Optimal Coordination of Power Protective Devices with Illustrative Examples
IEEE Press Series on Power Engineering
1. Auflage Januar 2022
528 Seiten, Hardcover
Wiley & Sons Ltd
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Optimal Coordination of Power Protective Devices with Illustrative Examples
Provides practical guidance on the coordination issue of power protective relays and fuses
Protecting electrical power systems requires devices that isolate the components that are under fault while keeping the rest of the system stable. Optimal Coordination of Power Protective Devices with Illustrative Examples provides a thorough introduction to the optimal coordination of power systems protection using fuses and protective relays.
Integrating fundamental theory and real-world practice, the text begins with an overview of power system protection and optimization, followed by a systematic description of the essential steps in designing optimal coordinators using only directional overcurrent relays. Subsequent chapters present mathematical formulations for solving many standard test systems, and cover a variety of popular hybrid optimization schemes and their mechanisms. The author also discusses a selection of advanced topics and extended applications including adaptive optimal coordination, optimal coordination with multiple time-current curves, and optimally coordinating multiple types of protective devices. Optimal Coordination of Power Protective Devices:
* Covers fuses and overcurrent, directional overcurrent, and distance relays
* Explains the relation between fault current and operating time of protective relays
* Discusses performance and design criteria such as sensitivity, speed, and simplicity
* Includes an up-to-date literature review and a detailed overview of the fundamentals of power system protection
* Features numerous illustrative examples, practical case studies, and programs coded in MATLAB(r) programming language
Optimal Coordination of Power Protective Devices with Illustrative Examples is the perfect textbook for instructors in electric power system protection courses, and a must-have reference for protection engineers in power electric companies, and for researchers and industry professionals specializing in power system protection.
Preface
Acronyms
Introduction
Chapter 1 Fundamental Steps in Optimization Algorithms
Chapter 2 Fundamentals of Power System Protection
Chapter 3 Mathematical Modelling of Inverse-Time Overcurrent Relay Characteristics
Chapter 4 Upper Limit of Relay Operating Time
Chapter 5 Directional Overcurrent Relays and the Importance of Relay Coordination
Chapter 6 General Mechanism to Optimally Coordinate Directional Overcurrent Relays
Chapter 7 Optimal Coordination of inverse-time DOCRs with Unified TCCC
Chapter 8 Incorporating LP and Hybridizing It With Meta-Heuristic Algorithms
Chapter 9 Optimal Coordination of DOCRs With OCRs and Fuses
Chapter 10 Optimal Coordination with Considering Multiple Characteristic Curves
Chapter 11 Optimal Coordination with Considering the Best TCCC
Chapter 12 Considering the Actual Settings of Different Relay Technologies in the Same Network
Chapter 13 Considering Double Primary Relay Strategy
Chapter 14 Adaptive ORC Solver
Chapter 15 Multi-Objective Coordination
Chapter 16 Optimal Coordination of Distance and Overcurrent Relays
Chapter 17 Trending Topics and Existing Issues
Appendix A Some Important Data Used in Power System Protection
Appendix B How to Install PowerWorld Simulator (Education Version)
Appendix C Single-Machine Infinite Bus
Appendix D Linearizing Relay Operating Time Models
Appendix E Derivation of the First Order Thermal Differential Equation
Appendix F List of ORC Test Systems
Bibliography
Index
