Advanced Frequency Regulation Strategies in Renewable-Dominated Power Systems
- 260 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
Advanced Frequency Regulation Strategies in Renewable-Dominated Power Systems
About This Book
Advanced Frequency Regulation Strategies in Renewable-Dominated Modern Power Systems discusses advanced control strategies positioned to attain stable and reliable electric power operation in highly renewable modern grids. These strategies are increasingly valuable components of the practitioner technical toolbox, and are essential to maintain frequency and voltage regulations, assert power quality standards, and ensure overall grid stability. This book focuses on the rapid integration of renewable-based generating units in power systems, highlighting state-of-the-art technologies and emerging topics pertaining to load frequency control, robust control strategies, and energy storage systems. Chapters are accompanied by case studies drawn from modern international practice.
- Disseminates novel control strategies for the reliable and robust control of renewable generating units
- Discusses implementation using case studies that address multiple frequency control applications across integrated modern power systems
- Accompanied by simulation models in MATLAB that are built to emphasize practical usage and address real-world problems
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Table of contents
- Cover image
- Title page
- Table of Contents
- Copyright
- Contributors
- Preface
- Chapter 1: Overview of the renewable-dominated power systems and their frequency regulation issues
- Chapter 2: Impacts of high renewable energy penetration on power system flexibility and strategies for frequency control
- Chapter 3: Effective frequency control in renewable dominated power systems
- Chapter 4: Nonlinear resilient frequency controller for hybrid power system
- Chapter 5: Design of an IÂ +Â Fuzzy based PD control strategy for damping power system oscillations in a networked environment integrated with renewable energy sources
- Chapter 6: Utilization of solid oxide fuel cell in amalgamated frequency-voltage control of RES-based restructured power systems
- Chapter 7: Price-based frequency regulation strategies in renewable-dominated power systems
- Chapter 8: Provision of kinetic energy support from wind turbines for frequency regulation services in the modern grid
- Chapter 9: Robust frequency regulation against cyberattack uncertainties in modern power system grids
- Chapter 10: Transient performance study in a rural microgrid: Influence of various energy storage options
- Chapter 11: Frequency control of hybrid autonomous microgrids comprising electric vehicles aggregator based on lightning attachment procedure optimizer
- Chapter 12: Demand side energy management algorithms integrated with the IoT framework in the PV smart grid system
- Chapter 13: Design of self-healing techniques and strategies for smart microgrids
- Chapter 14: Impacts of FACTS controllers in frequency regulation services of modern restructured power system
- Chapter 15: A novel intelligent distributed model predictive control scheme for load frequency control of a multimicrogrid system incorporating electric vehicles
- Chapter 16: Frequency regulation strategies in renewable energy-dominated power systems: Issues, challenges, innovations, and future trends
- Index