Buch, Englisch, 300 Seiten, Format (B × H): 152 mm x 229 mm
Buch, Englisch, 300 Seiten, Format (B × H): 152 mm x 229 mm
ISBN: 978-0-443-24722-4
Verlag: Elsevier Science
Advanced Analytics for Reliability and Resilience of Energy Systems prepares students, researchers, and industry engineers to design and maintain reliable, sustainable energy systems using state-of-the-art AI techniques. The book provides a clear foundation in the fundaments of power systems statistics and reliability, including resilience principles and strategies, practical applications, and real-world solutions. It covers a wide range of renewable sources, including biomass and biomethane, solar, and hybrid-renewable systems. The AI tools presented cover forecasting, the internet-of-Things, machine learning, digital twin technology, and big data analysis, with a variety of applications to avoid power outrages, minimize disruption, and accurately assess system resilience.
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
V1.0. Introduction to Volume 1
V1.1. Enhancing Resilience of Power Transmission Systems Against Typhoon Disasters: A Hybrid Data-Model Driven Approach
V1.2.Reliability of Power Electronics in Smart Grids
V1.3. Electricity distribution grids resilience enhancement by network reconfiguration
V1.4. Network-Based Data-Driven Real-Time Analytics for Designing Resilient Next-Generation Power Grids: Challenges, Necessity and Explanations
V1.5.Teaching learning-based optimized artificial neural network for predicting the maximum power point of a large-scale grid-connected solar PV system
V1.6.A reliable PV system based on FPPT implementation incorporating forecasted load demand using Neural Network
V1.7.Robust Stabilization Ellipsoidal Design for Normal and Contingency Operated Power Systems Using Markov Jump
V1.8.From Review to Revolution: Innovative Under-Frequency Load Shedding for Enhanced Power System Resilience
V1.9.Fault Detection and Classification in Hybrid AC/DC Systems Using Artificial Neural Networks
V1.10. A Reliability Constrained Load Balancing Procedure for Neutral Current Reduction in Distribution Systems
V1.11. The impact of cyber network configuration on the dynamic-thermal failure of transformers considering distributed generator controller
V1.12. Operation of Energy Hub to Enhance Power System Resilience
V1.13. Resilient Operation of Power and Gas Networks to Service Restoration
V1.14. Challenges and Solutions in Power Sharing Control of Microgrids with Integrated Renewable Energy Sources
V1.15. Statistical Analysis of Supervisory Control and Data Acquisition System for Maintenance Management of Photovoltaic Solar Power Plant
V1.16. Small-Signal Stability Analysis and Compensation Control for DC Networked-Microgrid under Multiple Time Delays
V1.17. Reliability Improvement by Fault-Tolerant Operation of NPC Inverter for Motor Driving
V1.18. Multiplexing Power Supply Networks with DC Sub-Grid: Control Strategy and Economic Impact Assessment
