| Titre : | Introduction to FACTS Controllers : theory, modeling, and applications | | Type de document : | texte imprimé | | Auteurs : | Kalyan K. Sen, Auteur ; Mey Ling Sen, Auteur | | Editeur : | Hoboken : John Wiley & Sons | | Année de publication : | 2009 | | Collection : | IEEE Press Séries on Power Engineering | | Importance : | 521 p. | | Présentation : | couv. ill. en coul., ill. | | Format : | 24,1 cm. | | ISBN/ISSN/EAN : | 978-0-470-47875-2 | | Langues : | Anglais (eng) | | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-05 Electronique de puissance et industrielle | | Résumé : | Demystifies FACTS controllers, offering solutions to power control and power flow problems
Flexible alternating current transmission systems (FACTS) controllers represent one of the most important technological advances in recent years, both enhancing controllability and increasing power transfer capacity of electric power transmission networks. This timely publication serves as an applications manual, offering readers clear instructions on how to model, design, build, evaluate, and install FACTS controllers. Authors Kalyan Sen and Mey Ling Sen share their two decades of experience in FACTS controller research and implementation, including their own pioneering FACTS design breakthroughs.
Readers gain a solid foundation in all aspects of FACTS controllers, including:
Basic underlying theories
Step-by-step evolution of FACTS controller development
Guidelines for selecting the right FACTS controller
Sample computer simulations in EMTP programming language
Key differences in modeling such FACTS controllers as the voltage regulating transformer, phase angle regulator, and unified power flow controller
Modeling techniques and control implementations for the three basic VSC-based FACTS controllers—STATCOM, SSSC, and UPFC
In addition, the book describes a new type of FACTS controller, the Sen Transformer, which is based on technology developed by the authors. An appendix presents all the sample models that are discussed in the book, and the accompanying FTP site offers many more downloadable sample models as well as the full-color photographs that appear throughout the book.
This book is essential reading for practitioners and students of power engineering around the world, offering viable solutions to the increasing problems of grid congestion and power flow limitations in electric power transmission systems. | | Note de contenu : | Contents:
1. Applications of FACTS Controllers
2. Power Flow Control Concepts
2.1Theory
2.2Implementation of Power Flow Control Concepts
2.3Interline Power Flow Concept
3. Modeling Principles
3.1The Modeling in EMTP
3.2Vector Phase-Locked Loop (VPLL)
3.3Transmission Line Steady-State Resistance Calculator
3.4Simulation of an Independent PFC in a Single Line Application
4. Transformer-Based FACTS Controllers
4.1Voltage Regulating Transformer (VRT)
4.2Phase Angle Regulator (PAR)
5. Mechanically Switched FACTS Controllers
5.1Shunt Compensation
5.1.1Mechanically Switched Capacitor (MSC)
5.1.2Mechanically Switched Reactor (MSR)
5.2Series Compensation
5.2.1Mechanically Switched Reactor (MSR)
5.2.2Mechanically Switched Capacitor (MSC) with a Reactor
6. Voltage-Sourced Converter (VSC)
6.1Modeling an Ideal VSC
6.2DC-to-AC VSC
7. Two-Level Pole Design
7.1A Three-Phase, Six-Pulse VSC with Two-Level Poles
7.2Analysis of a Pole
8. VSC-Based FACTS Controllers
8.1Shunt Compensation
8.2Series Compensation
8.2.1Static Synchronous Series Compensator (SSSC)
8.2.2Control of SSSC
8.2.3Modeling of SSSC in EMTP and Simulation Results
8.2.4Stable Reversal of Power Flow
8.3Shunt–Series Compensation Using a Unified Power Flow Controller (UPFC)
9. Sen Transformer3079.1Existing Solutions
9.1.1Voltage Regulation
9.1.2Phase Angle Regulation
9.2Desired Solution
9.2.1ST as a New Voltage Regulator
9.2.2ST as an Independent PFC
9.2.3Control of ST
9.3Comparison Among the VRT, PAR, UPFC, and ST
9.4Multiline Sen Transformer
9.5Flexible Operation of the ST
9.6ST with Shunt-Connected Compensating Voltages
9.7Limited Angle Operation of the ST with Shunt-Connected Compensating Voltages
9.8MST with Shunt-Connected Compensating Voltages
9.9Generalized Sen Transformer
APPENDIX A. Miscellaneous
APPENDIX B. Power Flow Control Equations in a Lossy Transmission Line
APPENDIX C. EMTP Files |
Introduction to FACTS Controllers : theory, modeling, and applications [texte imprimé] / Kalyan K. Sen, Auteur ; Mey Ling Sen, Auteur . - Hoboken : John Wiley & Sons, 2009 . - 521 p. : couv. ill. en coul., ill. ; 24,1 cm.. - ( IEEE Press Séries on Power Engineering) . ISBN : 978-0-470-47875-2 Langues : Anglais ( eng) | Catégories : | ELECTROTECHNIQUE
| | Index. décimale : | 10-05 Electronique de puissance et industrielle | | Résumé : | Demystifies FACTS controllers, offering solutions to power control and power flow problems
Flexible alternating current transmission systems (FACTS) controllers represent one of the most important technological advances in recent years, both enhancing controllability and increasing power transfer capacity of electric power transmission networks. This timely publication serves as an applications manual, offering readers clear instructions on how to model, design, build, evaluate, and install FACTS controllers. Authors Kalyan Sen and Mey Ling Sen share their two decades of experience in FACTS controller research and implementation, including their own pioneering FACTS design breakthroughs.
