Power system stability and control / Prabha Kundur.

Contents: FOREWORD PREFACE PART I: CHARACTERISTICS OF MODERN POWER SYSTEMS 1. General Characteristics of Modern Power Systems 2. Introduction to the Power System Stability Problem PART II: EQUIPMENT CHARACTERISTICS AND MODELLING 3. Synchronous Machine Theory and Modelling 4. Synchronous Machine Parameters 5. Synchronous Machine Representation in Stability Studies 6.AC Transmission 7. Power System Loads 8. Excitation Systems 9. Prime Movers and Energy Supply Systems 10. High-Voltage Direct-Current Transmission 11. Control of Active Power and Reactive Power PART III:SYSTEM STABILITY: Physical aspects, analysis, and improvement 12. Small Signal Stability 13. Transient Stability 14. Voltage Stability 15. Subsynchronous Oscillations 16. Mid-Term and Long-Term Stability 17. Methods of Improving System Stability INDEX

Overview: Proven Solutions to Problems in electric power system stability and control Power System Stability and Control - A volume in the EPRI Power System Engineering Series Today's electric power systems are continually increasing in complexity due to interconnection growth, the use of new technologies, and financial and regulatory constraints. Sponsored by the Electric Power Research Institute, this expert engineering guide helps you deal effectively with stability and control problems resulting from these major changes in the industry. Power System Stability and Control contains the hands-on information you need to understand, model, analyze, and solve problems using the latest technical tools. You'll learn about the structure of modern power systems, the different levels of control, and the nature of stability problems you face in your day-to-day work. The book features a complete account of equipment characteristics and modeling techniques. Included is detailed coverage of generators, excitation systems, prime movers, ac and dc transmission, and system loads-plus principles of active and reactive power control, and models for control equipment. Different categories of power system stability are thoroughly covered with descriptions of numerous methods of analysis and control measures for mitigating the full spectrum of stability problems. This comprehensive source book is written from a pragmatic point of view, but without undue compromise in mathematical rigor. Filled with illustrative examples, it gives the necessary basic theory and insight into practical aspects.