RU1797154C - Method of restoration of power supply in two-circuit electric power lines - Google Patents

Abstract

Usage: in the electric power industry, in distribution networks x 6-35 kV s. isolated by neutral. SUBSTANCE: in order to restore power supply during two-phase short circuits without ground on one of the two parallel lines, the phases are switched on in both lines so that a short circuit is obtained between the two phases of the same name, which allows not to interrupt power supply on the damaged line. To do this, the phases of the damaged and undamaged lines are interchanged, the same name as the phases between which a short circuit occurred, and when closing, for example, between phases A and B, power is supplied through phases A-A-C along the damaged circuit and B-B-C on an undamaged circuit. 2 silt, 1 tab.

Description

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The invention relates to the field of electric power and can be used in electric networks with non-grounded neutral to increase the reliability of power supply.

An object of the invention is to enhance functionality while maintaining throughput when a two-phase short circuit occurs without ground.

In FIG. 1 is a circuit diagram for explaining an implementation of the method; in FIG. 2 - execution of a logical block.

Phase-controlled switching devices 3-20 are connected to the bus sections 1 and 2 from the power source, to which the first 21 and second 22 double-circuit line circuits are connected. The indicated circuits 21 and 22 are connected to the bus sections 23-25 through phase-controlled switching devices 26-43. A switching device 44 is installed between the bus sections 1 and 2, a switching device 45 is installed between the bus sections 23 and 24,

In each phase of the double-circuit line, short-circuit protection relays 46-51 are installed, the outputs of which are connected to logic block 52.

Logic block 52 (Fig. 2) consists of series-connected contacts 53-55 of the short-circuit protection relay 46-48 of the first circuit and series-connected contacts 56-58 of the short-circuit protection relay 49-51 of the second circuit. These contact groups are connected in parallel and connected to the intermediate relay 59. The NO contacts 60 and 61 of the relay protection of the first 46 and second 47 phases of the first circuit 21 are connected in series and connected in parallel to the series-connected NO contacts of the relay 49 of the first 49 and second 50 the phases of the second circuit 22. These contact groups are connected in series to the first actuator 64 and to the disconnecting contacts 65 of the intermediate relay 59.

The closing contacts 66 and 67 of the relay protection of the second 47 and third 48 phases of the first circuit 21 are connected in series and connected in parallel to the series-connected contacts 68 and 69 of the protection relay of the second 50 and third 51 phases of the second circuit 22, these contact groups are connected in series with the opening contact 65 an intermediate relay 59 and a second actuator 70.

NO contacts 71 and 72 of the relay protection of the first 46 and third 48 phases

the first circuit are connected in series and connected in parallel to the series-connected make contacts 73 and 74 of the first 49 and third 51 phases of the second circuit

22, these contact groups are connected in series with the opening contact 65 of the intermediate relay 59 and the third actuator 75.

When the first 64, or the second 70, or the third 75 actuators are activated, the state of the switching devices should be as shown in FIG. 3, where 1 corresponds to the on position, O is off.

5 Switching devices 3-20 and 2643 can be made in the form of phase-controlled three-phase disconnectors. Relay from short circuits 46-51 can be made on the principle of maximum current protection. To implement the method, it is necessary that between the beginning of the line (supply busbars) and the end of the line (consumer) there is a telecontrol system or a communication system with manual

5 restoration of power supply by operational personnel.

. For normal operation of a double-circuit power line, switching devices 3, 7, 11, 12, 16, 20, 26, 30,

0 34, 35, 39 and 43, and switching devices

44 and 45 are disabled.

In the case of a two-phase short circuit between and phases A and B of the first circuit 21 according to the invention, it is necessary that the phase A of the source in the first circuit is applied to phase B of the line 5, and the source phase B is applied to the line shaft A of the line, then the first circuit power supply will be provided by A-A-C, and on the second circuit B-B-C, at

In this way, an interphase short circuit is eliminated and full power is transmitted through the line. With such damage, it is also possible that instead of phase A, phase B is switched on in the first circuit and in the second circuit

5 instead of phase B, phase A was switched on, then in the first circuit the power supply will be carried out in phases B-B-C, and in the second circuit in phases A-A-C. Accordingly, during a two-phase short circuit between phases B-C, the power supply can be carried out with a combination of phases in the first circuit ABC, along the second circuit ACC, or along the first circuit ACC, C. the second chain - A-B-B. With a short circuit between phases A-C

5, power can be supplied by combining the phases in the first circuit ABA, in the second circuit BC-C, or in the first circuit BC-C, in the second target ABA.

The implementation of the method with the proposed logical unit 52 will allow you to eutomatize and reduce the time of interruption in power supply, since depending on which of the executive bodies 64, 70 and 79 worked. From the state table, the position of the switching apparatus is determined. In the case of using 3-20.26-47 as switching devices, devices having a controllable drive, full automation is possible. Then the outputs of the respective actuators are connected to the on and off inputs of the switching devices. The enable input according to the state table will correspond to 1, the disable input - O.

A device that implements this method works as follows.

With a two-phase short circuit between phases A and B, say the first circuit 21, relay protection 46, 47 is activated, which closes its contacts 53, 54, 60, 61. Since the short circuit is not three-phase, the intermediate relay 59 does not work (not closed terminal 55, relay 48). Then the first intermediate relay 64 is supplied with power according to the state table. It is necessary to turn on the switching devices 3, 6,

11. 13, 16, 20, 26, 29, 34, 36, 39, 43, 44, 45, and turn off the rest of the switching devices. In this case, the first circuit will be supplied with a combination of phases A-A-C, the second circuit B-B-C. According to the state table, when the first actuator 64 is activated, it is possible to restore power and with another combination of phases (second line for executive body 64). In accordance with the second line, it is necessary to include switching devices 4, 27, 7, 30, 11, 34,

12. 3.5, 15, 38, 20, 43, 44, 45, and turn off the rest of the switching devices.

In this case, the first circuit 21 will be supplied with a combination of phases B-B-C, the second circuit 22 - A-A-C.

Thus, with a two-phase short circuit, the consumer will not be limited.

In the case of a two-phase short circuit between phases B-C, the second actuator 70 will operate. And in the event of a short circuit between phases A-C, the third actuator 75. In accordance with the state table, the corresponding switching devices must be turned on and off to restore power supply.

When restoring the power supply, the switching apparatus 45 must always be turned on, the switching on of the switching apparatus 44 is dictated by the fact that sections 1

and 2 can be connected to various sources. Then, in order for each source to be loaded more uniformly in phases, when restoring the power supply, it is necessary to turn on the switching device 44,

The proposed method for restoring power supply can find additional application in cases of power supply to objects via two single-circuit lines.

a two-phase short circuit in one line, it is necessary to change the phase switching order on the damaged and undamaged lines according to the proposed method. Such a technical solution will help to maintain the stability of the power system during emergency operation.

Thus, the proposed method and device can improve the reliability of power supply in two-phase

short circuit x.

Claims (1)

SUMMARY OF THE INVENTION A method for restoring power supply on a double-circuit power transmission line, in which, when damage occurs, one circuit is disconnected and the damaged phase of the circuit is switched to the source phase of the same name as the other damaged phase of the circuit, characterized in that In order to expand the functionality while maintaining throughput when a two-phase short circuit occurs without earth, disconnect the intact circuit and on it two of the same name with damaged phases are combined with each other and connect them to the source phase, excluded from the damaged circuit. Figure 1.