Overview
- Covers basic concepts and recent advances
- Offers insights on challenges and potential solutions
- Discusses relevance to adoption, operation, and efficiency of distributed renewable energy systems
Part of the book series: Power Systems (POWSYS)
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About this book
The lack of effective DC fault protection technology remains a major barrier for the DC paradigm shift. In addressing the key challenges, Direct Current Fault Protection: Basic Concepts and Technology Advances starts with an introduction to the advantages of DC power systems before moving on to an in-depth review of DC fault protection technologies, including mechanical circuit breaker (MCB), solid-state circuit breaker (SSCB), hybrid circuit breaker (HCB), converter based (breakerless) protection, and fault current limiter (FCL). Coverage includes a comprehensive comparison of various DC fault interruption technologies and their suitable applications, state-of-the-art DC fault protection concepts and advances in research, identification of fundamental challenges and future directions in the field, and commercialization aspects. This book will be a valuable reference for practicing engineers, researchers, and graduate students in the field of power electronics andDC power systems.
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Keywords
- DC Fault Protection
- DC Power Applications
- Fault Current Limiter (FCL)
- Hybrid Circuit Breaker (HCB)
- iBreaker
- Mechanical Circuit Breaker (MCB)
- Meshed MVDC Grids
- MMC Topology
- MVDC Systems
- Resonant Solid-state Breakers
- T-type Modular DC Circuit Breaker (T-Breaker)
- Ultra Fast Resonant DC Breaker
- Green Energy
- Power Electronics
Table of contents (20 chapters)
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Front Matter
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Introduction
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Front Matter
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Solid State Circuit Breakers
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Front Matter
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Hybrid Circuit Breakers
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Front Matter
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Other Fault Protection Topics
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Front Matter
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Reviews
Editors and Affiliations
About the editors
Isik C. Kizilyalli currently serves as the Associate Director for Technology at the Advanced Research Projects Agency – Energy (ARPA-E), U.S. Department of Energy. In this role, Dr. Kizilyalli supports the oversight of all technology issues relating to ARPA-E’s programs as well as assisting with program development, and coordinating project management across the Agency. Kizilyalli’s focus at ARPA-E includes novel power electronics, wide bandgap semiconductors, electronic systems for hostile environments, electrification of transport (aviation, ships, automotive), subsurface instrumentation, novel drilling concepts, medium voltage DC distribution grids, and grid resiliency against EMP and space weather threats. Prior to joining ARPA-E, Kizilyalli served as founder, Chief Executive Officer, and Chief Technical Officer of Avogy Inc., a venture backed start-up focused on bulk GaN based vertical power semiconductor technologies and power electronics. Previously, he was with Bell Laboratories, followed by Nitronex Corporation, and solar PV startup Alta Devices where his team holds the world record for single junction solar cell conversion efficiency. Kizilyalli was elected a Fellow of the Institute of Electrical and Electronics Engineers (IEEE) in 2007 for his contributions to “Integrated Circuit Technology”. He also received the Bell Laboratories’ Distinguished Member of Technical Staff award and the Best Paper Award at the International Symposium on Power Semiconductors and Integrated Circuits in 2013. Kizilyalli holds his B.S. in Electrical Engineering, M.S. in Metallurgy, and Ph.D. in Electrical Engineering all from the University of Illinois Urbana-Champaign. He has published more than 100 papers and holds 126 issued U.S. patents.
Z. John Shen is currently a Professor and Director of School of Mechatronic Systems Engineering at Simon Fraser University in British Columbia, Canada. He has more than 30 years of industrial, academic,and entrepreneurial experience in power electronics and power semiconductor devices. He has over 300 publications and 18 issued U.S. patents in these areas. He has been involved in DC circuit breaker research since 2013. He was Grainger Chair Professor of Electrical and Power Engineering at the Illinois Institute of Technology, Chicago between 2013 and 2021. He has served the IEEE Power Electronics Society (PELS) in various capacities including Vice President of Products, AdCom member, Chair of Distinguished Lecturers Program, Deputy Editor-in-Chief of IEEE Power Electronics Magazine, Guest Editor-in-Chief of the IEEE Transaction on Power Electronics and the IEEE Journal of Emerging and Selected Topics in Power Electronics. He has been on the organizing or technical program committee of over 30 international conferences in the field, and served as the General Chair of the 2016 Energy Conversion Congress and Exposition (ECCE2016) and the 2018 International Symposium on Power Semiconductor Devices & IC’s (ISPSD2018). He is a Fellow of IEEE and the U.S. National Academy of Inventors. He also serves on the Board of Directors of Vicor Corporation (NASDAQ: VICR). He received his B.S. from Tsinghua University in China, M.S., and Ph.D. from Rensselaer Polytechnic Institute in the U.S., all in electrical engineering.
Daniel W. Cunningham is Acting Associate Director for Technology-to-Market at the Advanced Research Projects Agency – Energy (ARPA-E), U.S. Department of Energy where he helps prepare innovative energy technologies for transition from the lab to the market. Prior to ARPA-E, Cunningham worked at BP PLC in the Chief Scientist’s Office evaluating emerging energy technologies such as energy storage and alternative fuels pathways, assessing their impact on BP’s future business. In addition, Cunningham spent much of his career at BP Solar Inc., serving in multiple capacities, including Director of Product Development leading a multidisciplinary team to develop new technologies for BP Solar’s product line. Here, he was responsible for bringing technologies to market, using innovative materials and manufacturing processes to enhance performance and reduce cost. He also took on the role of Director of Technology where he led a R&D engineering team developing and manufacturing electrochemically deposited thin film CdTe devices for use in photovoltaic applications in collaboration with NREL and the Institute of Energy Conversion (UoD). He received a Research Partnership Award in 2001 from the U.S. Department of Energy for work in this area. Cunningham has extensive experience in semiconductor crystal growth and processing including PV module packaging and product reliability. Cunningham has authored over 70 publications and 12 patent publications. He earned a Ph.D. in Chemistry specializing in electrochemistry and in-situ reflectance spectroscopy, and a B.Sc. (Hons) in Chemistry at the University of Southampton, UK. Heis also a Senior Member of the IEEE and a Fellow of the Royal Society of Chemistry with Chartered Chemist status.
Bibliographic Information
Book Title: Direct Current Fault Protection
Book Subtitle: Basic Concepts and Technology Advances
Editors: Isik C. Kizilyalli, Z. John Shen, Daniel W. Cunningham
Series Title: Power Systems
DOI: https://doi.org/10.1007/978-3-031-26572-3
Publisher: Springer Cham
eBook Packages: Energy, Energy (R0)
Copyright Information: This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply 2023
Hardcover ISBN: 978-3-031-26571-6Published: 24 May 2023
Softcover ISBN: 978-3-031-26574-7Published: 25 May 2024
eBook ISBN: 978-3-031-26572-3Published: 23 May 2023
Series ISSN: 1612-1287
Series E-ISSN: 1860-4676
Edition Number: 1
Number of Pages: XXV, 459
Number of Illustrations: 38 b/w illustrations, 299 illustrations in colour
Topics: Power Electronics, Electrical Machines and Networks, Energy Systems, Renewable and Green Energy, Electronic Circuits and Devices, Energy Systems