Power System Stability Modelling, analysis and control

To ensure stable operation of a power system, it is necessary to analyse the power system performance under various operating conditions. Analysis includes studies such as power flow and both steady-state and transient stability. To perform such studies requires knowledge about the models used to re...

Full description

Saved in:
Bibliographic Details
Main Authors Sallam, Abdelhay A., Malik, Om P.
Format eBook Book
LanguageEnglish
Published Stevenage The Institution of Engineering and Technology 2015
Institution of Engineering and Technology (The IET)
Institution of Engineering and Technology
Institution of Engineering & Technology
Edition1
SeriesIET power and energy series
Subjects
Electric power system stability
Electrical
Electrical & Power Engineering
Power Generation and Transmission
Power networks, systems, stations & plants
Power Resources
TECHNOLOGY & ENGINEERING
power system stability
power flow
transformer modelling
stability enhancement
series compensation
transient stability
shunt compensation
compensation devices
transmission lines
synchronous machine
Power System Stability Modelling, analysis and control
Online AccessGet full text
ISBN9781849199445
1849199442
DOI10.1049/PBPO076E

Cover

Table of Contents:
  • Chapter 1: Power system stability overview -- Part I: Modelling -- Chapter 2: Modelling of the synchronous machine -- Chapter 3: Synchronous machine connected to a power system -- Chapter 4: Modelling of transformers, transmission lines and loads -- Part II: Power flow -- Chapter 5: Power flow analysis -- Chapter 6: Optimal power flow -- Part III: Stability analysis -- Chapter 7: Small signal stability -- Chapter 8: Transient stability -- Chapter 9: Transient energy function methods -- Part IV: Stability enhancement and control -- Chapter 10: Artificial intelligence techniques -- Chapter 11: Power system stabiliser -- Chapter 12: Series compensation -- Chapter 13: Shunt compensation -- Chapter 14: Compensation devices -- Chapter 15: Recent technologies -- Appendix I: Calculation of synchronous machine parameters in per unit/normalised form -- Appendix II: Nine-bus test system -- Appendix III: Numerical integration techniques -- Appendix IV: 15-bus, 4-generator system data
  • Title Page Preface Table of Contents 1. Power System Stability Overview 2. Modelling of the Synchronous Machine 3. Synchronous Machine Connected to a Power System 4. Modelling of Transformers, Transmission Lines and Loads 5. Power Flow Analysis 6. Optimal Power Flow 7. Small Signal Stability 8. Transient Stability 9. Transient Energy Function Methods 10. Artificial Intelligence Techniques 11. Power System Stabiliser 12. Series Compensation 13. Shunt Compensation 14. Compensation Devices 15. Recent Technologies Appendices Index
  • Intro -- Contents -- Preface -- 1. Power system stability overview -- Part I. Modelling -- 2. Modelling of the synchronous machine -- 3. Synchronous machine connected to a power system -- 4. Modelling of transformers, transmission lines and loads -- Part II. Power flow -- 5. Power flow analysis -- 6. Optimal power flow -- Part III. Stability analysis -- 7. Small signal stability -- 8. Transient stability -- 9. Transient energy function methods -- Part IV. Stability enhancement and control -- 10. Artificial intelligence techniques -- 11. Power system stabiliser -- 12. Series compensation -- 13. Shunt compensation -- 14. Compensation devices -- 15. Recent technologies -- Appendix I. Calculation of synchronous machine parameters in per unit/normalised form -- Appendix II. Nine-bus test system -- Appendix III. Numerical integration techniques -- Appendix IV. 15-bus, 4-generator system data -- Index