Optimal Operation of Active Distribution Networks
Congestion Management, Voltage Control and Service Restoration
- 435 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
Optimal Operation of Active Distribution Networks
Congestion Management, Voltage Control and Service Restoration
About This Book
Optimal Operation of Active Distribution Networks: Congestion Management, Voltage Control and Service Restoration provides researchers and practitioners with a clear and modern understanding of how to optimize the economic, secure and resilient operation of active distribution networks. The book provides case studies, modern implementations and supporting flowcharts and code, along with current research in congestion management, service restoration and voltage control of active distribution networks. Chapter provide an overview of the active distribution network concept, present key approaches for the congestion management of active distribution networks, and cover approaches in uncertainty, coordination of DLMP, scheduled re-profiling, and more.
Other sections cover real-time congestion management and service restoration of active distribution networks.
- Reviews how to optimally operate active distribution networks under normal conditions and demonstrates worked solutions and contingency planning to mitigate unforeseen challenges
- Provides clear guidance on optimizing congestion management, voltage control and service restoration in DER-heavy systems
- Demonstrates how to implement distributed voltage control in systems using active distribution networks
- Provides an extensive body of methods, associated case studies, worked solutions and implementation discussions on how to embed best practices in engineering and research workflows
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Table of contents
- Cover image
- Title page
- Table of Contents
- Copyright
- 1. Introduction of active distribution networks
- 2. Distribution locational marginal pricing for congestion management in distribution networks
- 3. Distribution locational marginal pricing for optimal electric vehicle charging through chance-constrained mixed-integer programming
- 4. Robust dynamic tariff method for day-ahead congestion management of active distribution networks
- 5. Comprehensive day-ahead congestion management based on the dynamic tariff, network reconfiguration, and reprofiling product
- 6. ADMM-based market clearing and optimal flexibility bidding of distribution-level flexibility market for day-ahead congestion management of distribution networks
- 7. Two-tier real-time congestion management based on flexible demand swap and transactive control
- 8. Distributed coordinated voltage control for distribution networks with DG and OLTC based on MPC and gradient projection
- 9. Double-timescale distributed voltage control for unbalanced distribution networks based on MPC and ADMM
- 10. Distributed coordinated operations of transmission and distribution systems
- 11. Distributed service restoration for active distribution networks based on alternating direction method of multipliers
- 12. Distributed risk-limiting service restoration for active distribution networks with networked microgrids
- 13. Hierarchical service restoration for active distribution networks based on alternating direction method of multipliers
- 14. DMPC-based distributed voltage control for unbalanced distribution networks with single-/three-phase DGs
- 15. Hierarchical distributed voltage control for active distribution networks with DGCs based on GP and ADMM
- 16. Transactive control for real-time electric vehicle charging management under uncertainty
- 17. A two-stage scheduling method for aggregators based on transactive control
- Appendix A. Introduction to alternating direction method of multipliers
- Appendix B. Introduction to analytical target cascading
- Index