Advanced Solutions in Power Systems : HVDC, FACTS, and Artificial Intelligence

Author: Eremia, Mircea
Published: Somerset : Wiley, 2016.
Physical Description: 1 online resource (1,075 pages).
Additional Creators: Edris, Abdel-Aty, 1946- and Liu, Chen-Ching

Access Online

ezaccess.libraries.psu.edu

Availability

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Series

IEEE Press series on power engineering

Contents

ADVANCED SOLUTIONS IN POWER SYSTEMS; Contents; Contributors; Foreword; Acknowledgments; 1 Introduction; PART I HVDC Transmission; 2 Power Semiconductor Devices for HVDC and Facts Systems; 2.1 Power Semiconductor Overview; 2.1.1 Not-Controllable Power Semiconductor Devices; 2.1.2 Semicontrollable Power Semiconductor Devices; 2.1.3 Fully Controllable Power Semiconductor Devices; 2.1.4 Power Semiconductor Parameters; 2.1.5 Future Power Semiconductor Devices; 2.2 Converter Types; 2.3 HVDC Evolution; 2.3.1 Line-Commutated HVDC Converters (LCC/CSC-HVDC)., 2.3.2 Capacitor-Commutated Converter (CCC-HVDC)2.3.3 Voltage Source Converter VSC-HVDC; 2.4 Facts Evolution; References; 3 CSC-HVDC Transmission; 3.1 Structure and Configurations; 3.1.1 Structure of HVDC Links; 3.1.2 HVDC Configurations; 3.2 Converter Bridge Modeling; 3.2.1 Rectifier Equations; 3.2.2 Inverter Equations; 3.3 Control of CSC-HVDC Transmission; 3.3.1 Equivalent Circuit and Control Characteristics; 3.3.2 HVDC Control Principles; 3.3.3 HVDC Control Strategies; 3.3.4 Hierarchical Control of a HVDC Link; 3.4 Reactive Power and Harmonics; 3.4.1 Reactive Power Requirements and Sources., 3.4.2 Harmonics and Filters3.5 Load Flow in Mixed HVAC/HVDC-CSC Systems; 3.5.1 Steady-State Model; 3.6 Interaction Between AC and DC Systems; 3.6.1 AC Systems Stabilization; 3.6.2 Influence of AC System Short-Circuit Ratio; 3.6.3 Effective Inertia Constant; 3.6.4 Reactive Power and the Strength of the AC System; 3.7 Comparison Between DC and ACTransmission; 3.8 Application on a CSC-HVDC Link; 3.8.1 Solution; Appendix 3.1 CSC-HVDC Systems in the World; References; 4 VSC-HVDC Transmission; 4.1 VSC CONVERTER STRUCTURES; 4.1.1 Half-Bridge VSC or Two-Level Pole; 4.1.2 Full-Bridge Single-Phase VSC., 4.1.3 Three-Phase Two-Level VSC4.1.4 Three-Level Pole VSC; 4.1.5 Multimodule VSC Systems; 4.1.6 Multilevel VSC Systems; 4.1.7 Modular Multilevel Converter; 4.1.8 Cascaded Two-Level Converters; 4.2 MODULATION TECHNIQUES; 4.2.1 PWM Techniques; 4.2.2 Modulation Techniques for Multilevel Converters; 4.3 DCAC CONVERTER ANALYSIS; 4.3.1 Operation Modes of the Switched-Inductor Cell; 4.3.2 Ideal DCAC Half-Bridge Converter; 4.3.3 Averaging Models; 4.3.4 Detailed and Averaged Models for MMC-HVDC Systems; 4.4 VSC TRANSMISSION SCHEME AND OPERATION; 4.4.1 Power Equipment., and 4.4.2 Principles of Active and Reactive Power Control4.4.3 VSC Transmission Control; 4.5 MULTITERMINAL VSC-HVDC SYSTEMS AND HVDC GRIDS; 4.5.1 On the Conventional Multiterminal HVDC Configurations; 4.5.2 Multiterminal HVDC Grid Configurations; 4.5.3 Meshed HVDC Grid Configurations; 4.5.4 Need for Fast and Low Loss HVDC Breakers; 4.5.5 HVDC Grid Protection; 4.6 LOAD FLOW AND STABILITY ANALYSIS; 4.6.1 Load Flow in Meshed AC/DC Grids; 4.6.2 Dynamic Stability in Meshed AC/DC Grids; 4.7 COMPARISON OF CSC-HVDC VERSUS VSC-HVDC TRANSMISSION; 4.7.1 Differences Resulting from the Commutation Principle.

Summary

Provides insight on both classical means and new trends in the application of power electronic and artificial intelligence techniques in power system operation and control This book presents advanced solutions for power system controllability improvement, transmission capability enhancement and operation planning. The book is organized into three parts. The first part describes the CSC-HVDC and VSC-HVDC technologies, the second part presents the FACTS devices, and the third part refers to the artificial intelligence techniques. All technologies and tools approached in this book are essential for power system development to comply with the smart grid requirements. -Discusses detailed operating principles and diagrams, theory of modeling, control strategies and physical installations around the world of HVDC and FACTS systems -Covers a wide range of Artificial Intelligence techniques that are successfully applied for many power system problems, from planning and monitoring to operation and control -Each chapter is carefully edited, with drawings and illustrations that helps the reader to easily understand the principles of operation or application Advanced Solutions in Power Systems: HVDC, FACTS, and Artificial Intelligence is written for graduate students, researchers in transmission and distribution networks, and power system operation. This book also serves as a reference for professional software developers and practicing engineers.

Subject(s)

Genre(s)

Conference papers and proceedings

ISBN

111917533X
9781119175339
1119035694
9781119035695

Note

4.7.2 Differences Resulting from the Converter Type.

Bibliography Note

Includes bibliographical references and index.

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