The book starts from the existed problems in fault analysis of the lumped-parameter circuit model. It firstly introduces the basic electromagnetic phenomenon, uniform transmission line guided electromagnetic waves, multi-conductor system guided electromagnetic waves, fault generated travelling waves; then it introduces series of the traveling waves based protections, which includes principle, technology and application in practical power grid; it also discusses the travelling waves based fault location and the travelling waves based fault feeder selector in China. It systemically reveals the…mehr
The book starts from the existed problems in fault analysis of the lumped-parameter circuit model. It firstly introduces the basic electromagnetic phenomenon, uniform transmission line guided electromagnetic waves, multi-conductor system guided electromagnetic waves, fault generated travelling waves; then it introduces series of the traveling waves based protections, which includes principle, technology and application in practical power grid; it also discusses the travelling waves based fault location and the travelling waves based fault feeder selector in China. It systemically reveals the essential features of the fault traveling wave and concludes the analytical solutions of the transient fault traveling waves and the modulus maxima representation of the dyadic wavelet transform of fault traveling waves. Finally, the book analyzes the acquisition of traveling waves and the sensor's characteristics. A unique fault travelling wave test device has been invented based on the theories of the book and will be applied in real systems.
Xinzhou Dong is a Professor of Tsinghua University, the head of Power System Protection Research team, the director of the Electric Power Systems Research Institute, Department of Electrical Engineering, Tsinghua University, and the director of Beijing International Science and Technology Cooperation Base for Green Energy and Power Safety. Prof. Dong was born in Shaanxi, China, in 1963. He received the B.Sc., M.Sc., and Ph.D. degrees in Electrical Engineering from Xi'an Jiaotong University, Xi'an, China, in 1983, 1991, and 1996, respectively. He continued his Postdoctoral Research with the Electrical Engineering Station, Tianjin University, Tianjin, China, from 1997 to 1998. Since 1999, he has been with Tsinghua University, Beijing, China. Prof. Dong is an elected IEEE Fellow, IET Fellow, and CSEE Fellow. He serves as the Chairman of IEEE PES Protection and Control technical committee, China, Trustee of CES, Member of the technical committee of CIGRE/CIRED China, Convener of Cigre B5 WG55, Convener of IEC TC95 AGH4, Member of IEEE PSRC Fellow WG. He is a visiting professor of the University of Strathclyde, UK, Chief international professor of National Taipei University of Technology, Talents Program of Shaanxi Province, and Distinguished Professor of the Shaanxi University of Technology. He is also an expert with the special allowance from the State Council of China. His major research areas are as follows, traveling waves-based protection, travelling waves-based-fault location, traveling waves-based-fault line selection, non-communication protection, UHV transmission line's protection, intelligent substation, system protection, and application research on wavelet transform. Prof. Dong undertook the State Key R&D Plan Project, finished the Major International Collaborative Project of NSFC (National Natural Science Foundation), the Key Project of NSFC, Tsinghua-ALSTOM Research Center on Protection and Control etc.. Prof. Dong has published over 400 papers, 7 books with co-authors. He holds 25 international patents, 77 Chinese patents. He has received numerous awards from the government and the societies, including the 2020 Chinese National Innovation Award, State Technological Invention Award of the Chinese government (2nd Prize) respectively in 2017 and 2007, 4 Science and Technology Award from Beijing government or CSEE(all 1st Prize). Since 2017 he was named the Chinese Highly Cited Researcher by Elsevier.
Inhaltsangabe
Introduction.- Electromagnetic Wave Foundation.- Fault Line Wave Theory.- Wavelet Transformation.- Faulty line wave variation characteristics of transformers and secondary cables.- Transmission line vertical wave direction protection.- Transmission Line Vertical Wave Differential Protection.- DC Line Wave Protection.- Transmission line transient wave fault range.- Neutral point non-effective ground distribution grid single-phase ground selection line wave protection.- Wave Protection Test System.- Reference.- Appendix 1.- Appendix 2 Vector Computing Relationship.
Introduction.- Electromagnetic Wave Foundation.- Fault Line Wave Theory.- Wavelet Transformation.- Faulty line wave variation characteristics of transformers and secondary cables.- Transmission line vertical wave direction protection.- Transmission Line Vertical Wave Differential Protection.- DC Line Wave Protection.- Transmission line transient wave fault range.- Neutral point non-effective ground distribution grid single-phase ground selection line wave protection.- Wave Protection Test System.- Reference.- Appendix 1.- Appendix 2 Vector Computing Relationship.
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