Article ID Journal Published Year Pages File Type
4676129 Cold Regions Science and Technology 2011 9 Pages PDF
Abstract

The dynamic effect of ice-shedding can cause mechanical damage and electrical faults due to the clashing of conductors. The ice-shedding problem is more serious on UHV lines as the quantity of bundled conductors and the cross-sectional areas of the conductors are larger. Consideration of the ice-shedding problems is very important in determining the alignment of the conductors, the type of towers and the configurations of spans. In this paper, the actual dynamic responses of the conductor displacement and tension are acquired through physical testing, in which the natural ice formed on conductors is simulated by lumped loads hanging on the conductors, using full-size multi-span configurations. Various ice- shedding modes are considered. Furthermore, a multiple degrees of freedom dynamic model of the multi-span lines, suitable for analyzing ice-shedding, has been developed and gives good agreement between the computation and test results, which demonstrates the validity of both the use of lumped-loads in the tests and of the numerical simulation program, which may therefore be applied to both existing UHV transmission lines and the design of new lines.

Research Highlights► The ice shedding from a full-scale transmission line was simulated by lumped loads. The tests are the only full-scale multi-span tests to simulate ice-shedding thus far. ► The use of lumped loads to simulate ice shedding gives accurate results. ► A dedicated dynamic program was developed to simulate ice-shedding numerically. Good agreement between the numerical computation and test results was obtained.

Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Earth and Planetary Sciences (General)
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