SU733055A1 - Three-phase overhead a-c power transmission line - Google Patents

Description

The invention relates to the electric power industry, in particular to electric networks of extra-high voltage.

The tension on the wires of mountain overhead lines and the tension of the beginning of the common crown depend to a greater degree ⁵ both on the terrain and on atmospheric conditions. The tension of the beginning of the general corona decreases in proportion to the decrease in atmospheric pressure in the mountains with an increase in altitude.

Known overhead overhead power line variable. current passing in ₁₅ highlands, in which, to reduce losses and interference from the corona, the interphase distances of the river are increased.].

The disadvantage of this overhead power line is a small (2-4%) 20 reduction in tension on the wires, which does not allow the use of this line at high altitudes.

The closest technical solution to the invention is a three-phase overhead overhead power line running along a mountainside with a horizontal arrangement of phase wires. To reduce the voltage on the wires of this line, the cross-section of the wires is equally increased in all three phases.

The disadvantage of this three-phase overhead power line is the unjustified overspending of non-ferrous metal and a sharp asymmetry of the electrical parameters of the phases of the power line.

The aim of the invention is to increase the efficiency of the three-phase overhead AC power line.

This goal is achieved by the fact that in a three-phase overhead power transmission line of alternating current passing along the side of the mountain with a horizontal arrangement of phase wires, the total section of the phase wires of the middle phase and the total section of the phase wires of the phase farthest from the side of the mountain are respectively reduced by 5-20% and 10-40% compared with the total cross-section of the phase pro- waters of the phase closest to the mountain slope.

The drawing shows a three-phase ₅ overhead AC power line.

The total cross-section of the phase conductors of phase 1 closest to the slope of mountain 2 is the largest. The total cross-section of phase conductors of the middle phase 3 and the total cross-section of phase conductors of phase 4 farthest from the side of the mountain are respectively reduced by 5-20% and

10-40% compared with the total cross-section of phase wires of phase 1.

In a three-phase overhead line, an increase in the total cross-section of phase wires is achieved through the use of different sections in the phases of the wires. 20

However, for this, you can use a different number of wires of the same type in phases.

To simplify the design of the power line, you can increase only 25 the total cross section of the phase closest to the mountain slope, and the phases remote from the mountain slope, with the same total cross section.

An increase in the total cross section of the phase 1 wires closest to the mountain slope leads to a decrease in the field strength; moreover, by selecting the cross section of the wires, one can achieve the same field strength on the phase wires for a specific slope angle of the mountain.

The invention can be used for mining, power lines 351150 kV.

Claims (1)

Claim Three-phase overhead AC power line running along a mountain slope with horizontal phase wires, characterized in that, in order to increase efficiency, the total cross-section of the phase conductors of the middle phase and the total cross-section of the phase conductors furthest from the mountain slope are respectively lowered by 5-20 % and 1040% compared with the total cross section of the phase conductors of the phase nearest to the slope of the mountain.