Title :
Mechanical and environmental considerations in transmission line surge arrester applications
Author_Institution :
IEEE PES Transm. & Distrib. Comm., Toronto, ON, Canada
Abstract :
Demonstrated long-term electrical reliability of overhead transmission line surge arresters (TLSA) must now be matched by improved mechanical reliability of the installations. The choice of configuration, including externally gapped (EGLA) and non-gapped (NGLA) designs, as well as the mounting arrangements, affects the applied stresses. NGLA suspended from conductors have pendulum frequencies and mass that can affect vibration control measures. Environmental issues such as moisture ingress and external flashover also affect selection of leakage, dry arc and external gap distances. Tests adapted from insulator, mechanical component and substation arrester standards describe some reasonable utility expectations for TLSA mechanical and environmental performance.
Keywords :
arresters; power overhead lines; reliability; vibration control; external flashover; long term electrical reliability; mechanical reliability; moisture ingress; mounting arrangements; overhead transmission line surge arresters; substation arrester; vibration control measures; Arresters; Conductors; Electron tubes; Insulators; Poles and towers; Surges; Aeolian; contamination; dry arc distance; icing; leakage distance; torsional oscillation; transmission line surge arrester; vibration; wind induced conductor motion;
Conference_Titel :
Lightning Protection (XII SIPDA), 2013 International Symposium on
Conference_Location :
Belo Horizonte
Print_ISBN :
978-1-4799-1343-5
DOI :
10.1109/SIPDA.2013.6729248