Readers gain a solid foundation in all aspects of FACTS controllers, including:
Basic underlying theories
Step-by-step evolution of FACTS controller development
Guidelines for selecting the right FACTS controller
Sample computer simulations in EMTP programming language
Key differences in modeling such FACTS controllers as the voltage regulating transformer, phase angle regulator, and unified power flow controller
Modeling techniques and control implementations for the three basic VSC-based FACTS controllers—STATCOM, SSSC, and UPFC
In addition, the book describes a new type of FACTS controller, the Sen Transformer, which is based on technology developed by the authors. An appendix presents all the sample models that are discussed in the book, and the accompanying FTP site offers many more downloadable sample models as well as the full-color photographs that appear throughout the book.
This book is essential reading for practitioners and students of power engineering around the world, offering viable solutions to the increasing problems of grid congestion and power flow limitations in electric power transmission systems. | | Note de contenu : | Contents:
1. Applications of FACTS Controllers
2. Power Flow Control Concepts
2.1Theory
2.2Implementation of Power Flow Control Concepts
2.3Interline Power Flow Concept
3. Modeling Principles
3.1The Modeling in EMTP
3.2Vector Phase-Locked Loop (VPLL)
3.3Transmission Line Steady-State Resistance Calculator
3.4Simulation of an Independent PFC in a Single Line Application
4. Transformer-Based FACTS Controllers
4.1Voltage Regulating Transformer (VRT)
4.2Phase Angle Regulator (PAR)
5. Mechanically Switched FACTS Controllers
5.1Shunt Compensation
5.1.1Mechanically Switched Capacitor (MSC)
5.1.2Mechanically Switched Reactor (MSR)
5.2Series Compensation
5.2.1Mechanically Switched Reactor (MSR)
5.2.2Mechanically Switched Capacitor (MSC) with a Reactor
6. Voltage-Sourced Converter (VSC)
6.1Modeling an Ideal VSC
6.2DC-to-AC VSC
7. Two-Level Pole Design
7.1A Three-Phase, Six-Pulse VSC with Two-Level Poles
7.2Analysis of a Pole
8. VSC-Based FACTS Controllers
8.1Shunt Compensation
8.2Series Compensation
8.2.1Static Synchronous Series Compensator (SSSC)
8.2.2Control of SSSC
8.2.3Modeling of SSSC in EMTP and Simulation Results
8.2.4Stable Reversal of Power Flow
8.3Shunt–Series Compensation Using a Unified Power Flow Controller (UPFC)
9. Sen Transformer3079.1Existing Solutions
9.1.1Voltage Regulation
9.1.2Phase Angle Regulation
9.2Desired Solution
9.2.1ST as a New Voltage Regulator
9.2.2ST as an Independent PFC
9.2.3Control of ST
9.3Comparison Among the VRT, PAR, UPFC, and ST
9.4Multiline Sen Transformer
9.5Flexible Operation of the ST
9.6ST with Shunt-Connected Compensating Voltages
9.7Limited Angle Operation of the ST with Shunt-Connected Compensating Voltages
9.8MST with Shunt-Connected Compensating Voltages
9.9Generalized Sen Transformer
APPENDIX A. Miscellaneous
APPENDIX B. Power Flow Control Equations in a Lossy Transmission Line
APPENDIX C. EMTP Files |
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