<p/><br></br><p><b> About the Book </b></p></br></br>"Increased needs for electrical energy as well as environmental concerns besides growing attempts to reduce dependency on fossil fuel resources have caused power system industries all around the world to set an ambitious target of renewable generation. Therefore, the capacity of installed inverter-based distributed generators (DGs) and renewable energy sources (RESs), individually or through the microgrids (MGs), in power systems is rapidly growing; and this increses the significance of renewable integrated power system stability and control as a challenging issue."--<p/><br></br><p><b> Book Synopsis </b></p></br></br><b>RENEWABLE INTEGRATED POWER SYSTEM STABILITY AND CONTROL</b> <p><b>Discover new challenges and hot topics in the field of penetrated power grids in this brand-new interdisciplinary resource</b><p><i>Renewable Integrated Power System Stability and Control</i> delivers a comprehensive exploration of penetrated grid dynamic analysis and new trends in power system modeling and dynamic equivalencing. The book summarizes long-term academic research outcomes and contributions and exploits the authors' extensive practical experiences in power system dynamics and stability to offer readers an insightful analysis of modern power grid infrastructure.<p>In addition to the basic principles of penetrated power system modeling, model reduction, and model derivation, the book discusses inertia challenge requirements and control levels, as well as recent advances in visualization of virtual synchronous generators and their associated effects on system performance. The physical constraints and engineering considerations of advanced control schemes are deliberated at length.<p><i>Renewable Integrated Power System Stability and Control</i> also considers robust and adaptive control strategies using real-time simulations and experimental studies. Readers will benefit from the inclusion of: <ul><li>A thorough introduction to power systems, including time horizon studies, structure, power generation options, energy storage systems, and microgrids</li><li>An exploration of renewable integrated power grid modeling, including basic principles, host grid modeling, and grid-connected MG equivalent models</li><li>A study of virtual inertia, including grid stability enhancement, simulations, and experimental results</li><li>A discussion of renewable integrated power grid stability and control, including small signal stability assessment and the frequency point of view</li></ul><p>Perfect for engineers and operators in power grids, as well as academics studying the technology, <i>Renewable Integrated Power System Stability and Control</i> will also earn a place in the libraries of students in Electrical Engineering programs at the undergraduate and postgraduate levels who wish to improve their understanding of power system operation and control.<p/><br></br><p><b> From the Back Cover </b></p></br></br><p><b>Discover new challenges and hot topics in the field of penetrated power grids in this brand-new interdisciplinary resource</b></p><p><i>Renewable Integrated Power System Stability and Control</i> delivers a comprehensive exploration of penetrated grid dynamic analysis and new trends in power system modeling and dynamic equivalencing. The book summarizes long-term academic research outcomes and contributions and exploits the authors' extensive practical experiences in power system dynamics and stability to offer readers an insightful analysis of modern power grid infrastructure.</p><p>In addition to the basic principles of penetrated power system modeling, model reduction, and model derivation, the book discusses inertia challenge requirements and control levels, as well as recent advances in visualization of virtual synchronous generators and their associated effects on system performance. The physical constraints and engineering considerations of advanced control schemes are deliberated at length.</p><p><i>Renewable Integrated Power System Stability and Control</i> also considers robust and adaptive control strategies using real-time simulations and experimental studies. Readers will benefit from the inclusion of: </p><ul><li>A thorough introduction to power systems, including time horizon studies, structure, power generation options, energy storage systems, and microgrids</li><li>An exploration of renewable integrated power grid modeling, including basic principles, host grid modeling, and grid-connected MG equivalent models</li><li>A study of virtual inertia, including grid stability enhancement, simulations, and experimental results</li><li>A discussion of renewable integrated power grid stability and control, including small signal stability assessment and the frequency point of view</li></ul><p>Perfect for engineers and operators in power grids, as well as academics studying the technology, <i>Renewable Integrated Power System Stability and Control</i> will also earn a place in the libraries of students in Electrical Engineering programs at the undergraduate and postgraduate levels who wish to improve their understanding of power system operation and control.</p><p/><br></br><p><b> About the Author </b></p></br></br><p><b>Hêmin Golpîra, </b> earned his PhD degree from Tarbiat Modares University, Tehran, Iran. Since 2016 he has been an Assistant Professor in the Department of Electrical and Computer Engineering at the University of Kurdistan. He was formerly an Associate Fellow at the University of Wisconsin-Madison, USA, and a Visiting Professor at the École Centrale de Lille, France.</p><p><b>Arturo Román-Messina</b> earned his PhD degree from Imperial College, London, UK. Since 1997 is a Professor at the Center for Research and Advanced Studies of the National Polytechnic Institute of Mexico. A Fellow of the IEEE, he is on the editorial and advisory boards of Electric Power Systems Research, and Electric Power Components and Systems.</p><p><b>Hassan Bevrani, PhD, </b> is a Professor and Head of Smart/Micro Grids Research Center at the University of Kurdistan. He received his doctorate in Electrical Engineering from Osaka University in Japan. He is the author and co-author of more than 6 books, 15 book chapters, and 350 journal/conference papers.</p>
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