Radio interference excitation function of conductor bundles based on cage test results and comparison with long-term data

A reasonable excitation function is vital to make a precise evaluation about the radio interference (RI) level of ultra-high-voltage (UHV) AC power lines. To obtain this function, a large number of RI measurements in heavy rain condition were done using different conductor bundles in a corona cage....

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Bibliographic Details
Published in:IET science, measurement & technology measurement & technology, 2015-08, Vol.9 (5), p.621-627
Main Authors: He, Wang-ling, He, Jun-jia, Wan, Bao-quan, Chen, Yu-chao, Pei, Chun-ming, Zhang, Jian-gong, Zhang, Jin
Format: Article
Language:English
Subjects:
Bundles
CISPR18
conductor bundle
Conductors (devices)
conductors (electric)
corona cage
curve fitting
Excitation
flexible AC transmission systems
heavy rain condition
Interference
interference suppression
least mean squares methods
least square fitting
Noise levels
power transmission lines
Radio
radio interference excitation function
radiowave propagation
Rain
RI measurement
statistical data measurement
Transmission lines
UHV AC power transmission lines
voltage 1000 kV
weather conditions
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Summary:A reasonable excitation function is vital to make a precise evaluation about the radio interference (RI) level of ultra-high-voltage (UHV) AC power lines. To obtain this function, a large number of RI measurements in heavy rain condition were done using different conductor bundles in a corona cage. Then, the excitation function in heavy rain condition was obtained by least-square fitting these measured values. After that, the validity of this function was verified with the statistical data measured from the Hubei long-term station, which is located under the operating 1000 kV Jindongnan–Nanyang–Jingmen UHV AC transmission lines. It turns out that the deviation between the prediction and the long-term average value is 1.1 dB in heavy rain condition, and 1.3 dB in fair weather condition. In addition, the long-term data measured in Hubei Station show that the conversion laws of RI at different weather conditions in International Special Committee on Radio Interference (CISPR)18 are also applicable to 1000 kV UHV transmission lines.
ISSN:1751-8822
1751-8830
1751-8830
DOI:10.1049/iet-smt.2014.0224