Preface. -- 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. -- Index
Summary
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
Bibliography
Includes bibliographical references and index
Notes
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