Modelling the Dynamic Response of Iced Transmission Lines Subjected to Cable Rupture and Ice Shedding

This study is concerned with accurate numerical modelling of the propagation or progression of ice-shedding phenomena and resulting forces in overhead lines following an initial trigger, such as a controlled shock load applied locally with a cable de-icing device, or uncontrolled shocks due to cable rupture. The ice failure criterion used for the ice deposits in the simulations is based on a maximum effective plastic strain limit. This criterion has been verified in models of reduced- and real-scale single spans subjected to shock loads. After showing the improved performance of this ice failure model, it is applied to the case study of a 120 kV two-circuit line section that failed during a localized ice storm event in 1997. A nonlinear dynamic analysis of the line section is performed which considers ice-shedding effects following the conductor ruptures. The results confirm that considering ice-shedding effects in the iced spans subjected to cable rupture is essential to predict the general dynamic response of the line as the cable ruptures may induce ice shedding. The improved performance of the modelling procedure described in this paper can have practical use in the design of transmission lines in industry.

[1]  Alan B. Peabody,et al.  The Effects of Ice Shedding on a 500 kV Line , 2009 .

[2]  Ghyslaine McClure,et al.  Seismic behaviour of tall guyed telecommunication towers. , 1994 .

[3]  Masoud Farzaneh,et al.  Numerical analysis of the dynamic effects of shock-load-induced ice shedding on overhead ground wires , 2007 .

[4]  M Roshan Fekr,et al.  Numerical modelling of the dynamic response of ice-shedding on electrical transmission lines , 1998 .

[5]  René Tinawi,et al.  Mathematical modeling of the transient response of electric transmission lines due to conductor breakage , 1987 .

[6]  Tamás Kálmán Dynamic behavior of iced cables subjected to mechanical shocks = Comportement dynamique des câbles recouverts de glace et soumis à des chocs mécaniques , 2007 .

[7]  Ghyslaine McClure,et al.  Modeling the structural dynamic response of overhead transmission lines , 2003 .

[8]  André Leblond,et al.  Dynamic behavior of iced overhead cables subjected to mechanical shocks , 2005 .

[9]  René Tinawi,et al.  Comportement dynamique des lignes aériennes de transport d'électricité dû aux bris de câbles. I. Modélisation mathématique , 1989 .

[10]  Ghyslaine McClure,et al.  Simulation of ice-shedding on electrical transmission lines using adina , 1993 .

[11]  René Tinawi,et al.  Comportement dynamique des lignes aériennes de transport d'électricité dû aux bris de câbles. II. Problèmes numériques associés à la modélisation mathématique , 1989 .