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Power Conversion and Control of Wind Energy Systems

ISBN: 978-0-470-59365-3

July 2011

Wiley-IEEE Press

480 pages

Description

The most comprehensive analysis available on various practical wind energy systems

Wind energy is one of the fastest growing renewable energy resources of the past decade. This book is dedicated to the state-of-the-art power conversion and control of wind energy conversion systems (WECS) from an electrical engineering perspective, providing a thorough analysis of wind generators, system configurations, power converters, control schemes, and dynamic/steady-state performance of various practical wind energy systems.

The book begins with market survey, wind turbine technology, wind energy system classifications, and grid codes for wind power integration. The fundamentals of wind energy systems are reviewed, as are commonly used wind generators. The book goes on to discuss various power converters for wind energy conversion and characteristics of major WECS, including fixed-speed induction generator, variable-speed squirrel cage induction generator, doubly fed induction generator, and synchronous generator based wind energy systems.

Throughout, important concepts are illustrated with simulations and experiments, and design guidance is provided with tables, charts, and graphs. To help the reader understand the principle and operation of various WECS, more than 30 case studies are given in various chapters and more than 100 solved problems are included in a dedicated appendix. This book not only serves as a valuable reference for academic researchers, practicing engineers, and consultants, but also as a textbook for graduate and senior-year undergraduate students.

" . . . this book is extremely important and very timely. It is expected to be of wide demand in the world. . . . It gives comprehensive and in-depth analysis on wind generators, power converters, and control systems of various types of wind generation systems. . . . The book is very well organized with physical explanations, mathematical analysis, computer simulations, experimental results, and worked-out examples. . . . It is a unique book with optimal balance of theory and practical discussion." —Dr. Bimal K. Bose, Condra Chair of Excellence/Emeritus in Power Electronics, University of Tennessee

About the Author

BIN WU, PhD, is a Professor in the Department of Electrical and Computer Engineering at Ryerson University (Canada). He is an NSERC/Rockwell Automation Industrial Research Chair and the founder of the Laboratory for Electric Drive Applications and Research (LEDAR). He is a Fellow of the Institute of Electrical and Electronics Engineers, Engineering Institute of Canada, and Canadian Academy of Engineering.

YONGQIANG LANG, PhD, is a Senior Engineer in the State Grid Electric Power Research Institute (China). He worked in the LEDAR WindTech Laboratory at Ryerson University from November 2006 to June 2009 as a postdoctoral fellow in the area of wind power.

NAVID ZARGARI, PhD, is a leading expert in medium voltage drives and a practicing engineer for fifteen years. He has been with the Medium Voltage Business of Rockwell Automation Canada since 1994, and has in-depth knowledge of many aspects of adjustable speed drives and wind energy systems.

SAMIR KOURO, PhD, is a research academic in the Electronics Engineering Department of Universidad Tecnica Federico Santa Maria (Chile).