Power Systems for Residential Areas: Optimization, Control, and Smart Grid Development (2 Volumes)
Efficient, reliable, and sustainable power systems are vital for modern cities, particularly in densely populated urban areas where energy demand is high and power quality requirements are stringent. With the rise of renewable energy, hybrid systems, and smart grid technologies, optimization and control strategies are critical to ensure resource efficiency and system resilience.
This two-volume work provides a comprehensive exploration of the latest methods and applications for residential power systems:
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Volume 1: Sizing and Optimization of Energy Systems for Communities
Covers power systems and smart grid optimization for sustainable cities, with a focus on algorithms for system sizing, economic dispatch, renewable energy system configuration, hybrid energy solutions, and pathways to 100% green hybrid systems. -
Volume 2: Control, Management, and Power Quality of Smart Grids
Reviews optimization algorithms and addresses advanced topics such as smart grid concepts, dispatch strategies, energy allocation, power quality indices, load frequency control, optimization for fault identification and protection, communication systems, and community energy cells.
Together, these volumes serve as a valuable resource for researchers, policymakers, engineers, and industry professionals working on the design, optimization, and management of sustainable residential power systems. By bridging theory, practice, and future research directions, the book contributes to the development of resilient smart grids and energy systems for the cities of tomorrow.
