Power System Control and Stability, 2nd Edition
October 2002, Wiley-IEEE Press
* Examines the characteristics of the various components of a power system during normal operating conditions and during disturbances.
* Explores the detailed mathematical models of system components and analyzes the system behavior using the necessary computational tools.
Part I: Introduction.
Chapter 1: Power System Stability.
Chapter 2: The Elementary Mathematical Model.
Chapter 3: System Response to Small Disturbances.
Part II: The Electromagnetic Torque.
Chapter 4: The Synchronous Machine.
Chapter 5: The Simulation of Synchronous Machines.
Chapter 6: Linear Models of the Synchronous Machine.
Chapter 7: Excitation Systems.
Chapter 8: Effect of Excitation on Stability.
Chapter 9: Multimachine Systems with Constant Impedance Loads.
Part III: The Mechanical Torque Power System Control and Stability.
Chapter 10: Speed Governing.
Chapter 11: Steam Turbine Prime Movers.
Chapter 12: Hydraulic Turbine Prime Movers.
Chapter 13: Combustion Turbine and Combined-Cycle Power Plants.
Appendix A: Trigonometric Identities for Three-Phase Systems.
Appendix B: Some Computer Methods for Solving Differential Equations.
Appendix C: Normalization.
Appendix D: Typical System Data.
Appendix E: Excitation Control System Definitions.
Appendix F: Control System Components.
Appendix G: Pressure Control Systems.
Appendix H: The Governor Equations.
Appendix I: Wave Equations for a Hydraulic Conduit.
Appendix J: Hydraulic Servomotors.
A. A. Fouad is Distinguished Professor Emeritus of Engineering at Iowa State University. He has had more than 40 years experience in power system dynamics in teaching, research, and in industry. He is a fellow of IEEE, and is the recipient of the 1993 IEEE Power Engineering Educator Award, and the 1994 IEEE Herman Halperin Transmission and Distribution Award. In 1996 he was elected to membership of the US National Academy of Engineering.