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Modelling of Vibrations of Overhead Line Conductors

Assessment of the Technology

  • Giorgio Diana

Part of the CIGRE Green Books book series (CIGREGB)

Also part of the Technical Brochures book sub series (CIGRETB)

Table of contents

  1. Front Matter
    Pages i-xxii
  2. F. Tavano, L. Cloutier, R. Claren, M. Ervik, P. Hagedorn, C. Hardy, G. Kern, H-J. Krispin, L. Möcks, C. B. Rawlins, P. W. Dulhunty, A. Manenti, M. Tunstall, J. M. Asselin, W. Bückner, D. G. Havard and D. Hearnshaw, Giorgio Diana
    Pages 1-20
  3. L. Cloutier, P. W. Dulhunty, M. Ervik, P. Hagedorn, C. Hardy, G. Kern, H-J. Krispin, A. Laneville, A. Leblond, A. Manenti, K. O. Papailiou, C. B. Rawlins and T. O. Seppa, Giorgio Diana
    Pages 21-35
  4. H. J. Krispin, P. Bousseau, S. Gelderblom, P. Hagedorn, D. Hearnshaw, M. Landeira, A. Leblond, A. Manenti, C. B. Rawlins, J. B. Wareing, P. Catchpole, G. Chapman, U. Cosmai, O. Cournil, M. Ervik, T. A. Furtado, C. Hardy, T. Leskinen, M. Rivero, V. A. Shkapsov, S. Thaddey, J. A Araujo, J. M. Asselin, G. E. Braga, L. Cloutier, D. G. Havard, S. Kolosov, A. Laneville, P. Van Dyke and A. Vinogradov, Giorgio Diana
    Pages 37-46
  5. 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
    Pages 47-59
  6. 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
    Pages 61-70
  7. Back Matter
    Pages 71-76

About this book

Introduction

This brochure offers numerical models of wind-induced aeolian vibrations and sub-span oscillations of the conductors. It highlights what can be expected from numerical models regarding conductor vibrations.

  • Assessment of the aeolian vibration condition of particular lines, with conductors whose mechanical properties are poorly defined, or with special terrain conditions, may require field measurements;
  • Analytical methods based on the EBP and shaker-based technology can provide a useful tool to design damping systems for the protection of single conductors against aeolian vibrations
This work reports the state of the art for professionals regarding aeolian vibrations and subspan oscillations modelling.

Keywords

aeolian vibrations sub-span oscillations conductor damping systems spacer dampers energy balance principle

Editors and affiliations

  • Giorgio Diana
    • 1
  1. 1.Department of Mechanical EngineeringPolitecnico di MilanoMilanItaly

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-319-72808-7
  • Copyright Information Springer International Publishing AG 2018
  • Publisher Name Springer, Cham
  • eBook Packages Engineering
  • Print ISBN 978-3-319-72807-0
  • Online ISBN 978-3-319-72808-7
  • Series Print ISSN 2367-2625
  • Series Online ISSN 2367-2633
  • Buy this book on publisher's site