| Titre : | Power system control and stability | | Type de document : | texte imprimé | | Auteurs : | P.M. Anderson, Auteur ; A.A. Fouad, Auteur | | Mention d'édition : | 2 ème ed. | | Editeur : | Boca Raton; London; New York : CRC Press | | Année de publication : | 2003 | | Collection : | Electric Power Engineering Series | | Importance : | 658 p. | | Présentation : | couv. ill. en coul., ill. | | Format : | 26 cm. | | ISBN/ISSN/EAN : | 978-0-471-23862-1 | | Langues : | Anglais (eng) | | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-03 Machines éléctriques | | Résumé : | Leading-edge coverage of modeling of the power system stability problem
Providing a comprehensive description of the dynamic condition of the power system, this new edition of an industry-standard text presents critical information on synchronous generators and their excitation systems, as well as extensive material on mathematical modeling of these critical components. It offers up-to-date treatment of the modeling of the power system stability problem–from the generator to the transmission system to the electrical loads.
Fully updated and expanded to include the latest developments in the field, Power System Control and Stability, Second Edition describes the mechanical system that drives the electric generators, and the dynamic reaction between the prime mover and generator systems. It explains how to:
Analyze the dynamic performance of interconnected power systems
Examine the characteristics of the various components of a power system during normal operating conditions and during disturbances
Explore detailed mathematical models of system components and analyze system behavior using the necessary computational tools
Written for practicing engineers in the electric power industry as well as advanced students interested in power system dynamic behavior, this must-have guide will help you understand the dynamic performance of power systems. | | Note de contenu : | Contents:
Pt. I Introduction
Ch. 1 Power System Stability
Ch. 2 The Elementary Mathematical Model
Ch. 3 System Response to Small Disturbances
Pt. II The Electromagnetic Torque
Ch. 4 The Synchronous Machine
Ch. 5 The Simulation of Synchronous Machines
Ch. 6 Linear Models of the Synchronous Machine
Ch. 7 Excitation Systems
Ch. 8 Effect of Excitation on Stability
Ch. 9 Multimachine Systems with Constant Impedance Loads
Pt. III The Mechanical Torque Power System Control and Stability
Ch. 10 Speed Governing
Ch. 11 Steam Turbine Prime Movers
Ch. 12 Hydraulic Turbine Prime Movers
Ch. 13 Combustion Turbine and Combined-Cycle Power Plants
App. A Trigonometric Identities for Three-Phase Systems
App. B Some Computer Methods for Solving Differential Equations
App. C: Normalization
App. D: Typical System Data
App. E Excitation Control System Definitions
App. F Control System Components
App. G Pressure Control Systems
App. H The Governor Equations
App. I Wave Equations for a Hydraulic Conduit
App. J Hydraulic Servomotors
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Power system control and stability [texte imprimé] / P.M. Anderson, Auteur ; A.A. Fouad, Auteur . - 2 ème ed. . - Boca Raton; London; New York : CRC Press, 2003 . - 658 p. : couv. ill. en coul., ill. ; 26 cm.. - ( Electric Power Engineering Series) . ISBN : 978-0-471-23862-1 Langues : Anglais ( eng) | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-03 Machines éléctriques | | Résumé : | Leading-edge coverage of modeling of the power system stability problem
Providing a comprehensive description of the dynamic condition of the power system, this new edition of an industry-standard text presents critical information on synchronous generators and their excitation systems, as well as extensive material on mathematical modeling of these critical components. It offers up-to-date treatment of the modeling of the power system stability problem–from the generator to the transmission system to the electrical loads.
Fully updated and expanded to include the latest developments in the field, Power System Control and Stability, Second Edition describes the mechanical system that drives the electric generators, and the dynamic reaction between the prime mover and generator systems. It explains how to:
Analyze the dynamic performance of interconnected power systems
Examine the characteristics of the various components of a power system during normal operating conditions and during disturbances
Explore detailed mathematical models of system components and analyze system behavior using the necessary computational tools
Written for practicing engineers in the electric power industry as well as advanced students interested in power system dynamic behavior, this must-have guide will help you understand the dynamic performance of power systems. | | Note de contenu : | Contents:
Pt. I Introduction
Ch. 1 Power System Stability
Ch. 2 The Elementary Mathematical Model
Ch. 3 System Response to Small Disturbances
Pt. II The Electromagnetic Torque
Ch. 4 The Synchronous Machine
Ch. 5 The Simulation of Synchronous Machines
Ch. 6 Linear Models of the Synchronous Machine
Ch. 7 Excitation Systems
Ch. 8 Effect of Excitation on Stability
Ch. 9 Multimachine Systems with Constant Impedance Loads
Pt. III The Mechanical Torque Power System Control and Stability
Ch. 10 Speed Governing
Ch. 11 Steam Turbine Prime Movers
Ch. 12 Hydraulic Turbine Prime Movers
Ch. 13 Combustion Turbine and Combined-Cycle Power Plants
App. A Trigonometric Identities for Three-Phase Systems
App. B Some Computer Methods for Solving Differential Equations
App. C: Normalization
App. D: Typical System Data
App. E Excitation Control System Definitions
App. F Control System Components
App. G Pressure Control Systems
App. H The Governor Equations
App. I Wave Equations for a Hydraulic Conduit
App. J Hydraulic Servomotors
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