Helps engineers understand, model, analyze and solve the problems that are occurring with greater frequency in electrical power system reliability and control. Part I: Characteristics of Modern Power Systems; Introduction to the Power System Stability Problem; Part II: Synchronous Machine Theory and Modeling; Synchronous Machine Parameters; Synchronous Machine Representation in Stability Studies; AC Transmission; Power System Loads; Excitation in Stability Studies; Prime Mover and Energy Supply Systems; High-Voltage Direct ...
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Helps engineers understand, model, analyze and solve the problems that are occurring with greater frequency in electrical power system reliability and control. Part I: Characteristics of Modern Power Systems; Introduction to the Power System Stability Problem; Part II: Synchronous Machine Theory and Modeling; Synchronous Machine Parameters; Synchronous Machine Representation in Stability Studies; AC Transmission; Power System Loads; Excitation in Stability Studies; Prime Mover and Energy Supply Systems; High-Voltage Direct Current Transmission; Control of Active Power and Reactive Power; Part III: Small Signal Stability; Transient Stability; Voltage Stability; Synchronous Oscillations; Mid-Term and Long-Term Stability; Methods of Improving System Stability. Index. Illustrations.
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