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Full Description
Hybrid energy systems are essential for combining different clean generation technologies into a clean and stable power system, incorporating solar, wind and hydropower, as well as energy storage solutions.
This book is written by a group of experts from Asia and Europe, bringing together expertise in handling power distribution for regions with high population density, where demand for electricity is high and continues to rise. Hybrid energy systems are explored in the context of this high-demand environment.
Chapters cover stability analysis, various combinations of generators such as wind and solar, and solar-wind-biomass, harmonizing PV and wind, energy storage, operation and planning, distributed optimization, reactive power management, energy management in smart mesh networks, hybrid renewable energy integration in smart grids, and microgrids, transaction strategies in energy markets, smart transmission, optimization algorithms for maximum power point tracking (MPPT) of PV under shading, and distribution networks with shunt capacitors and on-site generation. Case studies reinforce the lessons learned.
Hybrid Energy Systems: Planning, operation and optimization is written by and for researchers and practitioners involved with energy systems, and will also be of interest to grid and utility operators and policy makers in the energy engineering field.
Contents
Chapter 1: Introduction to Hybrid Renewable Energy Systems and Storage
Chapter 2: Stability Analysis of Hybrid Power System including Wind Turbine and Solar PV System
Chapter 3: Solar-Wind-Biomass Hybrid Renewable Energy System with Hydrogen Production
Chapter 4: Energy Storage System Operation and Planning with Hybrid Renewable Integration
Chapter 5: A Distributed Optimization strategy and Hardware-in-the-Loop Validation for Distributed Energy Systems
Chapter 6: Coordination of PV-STATCOM and Hybrid Energy Storage System for Reactive Power Management in Distribution System
Chapter 7: Efficient Energy Management for IoT Applications in Smart Mesh Networks for Hybrid Renewable Generation
Chapter 8: Strategies for Hybrid Renewable Energy Sources Integration in Smart Grid and Microgrid
Chapter 9: Optimal Transaction Strategies Model in Energy and Reserve Markets Considering Hybrid Renewable Energy and Storage System
Chapter 10: Hybrid Renewable Energy and Smart Transmission: Vietnamese approach and Case Studies
Chapter 11: Harmonizing PV and Wind based Hybrid Renewable Energy System
Chapter 12: An integrated Whale Optimization Combined with Perturb & Observe Algorithm for Efficient MPPT of PV System under Partial Shading
Chapter 13: A quadratically constrained mixed-integer programming formulation for reconfiguration in electrical distribution networks with shunt capacitors and on-site generation
