A Study on De-Icing Technology for Electric Transmission Line

Qin Zhu Huang; Jian Wei Liu; Ya Zhou; Yan Jun Liao; Ning Lv

doi:10.4028/www.scientific.net/AMR.479-481.2339

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 479-481A Study on De-Icing Technology for Electric...

A Study on De-Icing Technology for Electric Transmission Line

Abstract:

The article aims to analyze kinds of de-icing methods in detail with the present condition that the transmission lines often suffered serious damage with the deep ice over them. It also points out the development trend of de-icing technology in the next years and provides some advices for the de-icing research work of transmission line in our country.

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Periodical:

Advanced Materials Research (Volumes 479-481)

Pages:

2339-2342

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.479-481.2339

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Online since:

February 2012

Authors:

Qin Zhu Huang, Jian Wei Liu, Ya Zhou, Yan Jun Liao, Ning Lv

Keywords:

Anti-Icing, De-Icing, Electric Transmission Lines, Ice Coating

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References

[1] Laforte J L, Allaire M A, Laflamme J. State of the art on power line de-icing[C]. Proceedings of the 7th International Workshop on Atmospheric Icing of Structures. Chicoutimi, Quebec, Canada, 1996, P.237-244.

DOI: 10.1016/s0169-8095(97)00057-4

Google Scholar

[2] Laforte J L, AllaireMA, Laflamme J, et al. An update on overhead cable de-icing technology[C]. Proceedings of the 8th International Workshop on AtmosphericIcing of Structures. Reykjavik, Iceland, 1998, P.215-220.

Google Scholar

[3] JIANG Xing-liang and MA Jun. Transmission lines' ice accident sand analysis of the formative factors[J]. Electric power, 2005(11) , P.27-30.

Google Scholar

[4] SUN Cui-lian, WANG Hong-guang. a review on the locomotion and obstacle navigation mechanism of the inspection robot for the high-voltage power line[J]. Machinery design & manufacture, 2006 (10) , P.161-163.

Google Scholar

[5] Zhang Xin and Han Zhan-zhong. Current Situation and Development of Transmission Line Deicing Technology[J]. Electric switchgear, 2009(1) , P.4-7.

Google Scholar

[6] LUO long-fu and ZHAO Zhi-yu. a review on De-icing Technology for the High-voltage Transmission Lines[J]. Electric times, 2009(2) , P.23-24.

Google Scholar

[7] Zhang Wen-chao, Han Yi and Xu You-ping. Feasibility Research on Overcurrent Ice-Melting Operation Mode of Power Grid[J]. Power system technology, 2009(20) , P.54-58.

Google Scholar

[8] Li Peng, Fan Jian-bin, Li Wu-feng, Su Zhi-yi．Icing Flashover Performance of HVDC Transmission lines [J].Power System Technology, 2006，30(17) , P.74-78．

Google Scholar

[9] Landry M, Beauchemin R, Venne A. De-icing EHV overhead transmission lines using electromagnetic forcess generated by moderate short-circuit current[C].Proceedings of IEEE 9th International Conference on Transmission and Distribution Construction, Operation and Live-line Maintenance, 2000, P.94-100.

DOI: 10.1109/tdcllm.2000.882806

Google Scholar

[10] Shan Xia and Shu Nai-qiu. Discussion on Methods of De-icing for Overhead Transmission Lines[J]. High voltage engineering, 2006(4) , P.25-27.

Google Scholar

[11] Gu Shan-qiang, Chen Jia-hong and Cai Wei.Experimental Analysis and Engineering Designing of Laser De-icing Technology for Transmission Lines[J]. High voltage engineering, 2009(9), P.2243-2249.

Google Scholar