Introduction to facts controllers theory, modeling, and applications
emystifies 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 ca...
| Other Authors: | , |
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| Format: | Book |
| Language: | Spanish English |
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Table of Contents:
- 2.1 Theory. 2.2 Implementation of Power Flow Control Concepts. 2.3 Interline Power Flow Concept. 3. Modeling Principles. 3.1 The Modeling in EMTpáginas: 3.2 Vector Phase-Locked Loop (VPLL). 3.3 Transmission Line Steady-State Resistance Calculator. 3.4 Simulation of an Independent PFC in a Single Line Application. 4. Transformer-Based FACTS Controllers. 4.1 Voltage Regulating Transformer (VRT). 4.2 Phase Angle Regulator (PAR). 5. Mechanically Switched FACTS controllers. 5.1 Shunt Compensation. 5.2 Series Compensation. Chapter 6: Voltage-Sourced Converter (VSC). 6.1 Modeling an Ideal VSC. 6.2 DC-to-AC VSC
- 6.3 Discussion.
- 7. Two-Level Pole Design. 7.1 A Three-Phase, Six-Pulse VSC with Two-Level Poles. 7.2 Analysis of a Pole. 8. VSC-Based FACTS Controllers. 8.1 Shunt Compensation. 8.2 Series Compensation. 8.3 Shunt-Series Compensation Using a Unified Power Flow Controller (UPFC). 9. Sen Transformer. 9.1 Existing Solutions. 9.2 Desired Solution. 9.3 Comparison Among the VRT, PAR, UPFC, and ST. 9.4 Multiline Sen Transformer. 9.5 Flexible Operation of the ST. 9.6 ST with Shunt-Connected Compensating Voltages. 9.7 Limited Angle Operation of the ST with Shunt-Connected Compensating Voltages. 9.8 MST with Shunt-Connected Compensating Voltages. 9.9 Generalized Sen Transformer. 9.10 Summary. Appendix A. Miscellaneous.