Description
Flexible Distribution Networks facilitates the enhanced flexibility, efficiency and reliability of distribution networks under complex operating environments delivered by high DG penetration. Considering the high share of DG and flexibility improvement brought by SOP-type power electronic devices, the work aims to solve the issues of optimal operation of flexible distribution networks. Technical solutions for flexible operation problems of FDN are discussed in depth, including efficient analytical methods with high penetration of DG, SOP-based optimal operation methods with uncertainty, and high-performance convex optimization algorithms.Readers will develop sound knowledge and gain insights into the optimal operation of FDN with high penetration of DG.- Provides efficient operation analysis methods for FDN with high penetration of distributed generators- Proposes measurement-based network estimation methods to improve the observability of network states- Develops SOP-based optimal operation methods to facilitate the flexible operation of FDN under complex and uncertain environments- Expounds local control frameworks to realize the rapid and effective implementation of flexible operation strategies- Reviews high-performance convex optimization methods to realize the efficient solving of optimal operation problems in FDN
Table of Contents
Part I Background 1. IntroductionPart II Modeling and Analytical Calculation 2. Components and Modelling of FDN3. Efficient Operation Analysis of FDN4. High-performance Optimization Algorithm5. Quantified Evaluation of Operational FlexibilityPart III Optimal Operation and Localized Implementation 6. Optimal Operation under Complex Environments7. Load Restoration under Fault Condition8. Localized Operation and ImplementationPart IV Operation and Planning with Uncertainties 9. Operation with Multiple Dimensional Uncertainties10. Data-driven Method to Cope with Uncertain Parameters11. Optimal Planning of Flexible Distribution Devices
