SU1226566A1 - Device for automatic compensating of capacitive earth leakage current in electric power networks with 6-35 kv voltage - Google Patents

Abstract

The invention is intended to automatically compensate for capacitive earth fault current in electrical networks with a voltage of 6-35 kV, operating with an insulated neutral. The goal — improving the quality of capacitive current compensation — is achieved by performing a regulating unit in ./-1| rX L. /: iiii type of reactor 3, to the working winding 4 of which a controlled rectifier bridge 7 is connected, and the windings are included in the DC diagonal control 5 and 6. According to the results of the preliminary calculation, the magnitude of the capacitive current of the ground fault of the power grid is determined. In the arc-suppressing reactor 2, a branch is selected corresponding to the compensation current value slightly exceeding the obtained value of the phase to ground current. Reactor 3 operates on the principle of self-modifying. The rectification compensation current flowing through the windings 5 and 6 provides for magnetization of the magnetic system of the reactor 3 and thereby reduces its inductive resistance. The degree of magnetization of the reactor 3 depends on the angle of control of the thyristors 8-11 of the rectifying bridge 7. The phase control of the thyristors, i.e. resonant tuning of reactors 2 and 3 with the capacity of the power grid, is carried out by the automatic tuning controller 15. 1 sludge. From € (L to N9 OD JV Od 05

Description

one

The invention relates to electrical engineering and is intended to compensate for the capacitive current of the earth fault in an electrical network X} operating with an insulated neutral voltage of 6-35 kV.

The aim of the invention is to improve the quality of compensation of the capacitive earth fault current.

The drawing is a schematic of a device for automatically compensating for capacitive earth fault current in electric networks with a voltage of 6-35 kV.

The neutral power transformer 1 includes an arc-suppressing reactor 2 with stepwise regulation of the compensation current and the reactor 3, which has a working winding 4, control windings 5 and 6, which are included in the diagonal of the control rectifying bridge 7, -. containing thyristors 8-11, measuring windings 12 and 13 of reactors 2 and 3, connected in series, are connected to synchronized. rum 14 of the control unit 15 of the regulating unit.

The control unit 15 contains a f.ilt 16 of connection to the network connected to a high-frequency current generator 17. The outputs of the latter through the amplifier 18 and the synchronizer 14 are connected to the former 19 rectangular pulses using the control unit 20. The outputs 21–24 of the rectangular pulse former 19 are connected to the control circuits of the thyristors 8–11 of the controlled rectifying bridge 7. The power of the regulator - 15 automatic tuning is performed from the power supply unit 25 connected to the AC mains 26. The control unit 1 includes control windings 5 and 6, a rectifying bridge 7, and thyristors. measuring windings 12.

The device works as follows.

According to the results of preliminary calculations or by experimental data, the magnitude of the capacitive current of the ground fault of the power grid is determined. In the arc-suppressed reaction 2, a branch is selected corresponding to the compensation current value slightly exceeding the obtained value of the phase-to-ground fault current. Reactor 3 operates on the principle of self-modifying. Winding 5 and 6 control.

662

through which the rectified compensation current flows, ensures the sublimation of the magnetic system of the reactor 3 and thereby reduces its

inductive resistance. The degree of magnetization of the reactor 3 (inductive resistance of the reactor 3) depends on the angle of control of the thyristors of the rectifier bridge 7. The phase control of the thyristors 8-11, i.e. resonant tuning of reactors 2 and 3 with the capacity of the power grid, is carried out by the automatic tuning controller 15. Generator 17

through the filter 16 of the connection passes the current of increased frequency through the capacity of the mains. The magnitude of the current generator 17 depends on the network capacity. Generator current measured 17

through the amplifier 18, as well as the synchronization voltage from the measuring windings 12 and 13, through the synchronizer 14 are fed to the control unit 20, which sets the time for the supply of rectangular pulses from the outputs 21-24 of the unit 19 in the circuit of the resistors 8-11 relative to the voltage in the neutral of the transformer.

The proposed device can be used in electrical networks, in which arc-suppressing reactors with step-by-step compensation current compensation of EROM type are installed to compensate for capacitive ground fault currents. The use of an additional low-power regulated reactor, equipped with an automatic adjustment controller,

ki, provides high quality compensation of capacitive current, which seemingly reliable operation of an electrical network operating with an insulated neutral.

The economic effect of the application of the invention is due to the fact that the reliability of the electrical network operation can be achieved by using low-power adjustable throttles, the cost of which is significantly lower than the cost of the reactor with smooth control of the compensation current, calculated for the full power compensation.

Invention Formula

Device for automatic compensation of capacitive current locking 31226566

neither on the ground in an electrical network set, characterized by

voltage of 6-35 kV, containing co-something, in order to improve the quality

reeling throttle, coil compensation capacitive current winding, reguroy through the regulating unit, the base unit consists of a reactor,

is connected to the ground, and the control unit to the working winding of which is connected by a control unit, depending on the controlled rectifying bridge

from the network operating parameters, inputs to the diagonal of direct current

the synchronization of which serves for the bridge includes the windings of the control connection to the neutral voltage.

Claims (1)

A device for automatically compensating for capacitive fault current to earth in electric networks of voltage 6-35 kV, comprising a compensating inductor, the winding of which is connected to earth through the control unit, and a control unit for the control unit, depending on the operating parameters of the network, the synchronization inputs of which connection to the neutral voltage of the network, characterized in that, in order to improve the quality of compensation of capacitive current, the control unit consists of a reactor, ₅ to which the control winding is connected an adjustable rectifier bridge, and control windings are included in the DC diagonal of the bridge.