Chapter
Chapter 3 Advanced Application Software of Smart Dispatching and Self-healing Control for Power Distribution Network
3.1 Design Principles of Application Software for Smart Dispatching Platform
3.2 Overall Structure of Automation System for Power Distribution Network
3.2.1 Supporting Platform Layer
3.2.1.1 Integration Bus Layer
3.2.1.3 Public Service Layer
3.2.2 Application System Layer
3.3 Smart Dispatching Platform Functions
3.3.1 Supporting Platform
3.3.2 Operation Monitoring of Power Distribution Network
3.3.3 Information Interaction with Other Systems
3.3.4 Advanced Application Software of Self-healing Control
Chapter 4 A New Generation of Relay Protection for Distribution Networks
4.1 Principles and Application of Network Protection for Distribution Networks
4.2.1 Development History and Features of Adaptive Protection
4.2.2 Realization Mode of Adaptive Protection
4.2.2.1 Local Adaptive Protection (Non-channel Adaptive Protection)
4.2.2.2 Area/Wide-Area Adaptive Protection
4.3 Networking Protection for Distribution Network
4.3.1 Concept of Networking Protection for Distribution Network
4.3.1.1 Networking Protection
4.3.1.2 Area/Wide-Area Adaptive Protection Based on Networking – Networking Protection for Distribution Network
4.3.1.3 Distribution Network Automation System – Fundamental Framework of Networking Protection
4.3.1.4 Networking: An Effective Method for Realizing Area/Wide-Area Adaptive Protection for Distribution Networks
4.3.2 Realization of Networking Protection for Distribution Network
4.3.2.1 System Framework of Networking Protection for Distribution Network
4.3.2.2 Dispatching Control Layer of Distribution Network
4.3.2.4 Networking Bus Protection
4.3.2.5 Network Backup Automatic Switching
4.3.2.6 Network Adaptive Current Protection
Chapter 5 Distribution Network Communication Technology and Networking
5.1 Introduction to Distribution Communications
5.2 Backbone Communication Network
5.3 Distribution Communication Technology
5.3.1.1 EPON Technology and Characteristics
5.3.1.3 EPON Transmission System
5.3.2 Industrial Ethernet
5.3.3 Wireless Communication
5.4 Communication Networking Method of Power Distribution
5.4.1.1 Networking Application
5.4.2 Industrial Ethernet
5.4.3 Wireless Communication
5.4.3.1 Short-Distance Communication
5.4.4.1 Optical Fiber + Power-Line Carrier
5.4.4.2 Optical Fiber + Wireless
5.4.4.3 Power-Line Carrier + Wireless
Chapter 6 Detection Management System for Distribution Network Devices
6.1 Significance of Distribution Equipment Condition-Based Monitoring and Maintenance
6.1.1 Equipment Condition Monitoring Technology
6.1.1.2 Distribution Transformer Condition Monitoring and Diagnosis Technology
6.1.1.3 HV Breaker Condition-Based Monitor
6.1.1.4 Lighting Arrester Condition Monitoring
6.1.1.5 Capacitive Equipment Status-Detection System
6.2 Distribution Network Device Monitoring System and Network Monitoring Management System
6.2.1 Distribution Network Equipment Supervisory Terminal and Distribution Network System Terminal Layer
6.2.2 Condition Monitoring System Relies on Automation System Communication Channel
6.2.3 Primary Station for Distribution Equipment Condition-Based Maintenance and Integration of DMS
6.2.4 Geological Information-Based Distribution Network Condition Monitoring and Maintenance
6.2.4.2 Information Interaction
6.2.5 Distribution Equipment Assessment and Condition Maintenance
6.2.5.1 Information Support
6.2.5.2 Distribution Device Condition Assessment
6.2.5.3 Device Risk Assessment
6.2.5.5 Condition Improvement and Maintenance
Chapter 7 Implementation of Self‐healing Control Technology
7.1 Principle of Implementation of Self‐healing Control
7.1.1 Characteristics of Self‐healing Function
7.1.2 Basic Principle of Self‐healing Control
7.2 Self-healing Control Method
7.2.1 Urban Distribution Network Self-healing Control Method Based on Quantity of State
7.2.2 Self-healing Control Method for Distribution Network Based on Distributed Power and Micro-grid
7.2.3 Distribution Network Self-healing Control Based on Coordination Control Model
7.3 Implementation of Distribution Network Self-healing
7.3.1 Self-adaptive Relay Protection Units
7.3.2.1 Basic Requirements
7.3.3.2 Development of SCADA
7.3.4 Wide-Area Measuring System and Phasor Measuring Unit
7.3.4.2 PMU/WAMS and SCADA/EMS
7.3.4.3 Application of PMU or WAMS
7.3.5 Smart Grid and WAMS
8.1.3 Information Flow of Simulation System
8.1.4.2 System Management
8.1.4.3 Self-healing Control
8.1.4.4 Simulation Analysis
8.1.5.1 Simulation Case 1
8.1.5.2 Simulation Case 2
8.1.5.3 Simulation Case 3
8.2.1 Requirements for Pilot Power Grid
8.2.2 Contents of Demonstration Project
8.2.3 Distribution Network of Pilot Project
Chapter 9 Development Progress of Smart Grid in the World
9.2 Current Situation of Chinese Smart Grid: China’s National Strategy
9.2.1 Distribution Network Automation
9.2.3 Research and Demonstration
9.3 Current Situation of Foreign Countries’ Smart Grid
9.3.4 Multinational Cooperation
9.3.5 EPRI USA Smart Grid Demonstration Initiative: 5 Year Update on Multinational Cooperation
9.5 Opportunities and Challenges
Self-healing Control Technology for Distribution Networks
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