SU517103A1 - Device for earthing neutral shunt reactors of power lines - Google Patents

Description

one

This invention relates to the field of electrical engineering and can be used in super high voltage power lines.

It is known that superhigh voltage power lines are designed for intrasystem, intersystem communications in power systems and power transmission lines, and have a high carrying capacity. In order to ensure high reliability, power lines of higher voltage classes are equipped with high-speed (three-phase) automatic reclosing (BPRS) and single-phase automatic reclosing (OAPV) devices. The disconnection of the lines (dead pause) in the BPSW and OAPV cycle for the shortest possible time is of great importance in terms of the stability of the energy operation. The value of the dead time is determined to a greater extent by the currents of feeding short-circuit from the healthy phases. With OAPV, these are phases remaining in operation, with BAPV — healthy phases with shunt reactors, the voltage at which has frequencies) close to 50 Hz.

To alleviate the conditions for quenching the charging arc at DPS for ultrahigh voltage power transmissions, use compensating reactors in the neutral of shunt reactors, which significantly reduces

charging current from the operating phases and the restoring voltage on the disconnected phase. This reduces the current PADD.

A known installation in the neutral of shunt reactors of active resistance, which makes it possible to reduce the current-free BAPW due to the acceleration of the extinction of the residual arc due to the damping of the oscillatory process of discharging the phases to a short circuit. The installation of active resistances in each phase of the shunt reactor is also effective for a smaller pause BAPV. However, it is more complex and less

economical as well as not limiting resonant overvoltages in case of non-single-phase switches.

Combined installation in neutral shunt reactors of active resistance

and compensatory reactors encounter difficulties associated with their mutual influence on each other. It should be borne in mind that the resistances of these devices (active and inductive) are shifted by one relative to

another at 90 °, which reduces the efficiency of each device.

In the proposed device, in order to increase its efficiency by reducing the pauses of OAPV and BAPV, a compensation reactor is connected in series with the active resistance, each of these elements is bridged with a normally closed switch, and a discharge ring is connected parallel to the entire circuit of elements.

The drawing shows a schematic diagram of the proposed construction.

In the neutral shunt reactor 1 installed active, for example Betel, resistance 2 and the compensation reactor 3, connected electrically in series. Each of these elements is shunted by its normally closed switch 4 and 5, respectively. A series circuit of resistance 2 and a compensation reactor 3 is connected by a bit b to limit switching overvoltages on this device. Normally closed switches 4 and 5 in the circuit are closed. From the output relays of the BANV devices, a signal is given to turn off the switch 4, and for the time of the unpowered BAPV active resistance 2 is put into operation. The switch 5, shunting the compensation reactor 3, is closed. By the end of the dead time of the BPSU, the switch 4 is turned on.

From the output relays OAPV, a signal is given to turn off switch 5, and for the duration of the non-current pause of OAPV, a compensation reactor 3 is put into operation. Switch 4, shunting its active resistance, is closed. By the end of the blank pause of the PAVA switch 5 is turned on. Therefore, in

shunturiush neutrals, its reactor 1 only active resistance 2 is turned on for the time of current-free pause BAPV, and only compensatory reactor 3 is for the time of current-free paused OAPO.

In normal modes, the device in the reactor neutral is shunted by switches.

Thus, the proposed device makes it possible to reduce the current-free pauses of BAPW and OAPV on ultra-high voltage power lines, which increases the stability and reliability of the power system,

Claims (2)

1. Device for earthing neutral shunt reactors of the transmission line, containing resistance, characterized in that, in order to reduce the duration of the pause of fast-acting automatic reclosing and single-phase automatic reclosing, a reactor is switched on in series with the resistance and each of these elements is shunted with a normally closed switch. 2. The device according to claim 1, characterized in that, in order to limit switching overvoltages, the discharge is connected in parallel to the chain of active resistance and the reactor.