A transmission line requires few accessories as listed below.
- Transmission towers also called pylons for supporting the conductors and other accessories
- Insulators
- Damping devices
- Earthing system
Transmission Tower and conductor
The
transmission tower or pylon is one of the most important accessories of
a transmission line. As the whole load of the line and accessories are
taken by the towers so its design is crucial. For construction of a
transmission line the type and numbers of transmission towers required
depends on many factors. Transmission tower is designed to carry the
whole load of phase and grounding conductors in normal and abnormal
conditions. The design requirements in icy, non-icy, coastal areas,
cyclone prone areas and heavily air polluted areas are different. Due to
the deposition of ice on conductor the weight of line is increased
considerably resulting in heavy load on the tower. In the cyclone prone
areas the conductors and towers experience severe wind loading. In such
situations if these factors are not properly taken care of, then the
conductor may snap and the tower may collapse. In the design process all
these factors are taken care of.
Climatic condition
plays an important role in tower and line design. For the purpose,
climatic load data is collected. The tower foundation type depends on
the soil. Also seismic data of the concerned region is collected for
tower design. The tower types generally used are Lattice structure,
Guyed V, Tubular pole type etc. We have already discussed about the conductor types used in transmission lines.
Insulators
Insulators for use in transmission lines can be categorized different
ways. The main function of insulator is undoubtedly to insulate the
live conductor from the metallic tower at ground potential but the
important thing is that the insulator should be able to carry the
load/tension in the transmission line. At angle towers or at dead end
the insulators should be able to carry large tensional force. The
insulators used for transmission lines are mainly of porcelain or
composite polymer types. Traditionally porcelain insulators are used
for both transmission and distribution purposes.In the coastal areas the climatic condition also influences
the selection of materials . In the coastal areas salt deposits on the
insulator surface, that results in increased leakage current on the
insulator surface. Similar situation arises where lots of suspended
chemical particles are present in the atmosphere. While designing the
transmission tower and selecting the conductor all these factors are
taken into account.We will devote one article about insulators.
Damping devices
Due to wind and ice, the transmission lines swing under different modes. The transmission lines may vibrate in three major ways.
- Galloping : Due to the deposit of ice above conductor surface, the conductor cross section resembles an aerofoil. The wind flowing across the conductor (aerofoil) results in Galloping of conductor. Galloping is the oscillation of the conductor at high amplitude and low frequency. The conductor may oscillate in vertical or horizontal plane. Generally the conductor oscillates in vertical plane. The amplitude of the oscillation may be more than a meter with frequency upto 3 Hz. Due to galloping the clearance between the conductors may reduce very much to initiate flashover. Structural damage may also happen due to conductor gallopping. Anti-gallopping devices may be fitted to reduce the affect of gallopping.
- Aeolian vibration : When wind flows across the line steadily then vortices are formed in the back side of conductor which is the cause of aeolian vibration. Here the amplitude is in milimeter or centimeter and frequency may be upto 150 Hz. Over a long time the aeolian vibration may cause damage to the strands of wire. Stockbridge Dampers in the shape of dumbbell with midpoint clamped to the line are used for damping the Aeolian vibration. As shown in the figure they are fitted at a position most effective in damping the vibration. In any conductor the dampers are used at both the ends of the span. Dampers are used both in the phase and ground conductors
- Wake induced vibration: Wake induced vibration takes place in bundled conductors. The aerodynamic forces in the downstraem of conductor gives rise to this form of oscillation. It has amplitude in centimeters. The oscillation is reduced by keeping the spacing of bundled conductors large enough.
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