SU790059A1 - Method of eliminating abnormal mode of electric mains at failure of all protection system of one of connections - Google Patents

Description

Union of Soviet

Socialist

Republics

'Iceiv-Aj j't · * ·· j _{pg <} t _SM gi tel * ..' esnak.

SUMMARY OF THE INVENTION

TO AUTHOR'S CERTIFICATE

(..> 790059 (61) Additional to the author certificate (22) Declared 07.04.78 (21) 2601577 / 24-07 (51) M. Cl. ³ (72) Authors of the invention (71) Applicant with accession Application No. (23) Priority

Posted on 23,1280, Bulletin No. 4 7

Date published description 25.1280

H 02 H 3/06

H 02 H 3/28 (53) UDC 621.316.

.925 (088.8)

L.V. Bondarevsky, E.I. Vitkin, and A.E. Tsvetkov

Ural branch of the All-Union State Design and Research and Scientific Research Institute Energosetproekt (54) METHOD FOR ELIMINATING AN ABNORMAL ELECTRIC NETWORK IF THE Failure of All Protects One of the Connections

The invention relates to the electric power industry, in particular to relay protection and system automation of electric networks of voltage 110 kV and higher. 5

There is a known method for eliminating the abnormal short circuit mode at any connection, in which, in addition to the main protections at this connection, backup protection with a time delay is installed ^. However, even the presence of two protections at the connection does not exclude the possibility of their simultaneous failure? in addition, on a number of connections (dead end lines) it is considered inappropriate to establish duplicate protections.

There is also known a way to eliminate the abnormal mode, in which 20, if all the protections of one connection fail, the short circuit is disconnected with the help of the intact power connections, and the far ends of these 25 connections are disconnected ^ * long-distance reservation) ”Then from own automatic restart devices (АПв) these connections are reconnected and, in the event of a sustained short circuit on a damaged connection, are disconnected again [2 ^].

Closest to the proposed one is a method of eliminating the abnormal mode of the electric network in case of failure of all the protections of one of the connections, connected via their switches to bus systems equipped with a bus connection switch, in which the bus connection switch is first disconnected from the backup protection of power connections operating, for example, with time delay when the direction of the short circuit power to the buses, then disconnect the circuit breakers of the network elements with subsequent reclosure of these lyuchateley and acceleration protection after reclosure £ 1].

A disadvantage of the known methods is the infliction of great damage due to the final (after automatic reclosure) disconnection of intact supply connections in the event of a stable short circuit on the damaged connection, where all the protection failed.

The purpose of the invention is to reduce the damage caused by the failure of the protections of the damaged connection by permanently disconnecting this connection alone.

This goal is achieved by the fact that with the known method of eliminating the abnormal mode of the electrical network in case of failure of all the protections of one of the connections, connected via their switches to bus systems equipped with a bus connection switch, in which the bus connection switch is first disconnected from the backup protection of the power connections operating for example, with a time delay when the direction of the short circuit power to the buses is turned off, the circuit breakers with subsequent reclosure of their circuit breakers' and with acceleration of protection after automatic reclosure, they additionally measure the voltages on both bus systems, compare them with each other and determine by the result of the comparison which bus system the damaged connection is connected to, all connections of this bus system are disconnected, and then the voltages are measured on power connections from the side of network elements and with the help of automatic reclosure in turn include all connections with acceleration of backup protection of power connections and their action on the switch of the connected connection, and first include all power connection to them in the presence of voltage from the network elements, and then - fed (blind) connection.

In addition, to determine the bus system to which the damaged connection is connected, asymmetry voltage is isolated from the voltages of each bus system, compare them with each other and with a given level, and if at least one of them is higher than a specified level, then it is assumed that the damaged connection is connected to that bus system where the asymmetry voltage is greater.

If none of the unbalance voltages exceeds a predetermined level, then it is believed that the damaged connection is connected to that bus system where the phase (linear) voltage is less.

In case of damage at the power supply 8 or / at the dead end 9 connections and failure to protect them 10 or inappropriately). 7 intact connections 2-5 are protected with a first exposure time longer than the main protection times of all connections of a given voltage, act on the separation of systems (sections) .n (to turn off the switch 12). After separation of the bus systems on one of them, a greater voltage asymmetry than on the other bus system with asymmetric damage, or a lower voltage with symmetrical damage.

