Thyristor-based FACTS controllers for electrical transmission systems / (Record no. 59512)

000 -LEADER
fixed length control field 08708nam a2201189 i 4500
001 - CONTROL NUMBER
control field 5265762
005 - DATE AND TIME OF LATEST TRANSACTION
control field 20200421114115.0
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 151221s2002 njua ob 001 eng d
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
ISBN 160119580X
-- livre �aelectronique
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
ISBN 9780470546680
-- electronic
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
-- paper
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
-- print
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
-- electronic
082 04 - CLASSIFICATION NUMBER
Call Number 621.31/7
100 1# - AUTHOR NAME
Author Mathur, R. M.,
245 10 - TITLE STATEMENT
Title Thyristor-based FACTS controllers for electrical transmission systems /
300 ## - PHYSICAL DESCRIPTION
Number of Pages 1 PDF (xxix, 495 pages) :
490 1# - SERIES STATEMENT
Series statement IEEE Press series on power engineering
500 ## - GENERAL NOTE
Remark 1 "A John Wiley & Sons, Inc., publication."
505 0# - FORMATTED CONTENTS NOTE
Remark 2 1. Introduction -- 1.1 Background -- 1.2 Electrical Transmission Networks -- 1.3 Conventional Control Mechanisms -- 1.4 Flexible ac Transmission Systems (FACTS) -- 1.5 Emerging Transmission Networks -- 2. Reactor-Power Control in Electrical Power Transmission Systems -- 2.1 Reacrive Power -- 2.2 Uncompensated Transmission Lines -- 2.3 Passive Compensation -- 2.4 Summary -- 3. Principles of Conventional Reactive-Power Compensators -- 3.1 Introduction -- 3.2 Synchronous Condensers -- 3.3 The Saturated Reactor (SR) -- 3.4 The Thyristor-Controlled Reactor (TCR) -- 3.5 The Thyristor-Controlled Transformer (TCT) -- 3.6 The Fixed Capacitor-Thyristor-Controlled Reactor (FC-TCR) -- 3.7 The Mechanically Switched Capacitor-Thristor-Controlled Reactor (MSC-TCR) -- 3.8 The Thyristor-Switched capacitor and Reactor -- 3.9 The Thyristor-Switched capacitor-Thyristor-Controlled Reactor (TSC-TCR) -- 3.10 A Comparison of Different SVCs -- 3.11 Summary -- 4. SVC Control Components and Models -- 4.1 Introduction -- 4.2 Measurement Systems -- 4.3 The Voltage Regulator -- 4.4 Gate-Pulse Generation -- 4.5 The Synchronizing System -- 4.6 Additional Control and Protection Functions -- 4.7 Modeling of SVC for Power-System Studies -- 4.8 Summary -- 5. Conceepts of SVC Voltage Control -- 5.1 Introduction -- 5.2 Voltage Control -- 5.3 Effect of Network Resonances on the Controller Response -- 5.4 The 2nd Harmonic Interaction Between the SVC and ac Network -- 5.5 Application of the SVC to Series-Compensated ac Systems -- 5.6 3rd Harmonic Distortion -- 5.7 Voltage-Controlled Design Studies -- 5.8 Summary -- 6. Applications -- 6.1 Introduction -- 6.2 Increase in Steady-State Power-Transfer Capacity -- 6.3 Enhancement of Transient Stability -- 6.4 Augmentation of Power-System Damping -- 6.5 SVC Mitigation of Subsychronous Resonance (SSR) -- 6.6 Prevention of Voltage Instability -- 6.7 Improvement of HVDC Link Performance -- 6.8 Summary -- 7. The Thyristor-Controlled SeriesCapacitor (TCSC) -- 7.1 Series Compensation.
