HVDC and FACTS Controllers

Applications of Static Converters in Power Systems
PDF
(297 Seiten)
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ISBN-13:
9781402078910
Einband:
PDF
Seiten:
297
Autor:
Vijay K. Sood
Serie:
Power Electronics and Power Systems
eBook Typ:
PDF
eBook Format:
PDF
Kopierschutz:
Adobe DRM [Hard-DRM]
Sprache:
Englisch
Beschreibung:

HVDC and FACTS Controllers: Applications of Static Converters in Power Systems focuses on the technical advances and developments that have taken place in the past ten years or so in the fields of High Voltage DC transmission and Flexible AC transmission systems. These advances (in HVDC transmission and FACTS) have added a new dimension to power transmission capabilities. The book covers a wide variety of topics, some of which are listed below: -Current Source and Voltage Source Converters, -Synchronization Techniques for Power Converters, -Capacitor Commutated Converters, -Active Filters, -Typical Disturbances on HVDC Systems, -Simulation Techniques, -Static Var Compensators based on Chain Link Converters, -Advanced Controllers, -Trends in Modern HVDC. In addition to EHV transmission, HVDC technology has impacted on a number of other areas as well. As an example, a chapter dealing with HVDC Light applications is included providing recent information on both on-shore and off-shore applications of wind farms. HVDC and FACTS Controllers: Applications of Static Converters in Power Systems is meant for senior undergraduate, graduate students and professional power systems engineers. Mathematical treatment of the subject has been kept to a minimum and emphasis has been placed on principles and practical applications. Applications from major manufacturers are included to provide useable information for the practicing power systems engineer.
HVDC and FACTS Controllers: Applications of Static Converters in Power Systems focuses on the technical advances and developments that have taken place in the past ten years or so in the fields of High Voltage DC transmission and Flexible AC transmission systems. These advances (in HVDC transmission and FACTS) have added a new dimension to power transmission capabilities. The book covers a wide variety of topics, some of which are listed below: -Current Source and Voltage Source Converters, -Synchronization Techniques for Power Converters, -Capacitor Commutated Converters, -Active Filters, -Typical Disturbances on HVDC Systems, -Simulation Techniques, -Static Var Compensators based on Chain Link Converters, -Advanced Controllers, -Trends in Modern HVDC. In addition to EHV transmission, HVDC technology has impacted on a number of other areas as well. As an example, a chapter dealing with HVDC Light applications is included providing recent information on both on-shore and off-shore applications of wind farms. HVDC and FACTS Controllers: Applications of Static Converters in Power Systems is meant for senior undergraduate, graduate students and professional power systems engineers. Mathematical treatment of the subject has been kept to a minimum and emphasis has been placed on principles and practical applications. Applications from major manufacturers are included to provide useable information for the practicing power systems engineer.
  • Preface. Acronyms.
  • 1: Introduction to HVDC Transmission. 1.1. Introduction. 1.2. Comparison of AC-DC Transmission. 1.3. Types of HVDC Systems. 1.4. References.
  • 2: Types of Converters. 2.1. Introduction. 2.2. Current Source Converters (CSC). 2.3. Voltage Source Converters (VSC). 2.4. Closing Remarks. 2.5. References.
  • 3: Synchronization Techniques for Power Converters. 3.1. Introduction. 3.2. Review of GFUs. 3.3. GFUs - Design And Analysis. 3.4. Tests On GFUs. 3.5. EMTP Simulation Of A Test System. 3.6. Conclusions. 3.7. Acknowledgement. 3.8. References.
  • 4: HVDC Controls. 4.1. Historical Background. 4.2. Functions of HVDC Controls. 4.3. Control Basics for a Two-terminal DC Link. 4.4. Current Margin Control Method. 4.5. Current Control at the Rectifier. 4.6. Inverter Extinction Angle Control. 4.7. Hierarchy of Controls. 4.8. Action By Controls After a Disturbance. 4.9. References.
  • 5: Forced Commutated HVDC Converters. 5.1. Introduction. 5.2. Commutation Techniques for HVDC Converters. 5.3. Examples of FC Converters for HVDC Transmission. 5.4. References.
  • 6: Capacitor Commutated Converters for HVDC Systems. 6.1. Capacitor Commutated Converters (CCC). 6.2. Controlled Series Capacitor Converter (CSCC). 6.3. Comparison of CCC and CSCC.

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