SU943957A1 - Method of automatic reconnection of power transmission line - Google Patents

Description

(5) METHOD FOR AUTOMATIC REPEATED INCLUSION OF ELECTRICAL TRANSMISSION LINE

one

The invention relates to electrical engineering, in particular to automation and relay protection of power lines.

Automatic reclosing (AR) of power lines is a very effective means of improving the reliability of power systems. Auto-reclosing is especially effective with single-phase short-circuits (k.3.) Components, the overwhelming number of short-circuit. on the line (about 95%) and bearing most of the (about 75) unstable arc character.

The known method of the automatic reclosing of the power line, in which in the case of a single-phase short-circuit on the line, the damaged phase is disconnected from both ends of the line, after the first predetermined time at least at one end of the line, the disconnected phase of the line is re-enabled and, in the event of a short-circuit failure, disconnect the line at both ends of the three phases and then produce a three-phase

APV (TAPV), i.e. include the three phases of the line, first at one end of the line, and then in the case of the elimination of short-circuit. and at its other end. This is the so-called TAPV after an unsuccessful SAPV l.

Such an AR method is almost not applied at all, since it has such disadvantages as a significant increase in the interruption time of the normal energy supply, rapid successive shocks that swing the power grid, and relatively low efficiency.

Closest to the present invention is an AR method of a power line equipped with means for suppressing the capacitive component of the charging arc current, for example, four-beam reactors, in which, in the case of a single-phase short-circuit. in the line, the faulty phase is disconnected from both ends of the line, the capacitive component of the arc current / feed current is suppressed, and

after a predetermined time, re-enable the phase to be switched off at both ends of the f2 J line.

The disadvantage of this method is that the inductive component of the charging arc is weakly suppressed in some cases, and the charging arc does not go out. Therefore, on extended lines with a voltage of 750 kV and above, it is necessary to carry out additional special measures to improve the conditions for charging the charging arc, or to significantly increase the specified predetermined time, i.e. blank pause OAPV.

The purpose of the invention is to improve the conditions for the extinction of the charging arc by suppressing the inductances of the current component of this arc.

This goal is achieved by the fact that, according to the AR method, a transmission line equipped with blocks for suppressing the capacitive component of the charging arc current at. which in the case of single phase, as well. on the line, the faulty phase is disconnected from both ends of the line, the capacitive component of the charging arc current is rejected, and the switched off phase is reestablished from both ends of the line, the first predetermined time is specified, the arc channel deionization time is longer. damaged phase is turned off at one end of the line. the remaining two phases and then turn them on again.

In addition, on a line that is not equipped with blocks to check the status

"Disconnected phase, set second

a predetermined time longer than the deionization time of the make-up arc channel, and a third predetermined time, longer than the sum of the first and second predetermined times, the unaffected phases include a second predetermined time after they are turned off, and the disconnected phase at both ends of the line is switched on after the third predetermined time after it is turned off,

In order to increase the success rate of ARC on a line equipped with a unit for checking - the off phase state, a second predetermined time is specified that exceeds the deionization time of the make-up arc channel; after disconnecting two undamaged phases at one end of the line, check for the disconnected phase and, in the absence of k.z. on it, after the second preset time, two undamaged phases at one end and a previously disconnected phase at both ends of the line are switched on again.

The basis of the proposed method is the following.

Since the capacitive component of the charging arc current is suppressed by known means, and the inductive component depends on the load currents flowing through two healthy phases, as soon as these currents are turned off, the arc at the site of damage almost immediately goes out. Since the line is disconnected from one side only by three phases, the repeated switching on of two (or three) phases at this end is not accompanied by dangerous overvoltages. And since the second predetermined time is relatively small, the EMF of the power system cannot diverge greatly and is unacceptable.

According to the proposed method, the AR of the power line is made as follows.

