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Advanced Power Electronics Converters for Future Renewable Energy Systems

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Advanced Power Electronics Converters for Future Renewable Energy SystemsНазвание: Advanced Power Electronics Converters for Future Renewable Energy Systems
Автор: Neeraj Priyadarshi, P. Sanjeevikumar, Farooque Azam, C. Bharatiraja, Rajesh Singh
Издательство: CRC Press
Год: 2023
Страниц: 358
Язык: английский
Формат: pdf (true)
Размер: 27.1 MB

This book narrates an assessment of numerous advanced power converters employed on primitive phase to enhance the efficiency of power translation pertaining to renewable energy systems. It presents the mathematical modelling, analysis, and control of recent power converters topologies, namely, AC/DC, DC/DC, and DC/AC converters. Numerous advanced DC-DC Converters, namely, multi-input DC-DC Converter, Cuk, SEPIC, Zeta and so forth have been assessed mathematically using state space analysis applied with an aim to enhance power efficiency of renewable energy systems.

This book demonstrates the employment of high gain power electronics converters for future solar and wind renewable energy systems. Chapter 1 explains the evolution and analysis of a novel three-port battery-integrated tapped-inductor dc-dc boost converter (BITIC) for the power management of LVPDS. A State of Charge calculation using Coulomb counting method employed along with the battery model is explained in Chapter 2. Chapter 3 deals with SEPIC/Zeta converter because, in comparison to other converters, SEPIC and Zeta converters have reduced ripple in output voltage. Chapter 4 illustrates a solar-powered gearless elevator drive control using a four quadrant DC to DC converter system. Non-isolated quadratic bidirectional DC-DC converters for renewable energy systems are discussed in Chapter 5. Chapter 6 explains modeling and MPPT control of a PMSG-based wind turbine system. Hybrid multilevel inverter topologies for medium-voltage applications are presented in Chapter 7.

Chapter 8 presents a streamlined approach on maximum power point tracking (MPPT) control of a single-stage grid-connected solar inverter. A review of cascaded H-bridge and modular multilevel converter topologies, modulation technique, and comparative analysis is explained in Chapter 9. Chapter 10 presents a review analysis of cascaded H-bridge and modular multilevel inverters. Chapter 11 presents the development of battery energy storage system (BESS) with photovoltaic (PV) emulated output characteristics for direct PV string DC coupling.

Investigations on the effect of SMC parameters of STATCOM–ES on small signal stability of the power system is discussed in Chapter 12. Chapter 13 deals with a new hybrid islanding detection technique for microgrid using a virtual synchronous machine. Behavioral analysis of multi-source DC to DC converter for integrating renewable energy and sourcing to residential loads is presented in Chapter 14.

The book:

Explains various power electronics converters for different types of renewable energy sources
Provides a review of the major power conversion topologies in one book
Focuses on experimental analysis rather than simulation work
Recommends usage of MATLAB, PSCAD, and PSIM simulation software for detailed analysis
Includes DC-DC converters with reasonable peculiar power rating

This book is aimed at researchers, graduate students in electric power engineering, power and industrial electronics, and renewable energy.

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