DocumentCode
825714
Title
History of vacuum circuit breakers and recent developments in Japan
Author
Homma, M. ; Sakaki, M. ; Kaneko, E. ; Yanabu, S.
Author_Institution
Toshiba Corp., Tokyo, Japan
Volume
13
Issue
1
fYear
2006
Firstpage
85
Lastpage
92
Abstract
Vacuum circuit breakers (VCBs) have been developed and widely applied in Japan to meet the requirements of increasing energy consumption and also in national security of various areas. As a result, for example, a 168 kV two break porcelain type and a 100 kA one break VCB have already appeared in the Japanese market and they are currently being exported to world-wide markets. VCBs interrupt currents in vacuum, and this means they do not exhaust dissolved gases which are sometimes harmful to the human body or cause effects on the environment. Therefore, by its nature, the recycling of materials and safety to the human body have been realized, and also no global warming effects would be expected. Energy is extremely essential and important in human daily life, and many types of circuit breakers play important roles in electrical power transmission and distribution systems to maintain the systems reliability and safety by switching the systems under several conditions. Since vacuum circuit breakers possess a lot of advantages such as high current interrupting capabilities, small size, and low cost, they will be used much more in the future, and at this moment, we believe it is very worthy to discuss and consider thoroughly future trends of VCBs. In this paper, the results of the developments in Japan will be reviewed, the reflection of the results will be stated, and the subjects of engineering in the 21st century will be discussed. These will include recycling, safeguards to the human body and the fireless nature of VCBs; and it will be demonstrated that the developmental works of VCBs are being wonderfully explored in Japan now and in the future.
Keywords
power consumption; power distribution reliability; power transmission reliability; vacuum circuit breakers; vacuum interrupters; cost reduction; distribution system; electrical power transmission; energy consumption; global warming; human safeguards; material recycling; system reliability; vacuum circuit breaker; vacuum interrupters; Circuit breakers; Elementary particle vacuum; Energy consumption; Gases; History; Humans; National security; Porcelain; Recycling; Safety;
fLanguage
English
Journal_Title
Dielectrics and Electrical Insulation, IEEE Transactions on
Publisher
ieee
ISSN
1070-9878
Type
jour
DOI
10.1109/TDEI.2006.1593405
Filename
1593405
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