouTube
Course Description
Overview
Instructor: Prof. M. L. Kothari, Department of Electrical Engineering, IIT Delhi.
The modern power systems are very widely interconnected. This large scale interconnections cause stability problems in power systems. This course covers lessons in power system stability, modelling of synchronous machine, excitation systems, load modelling for stability, voltage stability and methods of improving stability.
Syllabus
Lec-1 Introduction to Power System Stability Problem-Part-1.
Lec-2 Introduction to Power System Stability Problem-Part-2.
Lec-3 Introduction to Power System Stability Problem-Part-3.
Lec-4 Solution of Switching Equation.
Lec-5 The Equal Area Criterion for Stability-Part-1.
Lec-6 The Equal Area Criterion for Stability-Part-2.
Lec-7 Transient Stability Analysis of a Multi Machine System.
Lec-8 Modeling of Synchronous Machine-Part-1.
Lec-9 Modeling of Synchronous Machine-Part-2.
Lec-10 Modeling of Synchronous Machine-Part-3.
Lec-11 Modeling of Synchronous Machine-Part-4.
Lec-12 Synchronous Machine Representation for Stability Studies-Part-1.
Lec-13 Synchronous Machine Representation for Stability Studies-Part-2.
Lec-14 Excitation Systems-Part-1.
Lec-15 Excitation Systems-Part-2.
Lec-16 Modeling of Excitation Systems-Part-1.
Lec-17 Modeling of Excitation Systems-Part-2.
Lec-18 Small Signal Stability of a Single Machine Infinite Bus System-Part-1.
Lec-19 Small Signal Stability of a Single Machine Infinite Bus System-Part-2.
Lec-20 Small Signal Stability of a Single Machine Infinite Bus System-Part-3.
Lec-21 Small Signal Stability of a Single Machine Infinite Bus System-Part-4.
Lec-22 Small Signal Stability of a Single Machine Infinite Bus System-Part-5.
Lec-23 Dynamic Modeling of Steam turbines and Governors.
Lec-24 Dynamic modeling of Hydro Turbines and Governors.
Lec-25 Load modeling for Stability Studies.
Lec-26 Numerical Integration Methods for Solving a Set of Ordinary Nonlinear Differential Equation.
Lec-27 Simulation of Power System Dynamic Response.
Lec-28 Dynamic Equivalents for Large Scale Systems-Part-1.
Lec-29 Dynamic Equivalents for Large Scale Systems-Part-2.
Lec-30 Dynamic Equivalents for Large Scale Systems-Part-3.
Lec-31 Direct Method of Transient Stability Analysis-Part-1.
Lec-32 Direct Method of Transient Stability Analysis-Part-2.
Lec-33 Sub Synchronous Oscillations-Part-1.
Lec-34 Sub Synchronous Oscillations-Part-2.
Lec-35 Voltage Stability-Part-1.
Lec-36 Voltage Stability-Part-2.
Lec-37 Voltage Stability-Part-3.
Lec-38 Voltage Stability-Part-4.
Lec-39 Methods of Improving Stability-Part-1.
Lec-40 Methods of Improving Stability-Part-2.
Taught by
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