Title :
Combined models for glaze ice accretion and de-icing of current-carrying electrical conductors
Author :
Huneault, Maurice ; Langheit, Christian ; Caron, Josée
Author_Institution :
Hydro-Quebec Res. Inst. IREQ, Varennes, Que., Canada
fDate :
4/1/2005 12:00:00 AM
Abstract :
The ice storm of 1998 in northeastern North America caused much damage to the electrical installations of TransE´nergie, the transmission provider in Que´bec. Consequently, efforts to mitigate the effects of future ice storms have been deployed. A companion paper describes a project to deploy de-icing strategies over a region afflicted by an ice storm. It relies on a core computation that determines the current magnitudes and application times required to melt the ice off of energized conductors. This paper describes and compares the theory behind three de-icing models for transmission lines. The latter two models are new; they expand on a well-known de-icing computation by adding extra information about the ice buildup and the ice/water transition on the outer and inner surfaces of the ice sleeve, respectively.
Keywords :
ice; power overhead lines; power transmission faults; power transmission protection; storms; North America; Quebec; TransEnergie; application times; current magnitudes; current-carrying electrical conductors; de-icing; electrical installations; glaze ice accretion; ice storm; transmission lines; Conductors; Glazes; Heat transfer; Ice surface; North America; Power transmission lines; Resistance heating; Storms; Temperature; Transmission line theory; Nonlinear equations; power transmission lines; power transmission meteorological factors; thermal variables; transmission line glaze ice accretion and de-icing;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2004.838466
