* Analyzes the dynamic performance of interconnected power systems.
* 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.
Preface
Part 1 : Introduction
Chapter 1 : Power System stability
Chapter 2 : The Elementary Mathematical Model
Chapter 3 : System Response to Small Disturbances
Part 2 : The Electromagnetic Torque
Chapter 4 : The Synchronous Machine
Chapter 5 : The Simulation of Synchronous Machine
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 3 : The Mechanical Torque Power System Control and Stability
Chapter 10 : Speed Governing
Chapter 11 : Steam Turbine Prime Movers
Chapter 12 : Hydraulic Turbine and Combined-Cycle Power Plants
Apendix A : Trigonometric Identities for Three-Phase Systems
Apendix B : Some Computer Methods for Solving Differential Equations
Apendix C : Normalization
Apendix D : Typical System Data
Apendix E : Excitation Control System Definitions
Apendix F : Control System Components
Apendix G : Pressure Control Systems
Apendix H : The Governor Equations
Apendix I : Wave Equations for a Hydraulic Conduit
Apendix J : Hydraulic Servomotrs
Index