DocumentCode
2473089
Title
Improving open-loop medium-voltage feeder self-healing
Author
Meisinger, Mike ; McCarthy, Chris
Author_Institution
S&C Electr. Eur. Ltd., Swansea, UK
fYear
213
fDate
10-13 June 213
Firstpage
1
Lastpage
4
Abstract
This paper outlines the application of new technologies that enhance the benefits of the conventional looped distribution scheme by testing for feeder segment faults without using conventional reclosing. Pulseclosing technology, unlike conventional reclosing, reduces thermal and mechanical stress on substation transformers and other interim-feeder equipment by eliminating the repeated occurrence of high fault currents, thus also extending the life of legacy system assets. This revolutionary new technology also overcomes coordination constraints, allowing the expansion of a distribution loop or radial feeder to an unlimited number of series overcurrent protection devices. Maximum system restoration can be achieved within a few seconds after initial fault detection, and without the need for communication between devices.
Keywords
fault diagnosis; overcurrent protection; power transformers; substations; fault currents; fault detection; feeder segment faults; interim-feeder equipment; legacy system assets; looped distribution; maximum system restoration; mechanical stress; open-loop medium-voltage feeder; overcurrent protection; pulseclosing technology; repeated occurrence; self-healing; substation transformers; thermal stress;
fLanguage
English
Publisher
iet
Conference_Titel
Electricity Distribution (CIRED 2013), 22nd International Conference and Exhibition on
Conference_Location
Stockholm
Electronic_ISBN
978-1-84919-732-8
Type
conf
DOI
10.1049/cp.2013.0880
Filename
6683483
Link To Document