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Full Description
As the world transitions toward sustainable energy solutions, power converters have become indispensable in enabling the efficient integration and operation of renewable energy systems. Modern Power Converters for Renewable Energy Applications: Modeling, Analysis, Design, and Control offers a comprehensive guide to the modeling, analysis, design, and control of these critical technologies, tailored for solar photo voltaic, wind energy, and energy storage applications.
This book delves into the unique challenges and requirements of power converters, with detailed coverage of DC-DC, DC-AC, and multilevel converter technologies. Readers will gain insights into advanced control strategies for ensuring system stability and reliability under varying conditions.
Bridging theory and practice, this book is packed with case studies, simulation examples, and design methodologies to help readers transition from conceptual understanding to practical implementation. Using industry‑standard tools, readers can analyze converter performance, optimize designs, and address real‑world challenges in renewable energy systems.
Key topics include grid synchronization, power quality improvement, and compliance with international standards, equipping readers to handle the complexities of modern power grids. This book also explores the integration of energy storage systems, emphasizing their role in stabilizing renewable outputs and enhancing system flexibility.
Ideal for researchers, engineers, and students, this book provides the expertise needed to excel in power electronics for renewables. Whether advancing research, driving innovation, or solving practical challenges, Modern Power Converters for Renewable Energy Applications: Modeling, Analysis, Design, and Control is the definitive resource for mastering the technologies shaping the future of sustainable energy.
Contents
1. Power Converters for Renewable Energy Systems: An Introduction 2. Energy Conversion for Renewable Power Systems 3. Advanced Power Converters for Renewable Energy Systems 4. High Gain Boost Converters for Solar PV Applications 5. Improving Solar Power Efficiency Using Zeta Converter and MPPT Control 6. Hybrid Sliding Mode Control for Solar PV Systems with Cuk: Converter 7. Comparative Study of Hybrid MPPT Methods for Solar PV Systems Under Partial Shading 8. Enhancing Grid-Connected Solar PV Systems with Multilevel Inverter Technology 9. Multilevel Inverters for Electric Drives 10. Multilevel Inverter Solutions for Wind and Solar Hybrid Systems 11. Electric Vehicle Charging Infrastructure: Current Technologies and Future Trends 12. Electric Vehicle Charging Infrastructure: Challenges, Innovations, and Policy Recommendations 13. Compact Electric Tractor Charging at the Farm 14. Assessment of Grid Impact Analysis for EV Charging 15. Renewable Energy-Integrated EV Charging with Advanced Power Conversion 16. Blockchain and AI Solutions for Smart EV Charging 17. Thermal and Efficiency Comparison of Wide-Bandgap Semiconductors in EV Chargers 18. Solar-Powered Inductive Charging System for Marine Applications 19. Bidirectional Power Converters in Renewable Energy: A Comprehensive Review
