Research on Vibration Damper Installation Location of 1000mm2 Large Section Conductor

Yi Qi; Xiao Ming Rui; Kuan Jun Zhu; Sheng Chun Liu

doi:10.4028/www.scientific.net/AMR.610-613.2556

Paper Titles

Numerical Simulation of Two-Dimensional Bluff Body Aerodynamic Noise Using Lattice Boltzmann Method
p.2535

Study on the Vibration Suppression Performance of Damping Spring Damper in High-Voltage Transmission
p.2539

Scattering of SH-Waves to Semi-Cylindrical Canyon and Rectangular Elastic Hill on the Ground
p.2544

Study on Noise Generation in a High Speed Centrifugal Fan
p.2552

Research on Vibration Damper Installation Location of 1000mm² Large Section Conductor
p.2556

Identification of Grader Radiated Noise Source Based on Partial Coherence Analysis
p.2562

Analysis of Damping Performance for Cabin Deck Covered with Floating Floor Coverings
p.2566

The Research of Airport Noise Prediction
p.2571

Airport Noise Environmental Impact Assessment Based on the Multi-Level Fuzzy Comprehensive Evaluation
p.2578

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 610-613Research on Vibration Damper Installation Location...

Research on Vibration Damper Installation Location of 1000mm² Large Section Conductor

Abstract:

Through analysis of the vibration characteristics of 1000mm² Large Section Conductor and test on the Anti-vibration effect of the vibration damper, a kind of method to determine the installation location of the vibration damper for 1000mm² large Section Conductor by Simulation test is put forward. Compared with the conventional method, the protected span of the damper which installation location is determined by the new method is larger. This method will have guiding significance for the anti-vibration of the large section conductor.

You might also be interested in these eBooks

Progress in Environmental Science and Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 610-613)

Pages:

2556-2561

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.610-613.2556

Citation:

Cite this paper

Online since:

December 2012

Authors:

Yi Qi, Xiao Ming Rui, Kuan Jun Zhu, Sheng Chun Liu

Keywords:

1000mm² Large Section Conductor, Installation Location, Vibration Damper

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Zheng Yuqi. Aeolian vibration of overhead transmission line［M］.Beijing：Water resources and electric power publishing house,1987：2-56（in Chinese）

Google Scholar

[2] Shao Tian-xiao．Mechanical calculation of wire in overhead power transmission line (second version) [M]．China Power Press，2003：312-354．（in Chinese）

Google Scholar

[3] Zhang Dian-sheng．Design manual of high voltage power transmission line in power engineering [R]．China Power Press，2007:229-23（in Chinese）

Google Scholar

[4] Xu Naiguan, Wang Jingchao．Measurement and practice calculation method of self-damping on conductor [J]．China Power, 1995，28(2)：17-20．（in Chinese）

Google Scholar

[5] IEEE Power Engineering Society．IEEE guide on conductor self-damping measurements．1EEE Std 563—1978．1978(10)．

Google Scholar

[6] Aeolian vibration of overhead．CIGRE．1970：22—11．

Google Scholar

[7] Yao Maosheng．Wind vibration and anti-vibration of conductor [J]．Middle China Power, 1994, 3(7)：57-62．（in Chinese）

Google Scholar

[8] He Xiaoxiong, Li Heqin. Engineering calculation on installation position of damper in overhead power transmission line[J]. Calculation physical,2000,(17)5:588—592. （in Chinese）

Google Scholar

[9] Sun Lin. Performance research of damper in overhead power transmission line and accurate calculation of installation position [D]. Hefei Institute of Technology,2003,5:49—57（in Chinese）

Google Scholar

[10] Xu Naiguan, Wang Jingchao, Dong Yuming. Research on mechanical performance of damper [J], Power construction, 2001，22(3):8-11. （in Chinese）

Google Scholar

[11] Power industry standard of the People's Republic of China. Technical conditions and test methods for vibration damper （DL/T1099-2009）. China Electric Power Press. 2009. （in Chinese）

Google Scholar