Calculating the Surface Potential Gradient of Overhead Line Conductors

Qi Li; Simon M. Rowland; R. Shuttleworth

doi:10.1109/TPWRD.2014.2325597

Calculating the Surface Potential Gradient of Overhead Line Conductors

Qi Li, Simon M. Rowland, R. Shuttleworth

EEE - Academic & Research

Research output: Contribution to journal › Article › peer-review

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Abstract

the surface potential gradient is a critical design parameter for planning overhead lines, as it determines the level of corona loss (CL), radio interference (RI), and audible noise (AN). The majority of existing surface gradient calculations are based on analytical methods which restrict their application in simulating complex surface geometry. This article proposes a novel method which utilizes both analytical and numerical procedures to predict the surface gradient. With this method, stranding shape, protrusions, the proximity of tower, the type of tower, bundle spacing and bundle arrangement can be taken into consideration when calculating surface potential gradients. A sensitivity study on the factors affecting surface gradient distribution is performed.

Original language	English
Pages (from-to)	43-52
Number of pages	9
Journal	IEEE Transactions on Power Delivery
Volume	30
Issue number	1
DOIs	https://doi.org/10.1109/TPWRD.2014.2325597
Publication status	Published - Feb 2015

Keywords

surface gradient, finite element method, high voltage conductor, field, corona, radio interference, audible noise, Maxwell Potential Coefficient Method, Markt and Mengele's Method, Successive Images Method, Charge Simulation Method, conductor, bundle

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title = "Calculating the Surface Potential Gradient of Overhead Line Conductors",

abstract = "the surface potential gradient is a critical design parameter for planning overhead lines, as it determines the level of corona loss (CL), radio interference (RI), and audible noise (AN). The majority of existing surface gradient calculations are based on analytical methods which restrict their application in simulating complex surface geometry. This article proposes a novel method which utilizes both analytical and numerical procedures to predict the surface gradient. With this method, stranding shape, protrusions, the proximity of tower, the type of tower, bundle spacing and bundle arrangement can be taken into consideration when calculating surface potential gradients. A sensitivity study on the factors affecting surface gradient distribution is performed.",

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AU - Rowland, Simon M.

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N2 - the surface potential gradient is a critical design parameter for planning overhead lines, as it determines the level of corona loss (CL), radio interference (RI), and audible noise (AN). The majority of existing surface gradient calculations are based on analytical methods which restrict their application in simulating complex surface geometry. This article proposes a novel method which utilizes both analytical and numerical procedures to predict the surface gradient. With this method, stranding shape, protrusions, the proximity of tower, the type of tower, bundle spacing and bundle arrangement can be taken into consideration when calculating surface potential gradients. A sensitivity study on the factors affecting surface gradient distribution is performed.

AB - the surface potential gradient is a critical design parameter for planning overhead lines, as it determines the level of corona loss (CL), radio interference (RI), and audible noise (AN). The majority of existing surface gradient calculations are based on analytical methods which restrict their application in simulating complex surface geometry. This article proposes a novel method which utilizes both analytical and numerical procedures to predict the surface gradient. With this method, stranding shape, protrusions, the proximity of tower, the type of tower, bundle spacing and bundle arrangement can be taken into consideration when calculating surface potential gradients. A sensitivity study on the factors affecting surface gradient distribution is performed.

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JO - IEEE Transactions on Power Delivery

JF - IEEE Transactions on Power Delivery

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ER -

Calculating the Surface Potential Gradient of Overhead Line Conductors

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