505 8# - FORMATTED CONTENTS NOTE
Remark 2 7.2 The TCSC Controller -- 7.3 Operation of the TCSC -- 7.4 The TSSC -- 7.5 Analysis of the TCSC -- 7.6 Capability Characteristics -- 7.7 Harmonic Performance -- 7.8 Losses -- 7.9 Response of the TCSC -- 7.10 Modeling of the TCSC -- 7.11 Summary -- 8. TCSC Applications -- 8.1 Introduction -- 8.2 Open-Loop Control -- 8.3 Closed-Loop Control -- 8.4 Improvement of the System-Stability Limit -- 8.5 Enhancement of System Damping -- 8.6 Subsynchronous Resonanace (SSR) Mitigation -- 8.7 Voltage-Collapse Prevention -- 8.8 TCSC Installations -- 8.9 Summary -- 9. Coordination of FACTS Controllers -- 9.1 Introduction -- 9.2 Controller Interactions -- 9.3 SVC-SVC Interaction -- 9.4 SVC-HVDC Interaction -- 9.5 SVC-TCSC Interaction -- 9.6 TCSC-TCSC Interaction -- 9.7 Performance Criteria for Damping-Controller Design -- 9.8 Coordination of Multiple Controllers Using Linear-Control Techniques -- 9.9 Coordination of Multiple Controllers using Nonlinear-Control Techniques -- 9.10 Summary -- 10. Emerging FACTS Controllers -- 10.1 Introduction -- 10.2 The STATCOM -- 10.3 THE SSSC -- 10.4 The UPFC -- 10.5 Comparative Evaluation of Different FACTS Controllers -- 10.6 Future Direction of FACTS Technology -- 10.7 Summary -- Appendix A. Design of an SVC Voltage Regulator -- A.1 Study System -- A.2 Method of System Gain -- A.3 Elgen Value Analysis -- A.4 Simulator Studies -- A.5 A Comparison of Physical Simulator results With Analytical and Digital Simulator Results Using Linearized Models -- Appendix B. Transient-Stability Enhancement in a Midpoint SVC-Compensated SMIB System -- Appendix C. Approximate Multimodal decomposition Method for the Design of FACTS Controllers -- C.1 Introduction -- C.2 Modal Analysis of the ith Swing Mode, � -- C.3 Implications of Different Transfer Functions -- C.4 Design of the Damping Controller -- Appendix D. FACTS Terms and Definitions -- Index.
520 ## - SUMMARY, ETC.
Summary, etc An important new resource for the international utility market Over the past two decades, static reactive power compensators have evolved into a mature technology and become an integral part of modern electrical power systems. They are one of the key devices in flexible AC transmission systems (FACTS). Coordination of static compensators with other controllable FACTS devices promises not only tremendously enhanced power system controllability, but also the extension of power transfer capability of existing transmission corridors to near their thermal capacities, thus delaying or even curtailing the need to invest in new transmission facilities. Offering both an in-depth presentation of theoretical concepts and practical applications pertaining to these power compensators, Thyristor-Based FACTS Controllers for Electrical Transmission Systems fills the need for an appropriate text on this emerging technology. Replete with examples and case studies on control design and performance, the book provides an important resource for both students and engineers working in the field.
650 #0 - SUBJECT ADDED ENTRY--SUBJECT 1
General subdivision Control.
700 1# - AUTHOR 2
Author 2 Varma, Rajiv K.
856 42 - ELECTRONIC LOCATION AND ACCESS
Uniform Resource Identifier http://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=5265762
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Koha item type eBooks
264 #1 -
-- Piscataway, New Jersey :
-- IEEE,
-- c2002.
264 #2 -
-- [Piscataqay, New Jersey] :
-- IEEE Xplore,
-- [2002]
336 ## -
-- text
-- rdacontent
337 ## -
-- electronic
-- isbdmedia
338 ## -
-- online resource
-- rdacarrier
588 ## -
-- Description based on PDF viewed 12/21/2015.
650 #0 - SUBJECT ADDED ENTRY--SUBJECT 1
-- Electric power systems
650 #0 - SUBJECT ADDED ENTRY--SUBJECT 1
-- Thyristors.
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-- Automatic voltage control
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-- Bridge circuits
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-- Capacitors
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-- Circuit breakers
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-- Circuit faults
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-- Control systems
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-- Current measurement
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-- Damping
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-- Eigenvalues and eigenfunctions
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-- Equations
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-- Frequency control
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-- Frequency response
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-- Generators
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-- HVDC transmission
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-- Harmonic analysis
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-- Hydraulic turbines
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-- Indexes
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-- Inductors
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-- Inverters
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-- Load flow
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-- Load management
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-- Mathematical model
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-- Matrix decomposition
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-- Modal analysis
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-- Oscillators
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-- Power capacitors
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-- Power conversion
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-- Power harmonic filters
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-- Power system dynamics
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-- Power system stability
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-- Power transmission lines
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-- Reactive power
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-- Regulators
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-- Resonant frequency
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-- Rotors
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-- Stability analysis
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-- Static VAr compensators
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-- Steady-state
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-- Strontium
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-- Terminology
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-- Thyristors
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-- Torque
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-- Transfer functions
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-- Transient analysis
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-- Transmission line measurements
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-- Valves
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-- Voltage control
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-- Voltage measurement
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-- Windings

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