Control of Power Inverters in Renewable Energy and Smart Grid Integration
Integrating renewable energy and other distributed energy sources into smart grids, often via power inverters, is arguably the largest “new frontier” for smart grid advancements. Inverters should be controlled properly so that their integration does not jeopardize the stability and performance of power systems and a solid technical backbone is formed to facilitate other functions and services of smart grids.
This unique reference offers systematic treatment of important control problems in power inverters, and different general converter theories. Starting at a basic level, it presents conventional power conversion methodologies and then ‘non-conventional’ methods, with a highly accessible summary of the latest developments in power inverters as well as insight into the grid connection of renewable power.
Consisting of four parts – Power Quality Control, Neutral Line Provision, Power Flow Control, and Synchronisation – this book fully demonstrates the integration of control and power electronics.
Key features include:
Engineers working on inverter design and those at power system utilities can learn how advanced control strategies could improve system performance and work in practice. The book is a useful reference for researchers who are interested in the area of control engineering, power electronics, renewable energy and distributed generation, smart grids, flexible AC transmission systems, and power systems for more-electric aircraft and all-electric ships. This is also a handy text for graduate students and university professors in the areas of electrical power engineering, advanced control engineering, power electronics, renewable energy and smart grid integration.
Content:
Chapter 1 Introduction (pages 1–61):
Chapter 2 Preliminaries (pages 63–78):
Chapter 3 Current H? Repetitive Control (pages 80–91):
Chapter 4 Voltage and Current H? Repetitive Control (pages 93–107):
Chapter 5 Voltage H? Repetitive Control with a Frequency?Adaptive Mechanism (pages 109–126):
Chapter 6 Cascaded Current?Voltage H? Repetitive Control (pages 127–147):
Chapter 7 Control of Inverter Output Impedance (pages 149–163):
Chapter 8 Bypassing Harmonic Current Components (pages 165–172):
Chapter 9 Power Quality Issues in Traction Power Systems (pages 173–184):
Chapter 10 Topology of a Neutral Leg (pages 186–191):
Chapter 11 Classical Control of a Neutral Leg (pages 193–205):
Chapter 12 H? Voltage?Current Control of a Neutral Leg (pages 207–217):
Chapter 13 Parallel PI Voltage?H? Current Control of a Neutral Leg (pages 219–231):
Chapter 14 Applications in Single?Phase to Three?Phase Conversion (pages 233–248):
Chapter 15 Current Proportional—Integral Control (pages 250–258):
Chapter 16 Current Proportional?Resonant Control (pages 259–268):
Chapter 17 Current Deadbeat Predictive Control (pages 269–275):
Chapter 18 Synchronverters: Grid?Friendly Inverters That Mimic Synchronous Generators (pages 277–296):
Chapter 19 Parallel Operation of Inverters (pages 297–333):
Chapter 20 Robust Droop Control with Improved Voltage Quality (pages 335–346):
Chapter 21 Harmonic Droop Controller to Improve Voltage Quality (pages 347–358):
Chapter 22 Conventional Synchronisation Techniques (pages 360–378):
Chapter 23 Sinusoid?Locked Loops (pages 379–392):
Year:2013
Publisher:Wiley-IEEE Press
Language:English
Pages:416
ISBN 10:1118481801
ISBN 13:9781118481806
File:PDF, 13.25 MB
IPFS:CID , CID Blake2b
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