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Full Description
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 represent the various components that constitute an integrated power system. In situations where there is a risk of loss of stability, it is necessary to apply controls that can ensure stable and uninterrupted supply of electricity following a disturbance.
The subject of stability thus encompasses modelling, computation of load flow in the transmission grid, stability analysis under both steady-state and disturbed conditions, and appropriate controls to enhance stability. All these topics are covered in this book, providing a comprehensive treatment of the overall subject of stability of power systems. Topics covered include modelling of the synchronous machine; the synchronous machine connected to power systems; modelling of transformers, transmission lines and loads; power flow analysis; optimal power flow; small signal stability; transient stability; transient energy function methods; artificial intelligent techniques; power system stabilizers; series compensation; shunt compensation; compensation devices; and recent technologies.
The subject matter is covered at a level that is suitable for students, scientists and engineers involved in the study, design, analysis and control of power systems.
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
