Power system transients - Lecture supporting literature
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Lou van der Sluis - Transients in Power Systems
https://drive.google.com/file/d/1YLSup6idBiU9Hl4BK4atvlmOUCMP9qwc/view?usp=sharing
- Chapter 1 Basic Concepts and Simple Switching Transients - pages 1-2
- Chapter 1.1 SWITCHING AN LR CIRCUIT - pages 3-6
- Chapter 1.2 SWITCHING AN LC CIRCUIT - pages 6-8
- Chapter 1.3 SWITCHING AN RLC CIRCUIT - pages 9-13
- Chapter 2 Transient Analysis of Three-Phase Power Systems - pages 14-30
- Chapter 5 Switching Transients - page 83
- Chapter 5.1 INTERRUPTING CAPACITIVE CURRENTS - pages 84-91
- Chapter 5.4 TRANSFORMER INRUSH CURRENTS - pages 95-97
J. C. Das - Transients in Electrical Systems: Analysis, Recognition, and Mitigation
https://drive.google.com/file/d/1OMtZ4AJxUbIvWa2iIjrJjpUhL_iIlUTR/view?usp=sharing
- Chapter 1 Introduction to Transients - pages 1-3
- Chapter 2 Transients in Lumped Circuits - pages 5-18
- Chapter 4 Modeling of Transmission Lines and Cables for Transient Studies - pages 65-70
- Chapter 8 Current Interruption in AC Circuits - pages 181-189
- Chapter 9 Symmetrical and Unsymmetrical Short-Circuit Currents - pages 207-215
- Chapter 10 Transient Behavior of Synchronous Generators - pages 235-254
- Chapter 11 Transient Behavior of Induction and Synchronous Motors - pages 265-269, 279-283
- Chapter 12 Power System Stability - pages 293-302, 304-316
- Chapter 14 Transient Behavior of Transformers - pages 365-370
- Appendix A Differential Equations - pages 647-648
- Appendix B Laplace Transform - pages 659-661
- Appendix D Sequence Impedances of Transmissi on Lines and Cables
Peter W. Sauer and M. A. Pai - Power System Dynamics and Stability
https://drive.google.com/file/d/1A2RYb1hQkTFPRnbWVuCpVfdGvGotHfeo/view?usp=sharing
- Chapter 1 INTRODUCTION - pages 1-6
- Chapter 3 SYNCHRONOUS MACHINE MODELING - pages 23-25
Allan Greenwood - Electrical Transients in power Systems, Second Edition
https://drive.google.com/file/d/1E3_jB8e251oqwH-aSA11MmKM_Nw50QyK/view?usp=sharing
- Chapter 1 - Fundamental Notions about Electric Transients - pages 1-10
- Chapter 3 - Simple Switching Transients using Laplace Transformation - pages 37-46
- Chapter 6.5 - Transients in Three-Phase Circuits / The Symmetrical Component Method - pages 140-147
Prabha Kundur - Power System Stability and Control
https://drive.google.com/file/d/1NpujBmCRHYRV5ksIrJvIFgJSDzcATlMj/view?usp=sharing
- Chapter 2 - Introduction to Stability Problem
- 2.1 - Basic Concepts and Definitions
- 2.2 - Classification of Stability
- Chapter 3 - Synchronous Machine Theory and Modelling
- 3.1 - Physical description
- 3.2 - Mathematical Description
- 3.3 - dq0 Transformation
- 3.5 - Equivalent Circuits for Direct and Quadrature Axes
- 3.6 - Steady State Analysis
- 3.7 - Electrical Transient Performance Characteristics
- 3.7.1 - Short-Circuit in a Simple RL Circuit
- 3.7.2 - 3f Short-Circuit at Terminals of SM
- 3.9 - Equations of Motion
- Chapter 4 - Synchronous Machine Parameters
- Chapter 5 - Synchronous Machine Representation in Stability Studies
- 5.2 - Simplified model with amortisseurs neglected
- 5.3 - Constant flux linkage model
- Chapter 6 - AC Transmission
- 6.1 - Lines
- 6.2 - Transformers
- 6.3 - Transfer between active Sources
- 6.4 - Power Flow Analysis
- Chapter 12 - Small-Signal Stability
- 12.3 - Small-Signal Stability of single Machine infinite Bus System
- 12.5 - Power System Stabilizer
- Chapter 13 - Transient Stability
- 13.1 - Elementary view of transient Stability
- 13.3 - Simulation of Power System dynamic Response
- 13.4 - Analysis of unbalanced faults
- Chapter 17 - Methods of Improving Stability
- pages 1103 to 1160, but only most basic a conception parts of each subchapter