• Title/Summary/Keyword: bundled sub-conductor

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Aerodynamic force characteristics and galloping analysis of iced bundled conductors

  • Lou, Wenjuan;Lv, Jiang;Huang, M.F.;Yang, Lun;Yan, Dong
    • Wind and Structures
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    • v.18 no.2
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    • pp.135-154
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    • 2014
  • Aerodynamic characteristics of crescent and D-shape bundled conductors were measured by high frequency force balance technique in the wind tunnel. The drag and lift coefficients of each sub-conductor and the whole bundled conductors were presented under various attack angles of wind. The galloping possibility of bundled conductors is discussed based on the Den Hartog criterion. The influence of icing thickness, initial ice accretion angle and sub-conductor on the aerodynamic properties were investigated. Based on the measured aerodynamic force coefficients, a computationally efficient finite element method is also implemented to analyze galloping of iced bundled conductors. The analysis results show that each sub-conductor of the bundled conductor has its own galloping feature due to the use of aerodynamic forces measured separately for every single sub-conductors.

Kissing of Sub-conductors due to Magnetic Forces in a 154 kV Bundled Overhead Transmission Line (154 kV 복도체 가공송전선로에서 전자력에 의한 소도체간 접촉)

  • Kim, Sang-Beom;Noh, Hee-Won;Kim, Young-Hong;Ko, Kwang-Man;Park, Jong-Hyuk;Kim, Sang-Soo
    • KEPCO Journal on Electric Power and Energy
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    • v.2 no.3
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    • pp.383-389
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    • 2016
  • Kissing of sub-conductors due to magnetic forces has been investigated in a 154 kV bundled overhead transmission line. With increasing ampacity of the conductors and enlarging the distance between spacers, lager magnetic force was measured. When the phase ampacity was 2,000 amps and the distance between two adjacent spacers was 68 m, for instance, the conductors became unstable and vibrated with a frequency of several herts. Furthermore, when the ampacity was 2,250 amps and the distance between spacers was 136 m, the two sub-conductors were contacted. Analysing the magnetic forces with distance of spacers, the safe distance of spacers to avoid contact of sub-conductors was presented. The change of the safe distance is discussed due to various parameters, such as residual stresses and wind pressures, in the real transmission lines.