- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
The increasing integration of Plug-in Electric Vehicles (PEVs) into power grids has sparked new challenges and opportunities in energy management, grid stability, and sustainable power solutions. Role of Plug-in Electric Vehicles in Grid Management Services provides a comprehensive exploration of how PEVs are transforming modern power networks, offering solutions for demand-side management, vehicle-to-grid (V2G) integration, and energy storage. This book presents in-depth discussions on emerging technologies, smart charging strategies, and optimization methods to ensure a resilient and efficient grid infrastructure.
With contributions from leading researchers and industry experts, this book delves into critical areas such as the impact of EV integration on grid stability, smart charging infrastructure, battery health monitoring using AI, and advanced power electronic converters for seamless EV-grid interactions. Covering both theoretical foundations and practical applications, it serves as an essential resource for researchers, policymakers, and professionals working at the intersection of electric mobility and power systems.
Key Features:
A detailed review of the impact of EV integration on power grids and energy transition.
Cutting-edge insights into smart charging infrastructure and multi-criteria decision-making for lithium battery selection.
AI and machine learning applications for battery health monitoring and key parameter estimation.
Novel optimization techniques for multi-area microgrids incorporating energy storage and EVs.
Advanced power electronics designs, including DC-DC converters and resonant converters for efficient EV charging.
Exploration of future trends and research directions in EV-integrated grids.
This book is an invaluable reference for academics, engineers, and researchers in electrical engineering, renewable energy, and electric vehicle technology. It will also benefit industry professionals involved in power system planning, grid management, and electric mobility solutions.
Contents
1. Vehicle Integration to the Grid: A Comprehensive Review. 2. Smart Charging of Electric Vehicles for Robust Power System Infrastructure: Fundamentals and Current Trends. 3. Review and Outlook on Synergies among Integrated Systems of EVs and Rooftop Solar fostering energy transition. 4. Cell Balancing and Comparison of Electric Vehicles Based on Battery Capacity. 5. A Critical Review of Battery Health Monitoring and RUL Estimation Using AI and Machine Learning-Based Algorithms. 6. Smart Charging Infrastructure. 7. A Multi Criterion Decision Making Approach Towards Optimal Selection of Lithium Batteries for Electric Vehicle Applications. 8. Estimation of Key Parameters in EV Batteries Using Machine Learning Techniques. 9. Incorporating Energy Storage and Electric Vehicles into Multi-Area Microgrid using a Novel Secretary Bird Optimisation-Based Cascaded Controller. 10. Stability Boundary Locus Method for Load Frequency Control with Electric Vehicle Aggregator and Time Delay. 11. Performance Evaluation of Dual Active Bridge Resonant Converters for Efficient EV Intercharging: A Simulation Study. 12. Integrated Single-Phase Totem-Pole Power Factor Correction with Renewable Energy Source Buck-Boost Converter. 13. Design and Analysis of a High-Gain Quadratic DC-DC Converter for Electric Vehicles. 14. Solar Power-Based Fast DC Charging of an Electric Vehicle using Classical Sliding Mode Controlled Dual Active Bridge Converter. 15. Schedule of Electric Vehicles in The Distribution Networks. 16. Future Trends and Research Directions in EV-Integrated Grid.
