Protection of Modern Power Systems
Familiarize yourself with the cutting edge of power system protection technology
All electrical systems are vulnerable to faults, whether produced by damaged equipment or the cumulative breakdown of insulation. Protection from these faults is therefore an essential part of electrical engineering, and the various forms of protection that have developed constitute a central component of any course of study related to power systems. Particularly in recent decades, however, the demands of decarbonization and reduced dependency on fossil fuels have driven innovation in the field of power systems. With new systems and paradigms come new kinds of faults and new protection needs, which promise to place power systems protection once again at the forefront of research and development.
Protection of Modern Power Systems offers the first classroom-ready textbook to fully incorporate developments in renewable energy and ‘smart’ power systems into its overview of the field. It begins with a comprehensive guide to the principles of power system protection, before surveying the systems and equipment used in modern protection schemes, and finally discussing new and emerging protection paradigms. It promises to become the standard text in power system protection classrooms.
Protection of Modern Power Systems readers will also find:
* Treatment of the new faults and protection paradigms produced by the introduction of new renewable generators
* Discussion of Smart Grids–intelligently-controlled active systems designed to integrate renewable energy into the power system–and their protection needs
* Detailed exploration of Synchronized Measurement Technology and Intelligent Electronic Devices
* Accompanying website to include Solutions Manual for instructors
Protection of Modern Power Systems is an essential resource for students, researchers, and system engineers looking for a working knowledge of this critical subject.
Mengenai Pengarang
Janaka Ekanayake, Ph.D. is a Senior Professor and the Chair of Electrical and Electronic Engineering of the University of Peradeniya, Sri Lanka. He is a Visiting Professor at the Institute of Energy at Cardiff University, UK, and an Honorary Professor of the University of Wollongong, Australia. He has published widely on intelligent electronic devices, renewable energy and power systems.
Vladimir Terzija is a Professor of Newcastle University, UK. Prior to that he was a Full Professor and the Head of Laboratory of Modern Energy Systems at Skoltech, Moscow, Russian Federation. He has worked in the field of power system protection for over 25 years. He has published widely on power system protection and WAMPAC and is a member of the IEEE.
Ajith Tennakoon is a Senior Power Systems Engineer for Vysus Group, Australia, involved in grid connection studies fowr renewable energy sources. He has extensive experience in Power System protection and has been heading the Transmission Network protection in Sri Lanka. Previously he was a senior protection engineer engaged in design and implementation of Generator protection systems in Sri Lanka.
Athula Rajapakse is a Professor at the University of Manitoba, Canada. He leads the Intelligent Power Grid Laboratory at the University of Manitoba and has conducted a wide range of research related to power system protection, wide area protection and control, protection of future HVDC grids, and grid integration of renewable energy.