Sag‐tension evaluation of high‐temperature gap‐type conductor in operation
Abstract Low‐sag conductors are characterised by their ability to operate above the “knee‐point temperature” (KPT). Sag‐tension performance must be calculated while designing a new overhead line. The ampacity limit of the conductor is influenced by the sag and the temperature of the conductor. The m...
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Autores principales: | , , , |
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Formato: | article |
Lenguaje: | EN |
Publicado: |
Wiley
2022
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Materias: | |
Acceso en línea: | https://doaj.org/article/6a2135752f4f4e00a333822bfc4ecbf4 |
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Sumario: | Abstract Low‐sag conductors are characterised by their ability to operate above the “knee‐point temperature” (KPT). Sag‐tension performance must be calculated while designing a new overhead line. The ampacity limit of the conductor is influenced by the sag and the temperature of the conductor. The maximum sag must be limited to a certain value to ensure a safe clearance between the conductor and ground. In this study, a gap‐type conductor in operation was monitored to evaluate the actual KPT. The KPT in low‐sag conductors is a crucial factor since it affects the sag of the conductor, which must be limited for safety reasons. The KPT was detected based on the change in the coefficient of thermal expansion value of the conductor. To perform this detection, the conductor tension and temperature were monitored. This study proposes a procedure to estimate the coefficient of thermal expansion (CTE) value. The results showed a gradual displacement in CTE. This procedure was used to perform measurements in a pilot line. |
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