Recently in Japan. the number of bundle conductor transmission lines for bulk power has increased
and faults due to galloping occurred frequently.
However, it is difficult to say that counter-measures for conductor galloping have been established.
0
The authors constructed a test line at Kasatori-yama (Mount Kasatori) where meteorological conditions are
very severe, and obtained a large amount of data on various phenomena of bundle conductor galloping due
to artificial and natural ice formations. This report summarises the following :
• Aspects of ice or snow formation and damage to overhead transmission lines in Japan
•Mutual relations between the wind velocity, amplitude of galloping, tension changes, oscillation
mode, etc. under galloping
• Method for tower design of overhead transmission lines.
%0 Generic
%1 anjo1974experimental
%A ANJO, K
%A YAMASAKI, S
%A MATSUBAYASHI, Y
%A NAKAYAMA, Y
%A OTSUKI, A
%A FUJIMURA, T
%D 1974
%K Amplitude Design Galloping Ice Locus Mode Tension Tower
%T AN EXPERIMENTAL STUDY OF BUNDLE CONDUCTOR GALLOPING
ON THE KASA TORI-YAMA TEST LINE FOR BULK POWER TRANSMISSION
%X Recently in Japan. the number of bundle conductor transmission lines for bulk power has increased
and faults due to galloping occurred frequently.
However, it is difficult to say that counter-measures for conductor galloping have been established.
0
The authors constructed a test line at Kasatori-yama (Mount Kasatori) where meteorological conditions are
very severe, and obtained a large amount of data on various phenomena of bundle conductor galloping due
to artificial and natural ice formations. This report summarises the following :
• Aspects of ice or snow formation and damage to overhead transmission lines in Japan
•Mutual relations between the wind velocity, amplitude of galloping, tension changes, oscillation
mode, etc. under galloping
• Method for tower design of overhead transmission lines.
@conference{anjo1974experimental,
abstract = {Recently in Japan. the number of bundle conductor transmission lines for bulk power has increased
and faults due to galloping occurred frequently.
However, it is difficult to say that counter-measures for conductor galloping have been established.
0
The authors constructed a test line at Kasatori-yama (Mount Kasatori) where meteorological conditions are
very severe, and obtained a large amount of data on various phenomena of bundle conductor galloping due
to artificial and natural ice formations. This report summarises the following :
• Aspects of ice or snow formation and damage to overhead transmission lines in Japan
•Mutual relations between the wind velocity, amplitude of galloping, tension changes, oscillation
mode, etc. under galloping
• Method for tower design of overhead transmission lines.},
added-at = {2020-05-04T01:11:32.000+0200},
author = {ANJO, K and YAMASAKI, S and MATSUBAYASHI, Y and NAKAYAMA, Y and OTSUKI, A and FUJIMURA, T},
biburl = {https://www.bibsonomy.org/bibtex/290be8062b9eccd1b187bd481844163fa/ceps},
interhash = {daec0bdd76378a4e7b31a8365196ff2e},
intrahash = {90be8062b9eccd1b187bd481844163fa},
keywords = {Amplitude Design Galloping Ice Locus Mode Tension Tower},
timestamp = {2023-12-21T15:04:57.000+0100},
title = {AN EXPERIMENTAL STUDY OF BUNDLE CONDUCTOR GALLOPING
ON THE KASA TORI-YAMA TEST LINE FOR BULK POWER TRANSMISSION},
year = 1974
}