SU1739416A1 - System grounding of direct-current power transmission line - Google Patents

Abstract

Usage: high voltage dc power. SUMMARY OF THE INVENTION 1 The supply line is split into individual insulated conductors, which are connected to the ring extension line at regular intervals. At the same time, identical currents flow from separate parts of the remote working ground regardless of the longitudinal resistance and different values of electrical resistivity at the location of the remote working ground. 1 il.

Description

The invention relates to electrical engineering and can be used in high voltage direct current transmissions.

A working ground is known, which contains a supply line, a remote overhead line, to which electrodes of earthing switches located in the ground 1 are connected by means of slopes.

The disadvantage of this device is low reliability and low resource, due to the uneven distribution of current across the individual electrodes located in the ground.

A working ground is known, which contains a supply line, an external annular line to which electrodes of earthing electrodes attached to the ground are connected by means of slopes 2. The prototype has a lack of reliability and a small resource due to the fact that the current is not evenly distributed over the annular

line, due to possible differences in the electrical resistivity of a pound at the locations of individual parts of the working ground, as well as due to the longitudinal resistance. Different density of the current flowing from the earthing leads to a different rate of destruction of the electrodes. At the same time, materials are underused in the most distant parts, and in the place of current injection - more rapid destruction of the electrodes, which reduces the reliability and durability of the device.

The aim of the invention is to increase the reliability and durability of the working grounding nyrev to ensure the alignment of the density of currents flowing from the grounding electrodes.

The goal is achieved by the fact that in the working ground, which contains the supply line, the extension ring line to which are connected by means of

WITH

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Earthing electrodes located in the ground, the supply line wire is made of several insulated conductors connected to the external annular line at regular intervals, the total number of which is equal to the number of supply line conductors. Only with this connection is each separate line with an insulated wire close to the current source. The current of each such line is determined by the resistance of this line and therefore does not depend on the resistance of the part of the grounding conductor to which the supply conductor is connected. The resistance of the earthing part is much less than the longitudinal resistance of the supply line conductor. The resistance of the earthing part may vary due to the change in the electrical resistivity of the soil. However, the current flowing off the part of the earth conductor does not change, since it is determined by the longitudinal resistance of the insulated conductor. Therefore, the density of the current flowing into the ground remains unchanged, which leads to an increase in the service life of the remote working ground.

The drawing shows a diagram of the device of the working grounding with a supply line.

A high-voltage direct current transmission 1 is connected to a supply line 2, the wire of which is divided into four identical conductors 3, which are connected at regular intervals to an annular extension line 4, to which, in turn, remote working ground electrodes are connected. The slopes and electrodes are not shown in the drawing.

When high voltage direct current 1 is switched on, equal currents flow through the conductors 3 of the supply line 2, since their longitudinal currents

active resistances are equal and much larger than the spreading resistances of the corresponding parts of the remote working ground. Therefore, with parts of the annular extension line 4 through the slopes and electrodes

remote working ground also flow equal currents.

The effect of the application of the invention is defined as the independence of the current flowing from the earthing switches on the value

the electrical resistivity of the soil on the outward annular line, as well as the elimination of the influence of the longitudinal resistance, which affects the increase in the current density flowing in

input current, which allows to increase the reliability and durability of the remote working ground.

Claims (1)

Invention Formula The working grounding of the DC power transmission, which contains a power supply line, an external ring line, to which the grounding electrodes, which are located in ground, characterized in that, in order to increase the reliability and durability of the working ground by ensuring the alignment of the densities of currents flowing from the electrodes of the grounding, the supply wire is made of several insulated conductors attached to the external ring line at regular intervals, the total number of which equal to the number of supply line conductors. WITH about-