SU815813A1 - Device for suppressing make-up current and limiting overvoltage upon automatic reclosing of superhigh-voltage power transmission line having shunting reactors and provided with quick-action protection - Google Patents

Abstract

DEVICE FOR VOLTAGE SUPPRESSION recharge and surge suppressor AUTOMATIC TRANSMISSION LINE reclosing EHV C VDMI shunt reactor equipped with quick protection, comprising at each end of the line kompensatsionnyyreaktor included in neutral shunt reactors surge arrestor connected between line phases and ground, and an automatic reclosing unit with single-phase and three-phase reclosing bodies, characterized by the fact that, in order to limit the switching Three-phase automatic reclosing and expansion of the field of application, at least at one end of the line in parallel with the compensation reactor, additionally connected a series resistor and switch, the control circuit of which is connected to the output of the three-phase automatic reclosing circuit, and the control circuit of the shutdown is connected to the same exit through the element of time. (L500 el00 00

Description

1 The invention relates to electrical engineering, and more particularly to devices for suppressing the supply current during an OAPO and limiting switching overvoltages in the SATS, super high voltage power transmission (HV) with shunt reactors. Known transmission lines of UHV, equipped with combined automatic reclosing devices having single-phase and three-phase reclosing devices. The main problem of an AADO is the maximum reduction of the dead time, and with TAPV one of the main issues is to limit overvoltages. Limiting overvoltages on lines with shunt reactors can be achieved by including damping resistors in the reactor circuits. These damping resistances discharge the line almost completely without any current pause. Overvoltages arising from the repeated switching on do not exceed the overstresses due to simple switching on, which impoverishes the work of the arresters and increases the efficiency of the insulation of the Co equipment. However, these devices do not improve the conditions for quenching the charging arc on the damaged phase during an SADR, while single-phase faults are dominant on these lines and constitute 90-95% of all damages. The closest to the present invention is a device for suppressing the charging current and limiting overvoltages during automatic re-activating of an ultrahigh voltage power transmission line with shunt reactors, equipped with a fast-acting protection, containing at each end of the line a compensation reactor incorporated into a shunt reactors neutral, splitters , included between the phases of the line and the earth, and the aBTOMaTV 4ecKoro-block with the organs of single-phase and three-phase automatic reclosing 123. dnako in this device possessing present optimum parameters in terms of olive, to limit switching: overvoltages at TAPV 32 are only valve arrester. On lines with shunt reactors, the conditions of operation of these arresters are so heavy that the installation of one is often insufficient. The purpose of the invention is to limit switching overvoltages during the LLBW and to expand the field of application of the device. The goal is achieved in that a device containing a compensation reactor at each end of the line, connected to the neutral of the shunt reactors, and arresters connected between the line phases and the ground, in parallel with the compensation reactor, additionally include a series-connected resistor and switch, whose switch circuit is connected to the output of the three-phase automatic reclosing organ, and the shut-off circuit is connected to the same output via the time element. The drawing shows a block diagram explaining the operation of the proposed device. The scheme contains a CBA power line 1, a line switch 2, a group of 3 shunt reactors, a compensation reactor 4, valve arresters 5, block 6 AR, unit 7 OAPV block AR, unit 8 TAPV surfactant unit, switch 9, resistor 10, element 11 time . Parallel to the compensation reactor 4, a chain of a series-connected switch 9 is connected with a special control circuit and a resistor 10. The switch 9 provides for the connection of a resistor 10 before performing the TAPV operation. The time element 11 switches off the switch 9 after a predetermined time. Consider the operation of the proposed device in possible cases of operation of the AR unit. The initial state of the circuit: line 1 is turned on by switch 2, resistor 10 is turned off by switch 9. Single-phase short circuit. In case of a single-phase short-circuit on the line. The AR unit 6 by the OAPW unit 7 shuts off the damaged phase of line 1 with switch 2. When a predetermined length of OAPV passes, during which the charge current is suppressed by compensatory reactor 4, the disconnected phase of line 1 turns on and continues normal line operation. In case of unsuccessful OAPV, the line is three-phase disconnected by block 6 of the ARF. Multiphase damage and false line disconnections. In the occurrence on the line 1 of any kind of multi-phase damage or its false disconnection, the TAPV body 8 of block 6 AIV is triggered. Upon a command from the TAPV authority 8, all three phases of the linear switch 2 are turned off and the switch 9 is turned on, and time element 11 is started. Turning on the switch 9 ensures that the resistor 10 is connected to the neutral of the shunt reactors, which causes the charge to flow from the TAPV line. After the TAPV pause, a command is issued from the TAPV authority 8 to turn on the switch 2, and line 1 becomes energized. After a predetermined time delay, the time element 11 issues a command to turn off the switch 9. The time element 11 is selected close to the duration of the TPV pause. The magnitude of the resistor 10 selects with two main parameters: ensuring that the charge is almost completely drained from the line during the unresponsive BAPW, limiting the voltage on the neutral of the shunt reactor to its isolation class. Thus, the proposed device on EHV power lines with shunt reactors, when equipping these lines with combined O and TAPV devices, provides both current recharge at single phase short circuit and switching overvoltage (up to 1.6-2) with tapv. The proposed device is especially effective on EHV power lines with shunt reactors with approximately 100% compensation, since on these lines it is very difficult or even impossible to limit overvoltages using the minimum of the voltage beats on the breaker contacts because of the very small beat frequency and correspondingly rare occurrence of the required minima. Such transmission, in particular, is the KonakovoLeningrad line. As a switch 9, any switch with 35 kV class insulation can be used, and as a resistor 10-Betel resistances of the order of 100 ohms. The preloaded device is recommended to be used on all EHV lines with shunt reactor reactors if they are equipped with O and TAPV devices. The result of the implementation of the proposed invention is to facilitate the operation of linear gaps and reduce the repetition rate of the effects of overvoltages approaching the isolation level of the EHV network. In addition, the use of this device makes it possible to use a synchronous switch control to further limit the overvoltages that occur when TAPV of EHV lines.

Claims (1)

. DEVICE FOR SUPPRESSION CURRENT recharge and surge suppressor AT Autoreclosing LINE TRANSMISSION EHV shunt reactor equipped with quick protection, comprising at each end of the compensating reactor included in neutral shunt reactors arresters connected between phase line and ground, and the block automatic re-inclusion with bodies of single-phase and three-phase re-inclusion, characterized in that · that, in order to limit switching overvoltages during three-phase automatic restart and expansion of the field of application, at least at one end of the line parallel to the compensation reactor, a resistor and a circuit breaker are connected in series, the control circuit is connected to the output of the three-phase automatic restart organ to the same exit through the time element.