RU2366055C1 - Method of protecting high-voltage equipment from short-circuit current - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention can be used in electrical engineering for protecting equipment in high- and super-high voltage distribution devices. When there is a short circuit in any connection, values of parametres which are dangerous for the high-voltage equipment are recorded: when current value in each connection exceeds a given value or if voltage drops below a given value. Actuation of relay protection for any connection shunts the short circuit and the connection, for which the current value is below a given value, is disconnected, after which deshunting is done.

EFFECT: increased selectivity and faster disconnection of faulty connection when current values exceed given values.

3 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, and in particular to methods of protecting high-voltage equipment from short-circuit currents in electric power plants, and can be used to protect equipment in switchgears of high and ultra-high voltage.

A device for limiting short circuit currents [1].

The disadvantage of this invention is the limited scope: it is used in networks of industrial enterprises with lines of short length.

Closest to the proposed technical solution is a method of shunting the load in emergency mode using powerful high-voltage electric vacuum devices [2].

The disadvantage of this technical solution is the low selectivity.

The purpose of the invention is to increase the selectivity and speed of disconnection of a damaged connection at currents higher than specified.

This goal is achieved by the fact that in the known method of protecting high-voltage equipment from short-circuit currents in a high voltage switchgear (RU), at which a short circuit is detected and a short circuit is shunted, when a short circuit occurs in any of the connections, parameter values dangerous to high-voltage equipment, and when changing the parameters, a short circuit is shunted and the connections are disconnected, in which the current is lower than the specified value, after which o carry out the unloading, and if the current values in each of the connections are fixed, if the value exceeds the specified value, a short circuit is shunted and the connections in which the current value is lower than the specified value are disconnected, then they are unloaded if the voltage values are fixed, when the voltage drops below the specified and when the relay protection of any of the connections is activated, a short circuit is shunted and the connections are disconnected, in which the current value is lower than the set value, after which they are disconnected.

The method is implemented by the device shown in the drawing.

The device contains intact connection 1, switches 2 and 3, switchgear 4, damaged connection 5, shunt device 6, made, for example, in the form of a controlled vacuum spark gap (RVU), voltage control unit 7, current magnitude control unit for each of the connections 8 s outputs: 9 - fixation of connections with a current greater than a given, and 10 - fixation of connections with a current less than a given, a block for fixing the actuation of relay protection of any of the connections 11, a logical element OR - 12, a logical ele Ment I - 13, the executive body of the inclusion 14 of the shunting device 6, the executive bodies disconnect 15 and 16, the unit for fixing and disconnecting the damaged connection 17, the time delay unit 18.

The intact connection 1 is connected to the busbars of the switchgear 4 through the switch 2, and the damaged connection 5 is connected to the switch 3. The shunt device 6 is also connected to the busbars of the switchgear 4, made, for example, in the form of a controlled vacuum spark gap (RVU). The input of the voltage control unit 7 is connected to a voltage sensor (voltage transformer VT), and the output to the first input of the OR logic element 12. The inputs of the current magnitude control unit of each of the connections 8 are connected to the current sensors (CT current transformers) of the connections, and its output 9 - with the second input of the logical element OR - 12. The output of the element 12 is connected to the first input of the logical element And - 13, the second input of which is connected to the output of the block of the relay of the actuation of relay protection of any of the connections 11, the inputs of which are connected neny with outputs of relay protection (RE) connections. The output of the element 13 is connected to the input of the executive body 14 to turn on the shunt device 6 and to the first input of the unit for fixing and disconnecting the damaged connection 17, the second input of which is connected to the output 10 of the current monitoring unit 8. The output of the block 17 is connected to the input of the executive body 16 to turn off the switch 3 and simultaneously with the input of the time delay unit 18, the output of which is connected to the input of the actuator 15 for shutting off the shunt device 6.

A device based on the proposed method works as follows.

The occurrence of a short-circuit current with a value greater than the set value at any of the connections, for example, at connection 5, is detected via the OR-12 logic element: either from the voltage control unit 7 due to a decrease in the controlled voltage below the set value, or from the current value control unit each of the connections 8 (outputs: 9 - fixing connections with a current greater than a given).

The occurrence of a short circuit on controlled connections is detected by the appearance of a signal at the output of the relay protection trip unit of any of the connections 11.

Thus, when a short circuit occurs at any of the controlled connections with a current greater than a given one, the appearance of a signal at the output of the And - 13 element is recorded, i.e. at the input of the executive body 14 of the inclusion of the shunt device 6 and at the first input of the block fixing and disconnecting the damaged connection 17.

The Executive body 14 enables the shunt device 6, in connection with which there is a decrease in voltage on the busbars of the switchgear 4 to almost zero.

In the case of installing a controlled vacuum spark gap, the voltage drop across the RVU arc does not exceed 100 V, which reduces the current in the damaged connection 5 depending on the distance of the short circuit point from the busbars of the switchgear from 0.3 to 0 from the maximum value of the short circuit current.

Due to the decrease in current in the damaged connection 5 below a predetermined level, a signal appears at the second input of the current control unit in the connection circuit 8, and hence at the second input of the block for fixing and disconnecting the damaged connection 17.

At the same time, through the shutdown actuator 16, a command is issued to disconnect the connection 5, in which the current is lower than the set one. At the same time, block 18 is started with a time delay sufficient to disconnect the damaged connection 5, which sends a command to the actuator 15 for disconnecting the shunt device 6.

Literature

1. Copyright certificate for the invention №1410182.

2. Alferov D.F., Ivanov V.P., Sidorov V.A. Guided vacuum arresters: basic properties and applications // ELECTRO, 2002, No. 2, p. 37.

Claims (3)

1. A method of protecting high-voltage equipment from short-circuit currents in a high voltage switchgear (RU), according to which, if a short circuit occurs in any of the connections, the values of the parameters hazardous to the high-voltage equipment are recorded, and when the parameters change, a short circuit is shunted, then the connection is disconnected, in where the current value is below a predetermined value, after which the unloading is carried out. 2. The method according to claim 1, characterized in that the current value is fixed in each of the connections and, when the value is higher than the set value, a short circuit is shunted, then the connection is disconnected, in which the current value is lower than the set value, after which the unloading is performed. 3. The method according to claim 1, characterized in that the voltage value is fixed and, when the voltage drops below a predetermined voltage and the relay protection of any of the connections is activated, a short circuit is shunted, then the connection is disconnected, in which the current value is lower than the specified value, and then unloading is performed.