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Power System Analysis

Power System Analysis. Instructor: Prof. A. K. Sinha, Department of Electronic and Electrical Communication Engineering, IIT Kharagpur. This course provides an overview of the interconnected power system operation and discusses some aspects of the modern methods of power system analysis and design. Topics covered in this course include Transmission line parameters and modeling, Modeling of transformers, Newton-Raphson method for power flow, Short circuit analysis, Sequence networks, Unbalanced fault analysis, and Power system stability. (from nptel.ac.in)

Lecture 28 - Unbalanced Fault Analysis


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Lecture 01 - Introduction
Lecture 02 - Power System Representation
Lecture 03 - Transmission Line Parameters
Lecture 04 - Inductance Calculation (Three Phase)
Lecture 05 - Transmission Line Capacitance
Lecture 06 - Transmission Line Capacitance (cont.)
Lecture 07 - Transmission Line Modeling
Lecture 08 - Transmission Line Modeling: Long Line
Lecture 09 - Transmission Line Steady State Operation
Lecture 10 - Transmission Line Steady State Operation: Voltage Control
Lecture 11 - Transmission System: A Review
Lecture 12 - Transformer Model
Lecture 13 - Synchronous Machine Model
Lecture 14 - Synchronous Machine Model (cont.)
Lecture 15 - Load Model
Lecture 16 - Power Flow
Lecture 17 - Power Flow (cont.)
Lecture 18 - Power Flow Solution Methods
Lecture 19 - Power Flow: Computation of Jacobian Matrix for Newton-Raphson Method
Lecture 20 - Power Flow Analysis: Computational Aspects of Newton Raphson Method
Lecture 21 - Power Flow for Large Power Systems, Sparse Matrix Methods
Lecture 22 - Power Flow Solution for Large Power Systems
Lecture 23 - Review of Power System Component Models
Lecture 24 - Review of Power Flow Study
Lecture 25 - Short Circuit Analysis
Lecture 26 - Symmetrical Component Analysis
Lecture 27 - Sequence Networks
Lecture 28 - Unbalanced Fault Analysis
Lecture 29 - Unbalanced Fault Analysis (cont.)
Lecture 30 - Fault Analysis for Large Power Systems
Lecture 31 - Bus Impedance Matrix
Lecture 32 - Asymmetrical Fault Analysis Using Z Bus
Lecture 33 - Power System Stability
Lecture 34 - Power System Stability: Swing Equation, Single Machine connected to Infinite Bus System
Lecture 35 - Power System Stability: Small Signal Stability
Lecture 36 - Power System Stability: Large Signal Stability, Equal Area Criterion
Lecture 37 - Power System Stability: Equal Area Criterion (cont.)
Lecture 38 - Power System Stability: Equal Area Criterion (cont.)
Lecture 39 - Power System Stability: Numerical Solution of the Swing Equation
Lecture 40 - Power System Stability: Voltage Stability