Control scheme of the de‐icing method by the transferred current of bundled conductors and its key parameters

“…Although the sun and wind can melt ice, thermal de-icing is the preferred solution in severe weather. Additionally, the duration of thermal deicing is between 0.5 and 3 hours [18]. Relative to the energy produced by thermal de-icing, ice melting by severe weather can be ignored.…”

“…An electric current flowing through the transmission conductor produces Joule heat. Part of the heat warms the ice layer, conductor, and air gap, and part of the heat (namely, the latent heat) melts the ice, and the remaining heat reaches the outer surface of the ice layer and is dissipated through convection and radiation [11,18]. This heat conductor process can be formulated as…”

“…Here, ice is the radius of the iced conductor, m; h is the heat-exchange coefficient [18], W/(m 2 ⋅K); oi is the outer surface temperature of the ice layer [18], ∘ C; air is the ambient temperature, ∘ C; ice is the density of ice, kg/m 3 ; f is the latent heat for melting ice ( f = 335,000 J/kg); m is the volume of melted ice per unit length, m 2 ; ice is the volume of the ice layer per unit length, m 2 ; ice is the specific heat of ice, J/(kg⋅ ∘ C); and ice is the temperature of the ice layer, which can be simplified as ( oi /2air ) [18], ∘ C. The entire equation can be expressed as…”

“…When the elliptical air gap is tangent to the outer surface of both the conductor and the ice layer, the ice hangs from the conductor [18], which is the detachment criterion of the initial ice shedding in the static state. Therefore, at the moment of detachment, the volume of the air gap per length [18] can be expressed as…”

“…A full-scale experiment of thermal de-icing was conducted in the Xuefeng Mountain Natural Icing Station established by Chongqing University [18]. There are two towers in the station.…”

Modeling and Analysis of Progressive Ice Shedding along a Transmission Line during Thermal De‐Icing

“…Although the sun and wind can melt ice, thermal de-icing is the preferred solution in severe weather. Additionally, the duration of thermal deicing is between 0.5 and 3 hours [18]. Relative to the energy produced by thermal de-icing, ice melting by severe weather can be ignored.…”

“…An electric current flowing through the transmission conductor produces Joule heat. Part of the heat warms the ice layer, conductor, and air gap, and part of the heat (namely, the latent heat) melts the ice, and the remaining heat reaches the outer surface of the ice layer and is dissipated through convection and radiation [11,18]. This heat conductor process can be formulated as…”

“…Here, ice is the radius of the iced conductor, m; h is the heat-exchange coefficient [18], W/(m 2 ⋅K); oi is the outer surface temperature of the ice layer [18], ∘ C; air is the ambient temperature, ∘ C; ice is the density of ice, kg/m 3 ; f is the latent heat for melting ice ( f = 335,000 J/kg); m is the volume of melted ice per unit length, m 2 ; ice is the volume of the ice layer per unit length, m 2 ; ice is the specific heat of ice, J/(kg⋅ ∘ C); and ice is the temperature of the ice layer, which can be simplified as ( oi /2air ) [18], ∘ C. The entire equation can be expressed as…”

“…When the elliptical air gap is tangent to the outer surface of both the conductor and the ice layer, the ice hangs from the conductor [18], which is the detachment criterion of the initial ice shedding in the static state. Therefore, at the moment of detachment, the volume of the air gap per length [18] can be expressed as…”

“…A full-scale experiment of thermal de-icing was conducted in the Xuefeng Mountain Natural Icing Station established by Chongqing University [18]. There are two towers in the station.…”

Modeling and Analysis of Progressive Ice Shedding along a Transmission Line during Thermal De‐Icing

Site experimental study on suspension-tension arrangement for preventing transmission lines from icing tripping

Novel bionic and clean de-icing bituminous composite material by autocrine microcapsule production with a temperature responsive character