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Modelling of Aeolian Vibrations of Bundled Conductors

  • H. J. Krispin, J. Havel, J. Huang, J. Garnier, S. Kolosov, J. P. Paradis, A. Leblond, C. B. Rawlins, U. Cosmai, P. Van Dyke, J. L. Lilien, W. Troppauer, A. Manenti, L. Mazzola, E. Ruggeri, N. Sahlani, D. Proctor, C. Rozé, M. Landeira, S. Thaddey, C. Hardy, R. Tong, B. Liu, A. Bhangor, A. Vinogradov, T. A. Furtado and M. Araujo
  • Giorgio Diana
Chapter
Part of the CIGRE Green Books book series (CIGREGB)

Abstract

​The purpose of the present chapter is to evaluate the effectiveness of methods based on the energy balance principle (EBP) and a shaker-based technology for the design and/or verification of the damping system of conductor bundle spans with respect to Aeolian vibrations. The evaluation is based on an analysis of the available technology and on the results of benchmarks: an analytical-analytical benchmark and an analytical-experimental one are used. The comparison between the analytical results produced by the different available models and the experimental ones will help to understand the limitations and the usefulness of considered approach.

Copyright information

© Springer International Publishing AG 2018

Authors and Affiliations

  • H. J. Krispin, J. Havel, J. Huang, J. Garnier, S. Kolosov, J. P. Paradis, A. Leblond, C. B. Rawlins, U. Cosmai, P. Van Dyke, J. L. Lilien, W. Troppauer, A. Manenti, L. Mazzola, E. Ruggeri, N. Sahlani, D. Proctor, C. Rozé, M. Landeira, S. Thaddey, C. Hardy, R. Tong, B. Liu, A. Bhangor, A. Vinogradov, T. A. Furtado and M. Araujo
  • Giorgio Diana
    • 1
  1. 1.Department of Mechanical EngineeringPolitecnico di MilanoMilanItaly

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