[en] A data base of 166 cases has been analysed to produced formula to predict galloping amplitudes on power lines either for single conductor of bundle conductor lines.Calculation enhanced the prediction for single conductors but predict larger amplitudes for bundle.
Disciplines :
Energy
Author, co-author :
Lilien, Jean-Louis ; Université de Liège - ULiège > Dép. d'électric., électron. et informat. (Inst.Montefiore) > Transport et distribution de l'énergie
Havard, Dave
Language :
English
Title :
Galloping data base on single and bundle conductors prediction of maximum amplitudes
G. Dienne, R. Brand, M. Couvreur, P. H. Leppers, and M. J. Tunstall, "Present-day experience from four european regions concerning the galloping of overhead transmission lines," in UNIPEDE Athens Congress, June 1985, 85E 110.2.
J. P. Den Hartog, "Transmission line vibration due to sleet," Trans. A.I.E.E., vol. 51, pp. 1074-1076, 1932.
Transmission Line Reference Book, Wind Induced Conductor Motion. Palo Alto, CA: Electric Power Research Institute, 1980.
C. B. Rawlins, "Analysis of conductor galloping field observations-single conductors,", IEEE paper 81 WM0538, 1981.
C. B. Rawlins, "Conductor galloping field observation analysis update," ALCOA Conductor Products Company, Technical Note no. 26, Jan. 1986.
D. G. Havard and J. C. Pohlman, "Five years' field trials of detuning pendulums for galloping control,", IEEE paper 83 SM 470-2, 1983.
C. J. Pon and D. G. Havard, " Field trials of galloping control devices for bundle conductor lines," Canadian Electrical Association, Montreal, R& D Project 133 T 386, Mar. 1994.
C. J. Pon and D. G. Havard, "Control of distribution line galloping," Canadian Electrical Association, Montreal, R&D Project 196 D 367, Oct. 1993.
D.G. Havard, "Analysis of galloping conductor field data," in IWAIS'98, 8th International Workshop on Atmospheric Icing of Structures, Reykjavik, Iceland, June 8-11, 1998.
J. Chadha, "A dynamic model investigation of conductor galloping," in IEEE Winter Power Meeting, 1974, Paper 7459-2.
A. Otsuki and O. Kajita, "Galloping phenomena of overhead transmission lines," Fujikura Technical Review, no. 7, pp. 33-46, 1975.
M. J. Tunstall and L. T. Koutselos, "Further studies of the galloping instability & natural ice accretions on overhead line conductors," in 4th Int. Conf. on Atmospheric Icing of Structures, Paris, Sept. 1988.
J. L. Lilien and H. Dubois, "Overhead linevertical galloping on bundle configurations stability criterions and amplitude prediction," IEE Overhead Line Design and Construction: Theory and Practice (up to 150 kV), Proc., pp. 65-69, Nov. 1988.
P. Yu, Y. Desai, N. Popplewell, and A. H. Shah, "Three degree of freedom model for galloping," Jour. of Eng. Mechanics, ASCE, vol. 119, no. 12, pp. 2404-2425, Dec. 1993.
J. Wang and J. L. Lilien, "Overhead electrical transmission line galloping. A full multi-span 3-of model, some applications and design recommendations," IEEE Transactions on Power Delivery, vol. 13, no. 3, pp. 909-916, July 1998.
H. M. Irvine, Cable Structures. Bandung, Indonesia: Penerbit ITB, 1988.
