Flexibility in Electric Power Distribution Networks
Herausgeber: Alhelou, Hassan Haes; Siano, Pierluigi; Heydarian-Forushani, Ehsan
Flexibility in Electric Power Distribution Networks
Herausgeber: Alhelou, Hassan Haes; Siano, Pierluigi; Heydarian-Forushani, Ehsan
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This book discusses the additional flexibility needs introduced by renewable energy sources (RESs) and describe general approaches to analyze the need for and provision of additional flexibility in future distribution networks at both planning and operational time frames.
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This book discusses the additional flexibility needs introduced by renewable energy sources (RESs) and describe general approaches to analyze the need for and provision of additional flexibility in future distribution networks at both planning and operational time frames.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 411
- Erscheinungstermin: 16. Juli 2021
- Englisch
- Abmessung: 234mm x 156mm x 24mm
- Gewicht: 780g
- ISBN-13: 9780367641412
- ISBN-10: 0367641410
- Artikelnr.: 62229710
- Verlag: CRC Press
- Seitenzahl: 411
- Erscheinungstermin: 16. Juli 2021
- Englisch
- Abmessung: 234mm x 156mm x 24mm
- Gewicht: 780g
- ISBN-13: 9780367641412
- ISBN-10: 0367641410
- Artikelnr.: 62229710
Hassan Haes Alhelou is a faculty member at Tisheen University, Lattakia, Syria. His major research interests are Power systems, Power system dynamics, Power system operation and control, Dynamic state estimation, Frequency control, Smart grids, Micro-grids, Demand response, Load shedding, and Power system protection. Ehsan Heydarian-Forushani currently working in Esfahan Electricity Power Distribution Company (EEPDC). His research interests include power system flexibility, renewables integration, demand response, smart grids, and electricity market. Pierluigi Siano is a Professor and Scientific Director of the Smart Grids and Smart Cities Laboratory with the Department of Management & Innovation Systems, University of Salerno. He has been the Chair of the IES TC on Smart Grids. He received the award as 2019&2020 Highly cited Researcher by ISI WoS Group.
1. Social and Economic Factors in Demand-Side Flexibility. 2. Role of Smart
Homes and Smart Communities in Flexibility Provision. 3. A
System-of-Systems Planning Platform for Enabling Flexibility Provision at
Distribution Level. 4. Application of Regression Tools for Load Prediction
in Distributed Network for Flexible Analysis. 5. Effective Strategies of
Flexibility in Modern Distribution Systems. 6. Resource-Driven Flexibility
Planning of Active Distribution Network. 7. Distribution Network Emergency
Operation in The Light of Flexibility. 8. Three-Layer Aggregator Solutions
to Facilitate Distribution System Flexibility. 9. Decongestion of Active
Distribution Grids via D-PMUs-based Reactive Power Control and Electric
Vehicle Chargers. 10. Blockchain-based Decentralized, Flexible, and
Transparent Energy Market. 11. Integrated Operation and Planning Model of
Renewable Energy Sources with Flexible Devices in Active Distribution
Networks. 12. Network-Driven Flexibility Planning of Active Distribution
Network. 13. Optimization Techniques for Reconfiguration of Energy
Distribution System. 14. Application of AMPL (A Mathematical Programming
Language) in Distribution Network Reconfiguration Problem.
Homes and Smart Communities in Flexibility Provision. 3. A
System-of-Systems Planning Platform for Enabling Flexibility Provision at
Distribution Level. 4. Application of Regression Tools for Load Prediction
in Distributed Network for Flexible Analysis. 5. Effective Strategies of
Flexibility in Modern Distribution Systems. 6. Resource-Driven Flexibility
Planning of Active Distribution Network. 7. Distribution Network Emergency
Operation in The Light of Flexibility. 8. Three-Layer Aggregator Solutions
to Facilitate Distribution System Flexibility. 9. Decongestion of Active
Distribution Grids via D-PMUs-based Reactive Power Control and Electric
Vehicle Chargers. 10. Blockchain-based Decentralized, Flexible, and
Transparent Energy Market. 11. Integrated Operation and Planning Model of
Renewable Energy Sources with Flexible Devices in Active Distribution
Networks. 12. Network-Driven Flexibility Planning of Active Distribution
Network. 13. Optimization Techniques for Reconfiguration of Energy
Distribution System. 14. Application of AMPL (A Mathematical Programming
Language) in Distribution Network Reconfiguration Problem.
1. Social and Economic Factors in Demand-Side Flexibility. 2. Role of Smart
Homes and Smart Communities in Flexibility Provision. 3. A
System-of-Systems Planning Platform for Enabling Flexibility Provision at
Distribution Level. 4. Application of Regression Tools for Load Prediction
in Distributed Network for Flexible Analysis. 5. Effective Strategies of
Flexibility in Modern Distribution Systems. 6. Resource-Driven Flexibility
Planning of Active Distribution Network. 7. Distribution Network Emergency
Operation in The Light of Flexibility. 8. Three-Layer Aggregator Solutions
to Facilitate Distribution System Flexibility. 9. Decongestion of Active
Distribution Grids via D-PMUs-based Reactive Power Control and Electric
Vehicle Chargers. 10. Blockchain-based Decentralized, Flexible, and
Transparent Energy Market. 11. Integrated Operation and Planning Model of
Renewable Energy Sources with Flexible Devices in Active Distribution
Networks. 12. Network-Driven Flexibility Planning of Active Distribution
Network. 13. Optimization Techniques for Reconfiguration of Energy
Distribution System. 14. Application of AMPL (A Mathematical Programming
Language) in Distribution Network Reconfiguration Problem.
Homes and Smart Communities in Flexibility Provision. 3. A
System-of-Systems Planning Platform for Enabling Flexibility Provision at
Distribution Level. 4. Application of Regression Tools for Load Prediction
in Distributed Network for Flexible Analysis. 5. Effective Strategies of
Flexibility in Modern Distribution Systems. 6. Resource-Driven Flexibility
Planning of Active Distribution Network. 7. Distribution Network Emergency
Operation in The Light of Flexibility. 8. Three-Layer Aggregator Solutions
to Facilitate Distribution System Flexibility. 9. Decongestion of Active
Distribution Grids via D-PMUs-based Reactive Power Control and Electric
Vehicle Chargers. 10. Blockchain-based Decentralized, Flexible, and
Transparent Energy Market. 11. Integrated Operation and Planning Model of
Renewable Energy Sources with Flexible Devices in Active Distribution
Networks. 12. Network-Driven Flexibility Planning of Active Distribution
Network. 13. Optimization Techniques for Reconfiguration of Energy
Distribution System. 14. Application of AMPL (A Mathematical Programming
Language) in Distribution Network Reconfiguration Problem.