| Titre : | Facts : modelling and simulation in power networks | | Type de document : | texte imprimé | | Auteurs : | Enrique Acha, Auteur ; Claudio R. Fuerte-Esquivel, Auteur ; Hugo Ambriz-Pérez, Auteur | | Editeur : | The Atrium, Chichester, England : John Wiley | | Année de publication : | 2004 | | Importance : | 403 p. | | Présentation : | couv. ill. en coul., ill. | | Format : | 25,1 | | ISBN/ISSN/EAN : | 978-0-470-85271-2 | | Langues : | Anglais (eng) | | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-05 Electronique de puissance et industrielle | | Résumé : | Flexible AC Transmission Systems (FACTS) controllers are revolutionising power transmission networks resulting in increased efficiency and stability. Covering the most popular FACTS models and their interaction with the power network, the book highlights the growing importance of this technology.
Provides a thorough grounding in the mathematical representation of FACTS controllers and power plant components.
Explains power plant component parameters calculations in both phase and sequence frames of reference.
Details conventional and three–phase power flows of FACTS–upgraded power systems.
Covers optimal power flows and advanced optimization techniques.
Includes a methodology on power tracing and application areas.
Enables the reader to gain first–hand experience thanks to provided test cases and software written in Matlab® code in most chapters.
Offering a comprehensive understanding of FACTS controllers with the power network, this book is an asset to electrical and electronic engineers involved in the planning, design and operation of power systems. Researchers and postgraduate students in the field will also benefit from this valuable reference. | | Note de contenu : | Table of contents
Preface.
1.Introduction.
2.Modelling of FACTS Controllers.
2.2 Modelling Philosophy
2.3 Controllers Based on Conventional Thyristors
2.4 Power Electronic Controllers Based on Fully Controlled Semiconductor Devices
2.5 Control Capabilities of Controllers Based on Voltage Source Converters
3.Modelling of Conventional Power Plant.
3.2 Transmission Line Modelling
3.3 Power Transformer Modelling
3.4 Rotating Machinery Modelling
3.5 System Load
4.Conventional Power Flow.
4.2 General Power Flow Concepts
4.3 Power Flow Solution Methods
4.4 Constrained Power Flow Solutions
4.5 Further Concepts in Power Flows
5.Power Flow including FACTS Controllers.
5.2 Power Flow Solutions Including FACTS Controllers
5.3 Static VAR Compensator
5.4 Thyristor-controlled Series Compensator
5.5 Static Synchronous Compensator
5.6 Unified Power Flow Controller
5.7 High-voltage Direct-current-based Voltage Source Convertes
5.8 Effective Initialisation of FACTS Controllers
6.Three-phase Power Flow.
6.2 Power Flow in the Phase Frame of Reference
6.3 Static VAR Compensator
6.4 Thyristor-controlled Series Compensator
6.5 Static Compensator
6.6 Unified Power Flow Controller
7.Optimal Power Flow.
7.2 Optimal Power Flow using Newton’s Method
7.3 Implementation of Optimal Power Flow using Newton’s Method
7.4 Power System Controller Representation in Optimal Power Flow Studies
7.5 Load Tap-changing Transformer
7.6 Phase-shifting Transformer
7.7 Static VAR Compensator
7.8 Thyristor-controlled Series Compensator
7.9 Unified Power Flow Controller
8.Power Flow Tracing.
8.2 Basic Assumptions
8.3 Mathematical Justification of the Proportional Sharing Principle
8.4 Dominions
8.5 Tracing Algorithm
8.6 Numerical Examples
Appendix A: Jacobian Elements for FACTS Controllers in Positive Sequence Power Flow.
Appendix B: Gradient and Hessian Elements for Optimal Power Flow Newton's Method.
Appendix C: Matlab® Computer Program for Optimal Power Flow Solutions using Newton's Method.
Index.
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Facts : modelling and simulation in power networks [texte imprimé] / Enrique Acha, Auteur ; Claudio R. Fuerte-Esquivel, Auteur ; Hugo Ambriz-Pérez, Auteur . - The Atrium, Chichester, England : John Wiley, 2004 . - 403 p. : couv. ill. en coul., ill. ; 25,1. ISBN : 978-0-470-85271-2 Langues : Anglais ( eng) | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-05 Electronique de puissance et industrielle | | Résumé : | Flexible AC Transmission Systems (FACTS) controllers are revolutionising power transmission networks resulting in increased efficiency and stability. Covering the most popular FACTS models and their interaction with the power network, the book highlights the growing importance of this technology.
Provides a thorough grounding in the mathematical representation of FACTS controllers and power plant components.
Explains power plant component parameters calculations in both phase and sequence frames of reference.
Details conventional and three–phase power flows of FACTS–upgraded power systems.
Covers optimal power flows and advanced optimization techniques.
Includes a methodology on power tracing and application areas.
Enables the reader to gain first–hand experience thanks to provided test cases and software written in Matlab® code in most chapters.
Offering a comprehensive understanding of FACTS controllers with the power network, this book is an asset to electrical and electronic engineers involved in the planning, design and operation of power systems. Researchers and postgraduate students in the field will also benefit from this valuable reference. | | Note de contenu : | Table of contents
Preface.
1.Introduction.
2.Modelling of FACTS Controllers.
2.2 Modelling Philosophy
2.3 Controllers Based on Conventional Thyristors
2.4 Power Electronic Controllers Based on Fully Controlled Semiconductor Devices
2.5 Control Capabilities of Controllers Based on Voltage Source Converters
3.Modelling of Conventional Power Plant.
3.2 Transmission Line Modelling
3.3 Power Transformer Modelling
3.4 Rotating Machinery Modelling
3.5 System Load
4.Conventional Power Flow.
4.2 General Power Flow Concepts
4.3 Power Flow Solution Methods
4.4 Constrained Power Flow Solutions
4.5 Further Concepts in Power Flows
5.Power Flow including FACTS Controllers.
5.2 Power Flow Solutions Including FACTS Controllers
5.3 Static VAR Compensator
5.4 Thyristor-controlled Series Compensator
5.5 Static Synchronous Compensator
5.6 Unified Power Flow Controller
5.7 High-voltage Direct-current-based Voltage Source Convertes
5.8 Effective Initialisation of FACTS Controllers
6.Three-phase Power Flow.
6.2 Power Flow in the Phase Frame of Reference
6.3 Static VAR Compensator
6.4 Thyristor-controlled Series Compensator
6.5 Static Compensator
6.6 Unified Power Flow Controller
7.Optimal Power Flow.
7.2 Optimal Power Flow using Newton’s Method
7.3 Implementation of Optimal Power Flow using Newton’s Method
7.4 Power System Controller Representation in Optimal Power Flow Studies
7.5 Load Tap-changing Transformer
7.6 Phase-shifting Transformer
7.7 Static VAR Compensator
7.8 Thyristor-controlled Series Compensator
7.9 Unified Power Flow Controller
8.Power Flow Tracing.
8.2 Basic Assumptions
8.3 Mathematical Justification of the Proportional Sharing Principle
8.4 Dominions
8.5 Tracing Algorithm
8.6 Numerical Examples
Appendix A: Jacobian Elements for FACTS Controllers in Positive Sequence Power Flow.
Appendix B: Gradient and Hessian Elements for Optimal Power Flow Newton's Method.
Appendix C: Matlab® Computer Program for Optimal Power Flow Solutions using Newton's Method.
Index.
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