Distributed Optimal Control of Large-Scale Wind Farm Clusters: Optimal Active and Reactive Power Control, and Fault Ride Through, a new volume in the Elsevier Wind Energy Engineering series, explores the latest advances in distributed optimal control of large-scale wind farm clusters, also describing distributed optimal control techniques for high voltage ride through (HVRT). Both mathematical formulations and algorithm details are provided, along with MATLAB codes to replicate and implement distributed optimal control schemes. This is a valuable resource for anyone interested in the…mehr
Distributed Optimal Control of Large-Scale Wind Farm Clusters: Optimal Active and Reactive Power Control, and Fault Ride Through, a new volume in the Elsevier Wind Energy Engineering series, explores the latest advances in distributed optimal control of large-scale wind farm clusters, also describing distributed optimal control techniques for high voltage ride through (HVRT). Both mathematical formulations and algorithm details are provided, along with MATLAB codes to replicate and implement distributed optimal control schemes. This is a valuable resource for anyone interested in the operation, control, and integration of wind power plants, wind farms, and electricity grids, both at research and operational levels. Researchers, faculty, scientists, engineers, R&D, and other industry professionals, as well as graduate and postgraduate students studying and working in wind energy will find this comprehensive resource a valuable addition to their work.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Qiuwei Wu is currently a Chair Professor at the School of Electrical and Information Engineering at Tianjin University, China. Prior to this he was a tenured Associate Professor at the Tsinghua-Berkeley Shenzhen Institute of Tsinghua University, China. His research interests are in decentralized/distributed optimal operation and control of power systems with high penetration of renewables, including distributed wind power modelling and control, decentralized/distributed congestion management, voltage control and load restoration of active distribution networks, and decentralized/distributed optimal operation of integrated energy systems. Dr. Wu is an Associate Editor of IEEE Transactions on Power Systems and IEEE Power Engineering Letters, Deputy Editor-in-Chief and Associate Editor of the International Journal of Electrical Power and Energy Systems and the Journal of Modern Power Systems and Clean Energy, and a subject editor for IET Generation, Transmission & Distribution and IET Renewable Power Generation.
Inhaltsangabe
Section I - Introduction 1. Introduction to Large-Scale Wind Power Integration Section II - Optimal Active Power Control of Large-Scale Wind Farm Clusters 2. Bi-Level Decentralized Active Power Control for Large-Scale Wind Farm Clusters 3. Optimal Active Power Control Based on MPC for DFIG-based Wind Farm Equipped with Distributed Energy Storage Systems 4. Hierarchical Active Power Control of DFIG-based Wind Farm with Distributed Energy Storage Systems based on Alternating Direction Method of Multipliers (ADMM) 5 Hierarchical Optimal Control for Synthetic Inertial Response of Wind Farm Based on Alternating Direction Method of Multipliers (ADMM) Section III - Optimal Active and Reactive Power Control of Large-Scale Wind Farm Clusters 6. Bi-Level Decentralized Active and Reactive Power Control for Large-Scale Wind Farm Cluster 7. Two-Tier Combined Active and Reactive Power Control for VSC-HVDC Connected Large-Scale Wind Farm Cluster based on Alternating Direction Method of Multipliers (ADMM) 8. Distributed Optimal Active and Reactive Power Control for Wind Farms Based on ADMM 9. ADMM-based Distributed Active and Reactive Power Control for Regional AC Grids with Wind Farms Section IV - Optimal Voltage Control of Large-Scale Wind Farm Clusters 10. Distributed Voltage Control based on ADMM for Large Scale Wind Farm Cluster connected to VSC HVDC 11. Distributed Optimal Voltage Control for VSC-HVDC Connected Large-Scale Wind Farm Cluster Based on Analytical Target Cascading Method 12. Adaptive Droop-based Hierarchical Optimal Voltage Control Scheme for VSC-HVDC Connected Offshore Wind Farm 13. Distributed Optimal Voltage Control Strategy for AC Grid with DC Connection and Offshore Wind Farms Based on Alternating Direction Method of Multipliers (ADMM) Section V - Fault Ride Through of Wind Farm Clusters 14. Coordinated Droop Control and Adaptive Model Predictive Control for Enhancing HVRT and Post-Event Recovery of Large-Scale Wind Farms 15. Hierarchical Event-Triggered MPC-Based Coordinated Control for HVRT and Voltage Restoration of Large-Scale Wind Farms 16. Coordinated Voltage Support Control for Enhancing LVRT Capability of Large-Scale Wind Farms
Section I - Introduction 1. Introduction to Large-Scale Wind Power Integration Section II - Optimal Active Power Control of Large-Scale Wind Farm Clusters 2. Bi-Level Decentralized Active Power Control for Large-Scale Wind Farm Clusters 3. Optimal Active Power Control Based on MPC for DFIG-based Wind Farm Equipped with Distributed Energy Storage Systems 4. Hierarchical Active Power Control of DFIG-based Wind Farm with Distributed Energy Storage Systems based on Alternating Direction Method of Multipliers (ADMM) 5 Hierarchical Optimal Control for Synthetic Inertial Response of Wind Farm Based on Alternating Direction Method of Multipliers (ADMM) Section III - Optimal Active and Reactive Power Control of Large-Scale Wind Farm Clusters 6. Bi-Level Decentralized Active and Reactive Power Control for Large-Scale Wind Farm Cluster 7. Two-Tier Combined Active and Reactive Power Control for VSC-HVDC Connected Large-Scale Wind Farm Cluster based on Alternating Direction Method of Multipliers (ADMM) 8. Distributed Optimal Active and Reactive Power Control for Wind Farms Based on ADMM 9. ADMM-based Distributed Active and Reactive Power Control for Regional AC Grids with Wind Farms Section IV - Optimal Voltage Control of Large-Scale Wind Farm Clusters 10. Distributed Voltage Control based on ADMM for Large Scale Wind Farm Cluster connected to VSC HVDC 11. Distributed Optimal Voltage Control for VSC-HVDC Connected Large-Scale Wind Farm Cluster Based on Analytical Target Cascading Method 12. Adaptive Droop-based Hierarchical Optimal Voltage Control Scheme for VSC-HVDC Connected Offshore Wind Farm 13. Distributed Optimal Voltage Control Strategy for AC Grid with DC Connection and Offshore Wind Farms Based on Alternating Direction Method of Multipliers (ADMM) Section V - Fault Ride Through of Wind Farm Clusters 14. Coordinated Droop Control and Adaptive Model Predictive Control for Enhancing HVRT and Post-Event Recovery of Large-Scale Wind Farms 15. Hierarchical Event-Triggered MPC-Based Coordinated Control for HVRT and Voltage Restoration of Large-Scale Wind Farms 16. Coordinated Voltage Support Control for Enhancing LVRT Capability of Large-Scale Wind Farms
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