A special device 13 determines the bus system and disconnects all connections of this system under the action of the backup protection 7 of the intact element 2 or 4 with a second 2Q time delay. Then, the presence of voltage at the supply connections 2,4 and 8 is monitored and only 2 and 4, on which voltage is present, are switched on from the automatic reclosure. Thereby

- the damaged ^e (supply) connection remains disconnected, since it remains disconnected from the opposite side and there is no voltage on it;

After this, 30 dead ends join in turn. At the same time, at the time each connection is turned on, ’accelerated chains of backup protection of undamaged connections are prepared to disconnect the switched connection, which ensure the repeated disconnection of the damaged connection (dead end line).

As a result, all intact connections 2,4 and 9 (or 8) are rendered. The failed connection 8 (or 9) is turned off. Thus, the proposed method allows to reduce damage caused by the failure of the damaged protection. joining, as it performs the final disconnection of only this joining. At the same time, the number of relay equipment installed at the substation practically does not increase.

The drawing shows a diagram of a device implementing the method,

On each system (section) of buses 1, one or two connections are selected for autotransformers 2 and 3 and supply switches for lines 4 and U, through which the substation under consideration is connected to power sources. At the input switches 6 of these connections, a backup protection 7 is provided, which acts when the short-circuit power is directed to the substation buses.

Claims (1)

About “On Disabling Only One Of This Attachment. The goal is achieved by the fact that, with the known method of eliminating the abnormality of the electrical network, all the protections of one of the connections connected by means of their switches to the bus systems equipped with a bus connection switch fail to operate, at which the bus connection switch is first disconnected from the backup protection of the power connections, operating, for example, with a time delay in the direction of the short-circuit power to the buses, disconnecting the circuit breakers of the network elements with subsequent AR silent switches and with the acceleration of protection after AR, additionally, they measure the voltage on both bus systems, compare them with each other and by the result they compare to which bus system a damaged connection is connected, disconnect all the bus connections of this bus system, after measure the voltage at the supply connections from the network elements and, with the help of automatic reclosing, alternately switch on all connections with the acceleration of the backup protection of the supply connections and their action on the switch of the connecting connection, first They include all feed in the presence of coupling to them by the voltage of the network elements, and then - fed (Neny of connecting stub. In addition, to determine the bus system to which the damaged connection is connected, the stresses of each unbalance are distinguished from the stresses of each tire system, compared with each other and with a given level, and if at least one of them is above a given level, then they take that the damaged connection is connected to the bus system where the voltage of asymmetry is greater. If none of the asymmetry stresses exceed the terminated level, then consider that the connection is damaged is connected to the bus system where the phase (linear) voltage is less. The drawing shows the scheme of operation of the device implementing the method. On each system of section 5) Bus 1 selects one or two autotransformers 2 and 3 and supplying switches of line 4 and by which the substations with power sources are connected are connected. On the input switches 6 of these connections, a reserve of protection 7 is provided, acting in the direction of the short-circuit power to the substation buses. If damage occurs at the supply 8 or dead-end 9 connections and their protection fails 10 or 11 (respectively). The protection of 7 intact connections 2–5 with the first time delay, the longer time of operation of the main protection of all connections of this voltage, affects the separation of systems ( sections) shi.n. (to turn off the switch 12). After separation of the tire systems on one of them, the voltage asymmetry is greater than on the other tire system with asymmetrical damage, or lower voltage with symmetric damage. A special device 13 determines the bus system and turns off all the connections of this system when the backup protection 7 of an intact element 2 or 4 is acting with a second time delay. Then, the presence of voltage at the supply connections 2.4 and 8 is monitored and only 2 and 4 are connected to the AR, at which voltage is present. Thereby, the damaged (power) connection remains disconnected, since it remains disconnected from the opposite side and there is no voltage on it; Thereafter, deadlock connections are alternately included. At the same time, for the period of activation of each connection, accelerated action chains of the intact connections for shutting down the activated connection are accelerated, which ensure the repeated disconnection of the damaged connection (dead-end line). as a result, all intact connections 2.4 and 9 (or 8) are turned on, and the damaged connection 8 (or 9) is disabled. Thus, the proposed method makes it possible to reduce the damage caused by the failure of the protection of the damaged connection, since it makes a final shutdown of this connection only. At the same time, the number of relay equipment installed at the substation practically does not increase. Claim 1. Method of eliminating the abnormal mode of the electrical network in case of failure of all protections of one of the connections connected by means of their switches to bus systems equipped with a bus connecting switch, at which the bus connecting switch is first disconnected from back-up protection of supply connections operating, for example, with delay time with direction