Claims (3)

On lines that are not equipped with means for monitoring the state of the disconnected phase, with a single-phase short circuit. disconnect the damaged phase from the two ends of the line and use means to suppress the capacitive component of the feed arc current. At the same time, over the remaining phases in operation, the lines flow load currents, which determine the longitudinal electromotive voltage induced in the conductor of the disconnected phase, causing a charge current to flow in the inductive component. After the first predetermined time, greater than the time of deionization of the arc channel of a short circuit. (0, 6 s), at one of the ends of the line, the said intact phases of the line are disconnected, as a result of which the load currents are interrupted and the inundation component of the arc current is suppressed. Since the capacitive component of this current is already suppressed, the feed arc should quickly go out. After a second predetermined time, sufficient for deionization of the feed arc channel (0.1-0.2 s), the intact phases of the line are turned on again, and then, after the third predetermined time after disconnecting the damaged phase, it is turned on again at both ends of the line. In this case, the re-activation of this phase may be non-simultaneous at the ends of the line. For example, at the end where the two intact phases were disconnected, all three phases can be switched on simultaneously. In this form, the proposed power line method AfIB can also be used after an unsuccessful OAP B produced in a known manner, but only if the damaged phase is turned off at both ends of the line after it is turned on again. On lines that are equipped with means for checking the state of the disconnected phase, when a single-phase short circuit occurs, first, as described, disconnect the damaged phase from the two ends of the line and suppress the capacitive component of the charging arc current. Then, the state of the disconnected phase is checked, and in the event of a recharge arc, after a time sufficient to deionize the channels of the short circuit arc and recharge, the disconnected phase is reused at the two ends of the line. In the same cases, when the control (disconnected phase states shows that the arc has not extinguished), after the first predetermined time at one end of the line, both undamaged phases are disconnected, thus suppressing the inductive component of the recharge arc. Then, the state of the disconnected phase and . in the event of a recharge arc, after a second preset time, both undamaged phases are re-enabled at one end of the line, and then both phases are damaged at both ends. If, during retesting, the disconnected phase appears to be damaged However, the APA did not retract, and at the other end of the line they send a command to disconnect the phases that remain. I The implementation of the proposed method will not cause any difficulties, since the devices for its use differ from the known ones by using only a few logical elements. to apply on those extended power lines where the conditions of the feeding arc are not very favorable and therefore using known methods are obtained or The large non-current pauses of the APSS, or the charging arc in a number of cases, does not go out at all. The technical and economic efficiency of the proposed method is determined by an increase in the reliability of power transmission, since using it increases the likelihood of recharge of the charging arc in the OAPV cycle, i.e. the proportion of successful PIOs increases in single-phase short-circuit conditions. on line. Claim 1. A method of automatically re-activating a transmission line equipped with units for suppressing the capacitive component of the charging arc current, in which, in the case of a single-phase short circuit on the line, disconnecting the damaged phase at both ends of the line, suppressing the capacitive component of the arc injection current and re-enabling the disconnected phase at both ends of the line, characterized in that, in order to improve the conditions for the extinction of the charging arc by suppressing the inductive component of the current of this arc, the first predetermined time greater than the time of short-circuit arc deionization channel after the first predetermined time after the disconnection of the damaged phase, the two-G phases remaining in operation are disconnected at one end of the line and then switched on again. I 2. Method POP1, characterized in that a second predetermined time is specified, which is longer than the deionization time of the make-up arc channel, and a third predetermined time greater than the sum of the first and second predetermined times, the intact phases switch on after the second predetermined time after their disconnection, and the disabled the phase at both ends of the line is switched on after the third predetermined time after it is turned off. 3. The method according to claim 1, characterized in that, in order to increase the proportion of successful AR in a line equipped with a unit for checking the state of the disconnected phase, set a second predetermined time exceeding the time 7 9 39578 reion channel deionization, 1. Automatic device after disconnecting at one end of the ARP-503-type reclosing. Research Institute of the two intact phases of the test -Technical description and instructions the state of the disconnected phase and the operation of the ACS 469517 Cheboksarsotsentitsiya KS. on it through the second cue electrical equipment plant, specified time re-includeDisc. 01 (4EAZ), p. 31. two intact phases on one end and previously disabled phase on 2. Knudsen Single jdiase switcbing both ends of the line. of transmission lines using reactors Sources of information, About for extinction of tlie Secondary BO accepted attention in expert analysis, Sigre, No. 310, 1962. .-. f W i.rt;., --.- vf