SU907688A1 - High-voltage ac substation - Google Patents

Description

high voltage, containing a three-phase group of single-phase transformers, with the first secondary winding terminal of the first transformer connected to the first phase of busbars, the first secondary winding terminal of the second transformer connected through a switch to the second busbar phase, the first secondary winding terminal of the third transformer connected through a switch to the third phase of busbars and parallel to the secondary windings of the first and third transformers connected to the switch, as well as a backup single-phase a transformer, to the first terminal of the secondary winding of which is connected via switches of the second and third phases of busbars and a chain of four switches connected in series, the point between the third and fourth switches connected to the second terminal of the secondary winding of the backup transformer, and the second terminal of the fourth switch is connected to the second output of the secondary winding of the second transformer, and the reactor, is equipped with two additional reactors and six additional switches, the first additional reactor is connected between the first phase of busbars and the second output of the secondary winding of the second transformer, the second additional reactor is connected between the second phase of the busbars and the second output of the secondary winding of the second transformer, the second additional reactor is connected between the second phase of the busbars and the second output of the secondary winding of the third transformer, additional the switches are connected, respectively, between the second output of the secondary winding of the first transformer and the second output of the reactor, between the first output reactor building and the common point of desks first- and second-switches the chain between the first terminal of the secondary winding of the third transformer and the common point of the second and third switches the chain between the first terminal of the reactor and the first terminal of the secondary winding of the third transformer, between the second terminal and the common reactor. point of the second and third circuit breakers, between the second secondary winding of the first transformer and the common point of the first and second circuit breakers.

The drawing shows the operation of the device.

The high voltage AC substation contains a three-phase group 1 of single-phase transformers and a backup transformer 2, the first output 3 of the secondary winding of the first transformer 4 is connected to the first phase 5 busbars, the first output 3

secondary windings of the second transformer 6 Connected via switch 7 to the second phase 8 busbars, first output 3 of the secondary windings of the third transformer 9 connected via switch Yu to the third phase 11 busbars, parallel to the secondary windings of the first 4 and third 9 transformers connected to switch 12 and 13 , the first output of the secondary winding of the backup transformer 2 through the switch 14 is connected to the second phase 8 busbars and through the switch 15 to the third phase 11 of the busbars, to the first output 3 of the secondary winding In the main transformer 2, four series-connected circuit breakers 16–19 are connected, the common point of the circuit breakers 16 and 17 is connected to the second output of the secondary winding of the first transformer 4, the common point between the circuit breakers 18 and 19 is connected to the second output 18 of the secondary winding transformer 2, and the second output of switch 19 is connected to the second output of the secondary winding of the second transformer 6. In addition, the substation is equipped with a reactor 20 connected to the common point of the circuit breakers 16 and 17 and the second terminal house the secondary winding of the first transformer 4.

The substation is equipped with two additional reactors 21 and 22 and six additional: switches 23 - 28, additional reactor 21 is connected between the first phase 5 busbars and the second output of the secondary winding of the second transformer 6, additional reactor 22 is connected between the second phase 8 of the busbars and the second output the secondary winding of the third transformer 9, an additional switch 23 is connected between the common point of the circuit breakers 18 and 19 and the first output 3 of the secondary winding of the third transformer 9, an additional switch 24 connected between the second output of the reactor 20 and the second output of the secondary winding of the first transformer 4, an additional switch 25 is connected to the first output of the reactor 20 and a common point of the circuit breakers 16 and 17, an additional switch 26 is connected between the second output of the reactor 20 and the common point of the circuit breakers 17 and 18, an additional switch 27 is connected between the first terminal 3 of the reactor 20 and the first terminal 3 of the secondary winding of the third transformer 9; an additional switch 28 is connected between the second terminal m secondary winding of the first transformer 4 and the common point of the circuit breakers 16 and 17.

Such a substation scheme provides the connection of the secondary obmototransformer 4, 6, 9 and 2 in a triangle.

The substation works as follows.

In normal mode, switches 7, 10, and 17 and additional switches 23, 24, and 25 are turned on, switches 12, 13, 14, 15, 16,; 18, and 19 are turned off, as well as additional switches 26, 27, and 28, which ensure the connection of secondary windings of transformers 4, 6 and 9 in a triangle with an additional reactor 21 between the secondary windings of transformers 4 and 6, the secondary reactor 22 between the secondary windings of transformers 6 and 9 and with the reactor 20 between the secondary windings of transformers 9 and 4.

When the second transformer 6 fails, the switches 19 and 14 are turned on, and the switch 7 is turned off. As a result, the damaged transformer b is replaced with the reserve 2, the additional reactor 21 is between the secondary windings of the first transformer 4 and the third 3 additional reactor 22 between the secondary windings of the backup transformer 3 and the third transformer 9, the reactor 20 between the secondary winding: 1and transformers 4 and 9.

When the third transformer 9 fails, the switches 13, 15, 16 and 18 turn on and the switch 10 and 17 turn off. As a result, the damaged transformer 9 is replaced with the back-up 2, the additional reactor 21 remains between the secondary windings of the first and second transformers 4 and 6, the additional the reactor 22 is between the secondary windings of the transformers of the second 6 and the backup 2, the reactor 20 is between the secondary windings of the transformers of the first 4 and the backup 2.

When the transformer 4 fails, switches 12, 18 and 16 and additional switches 26-28 are turned on, and switch 17 and additional switches 23, 24 and 25 turn off. As a result, additional reactor 21 is between the secondary windings of transformers of the second 6 and reserve 2, additional the reactor 22 remains between the secondary windings of the transformers of the second 6 and third 9, and the reactor is between the secondary windings of the transformers of the third 9 and standby 3.

Thus, in all modes of operation, a consistent triangle inclusion of reactors is provided.

It forms secondary transformer substation transformers, i.e. The invention allows to improve the quality of the substation voltage on the consumer side by eliminating its asymmetry 5, while at the same time reducing the levels of short circuit currents.

Claims (2)

1. USSR author's certificate 1 572871, cl. H 02 J 3 / 00,28.03.75. 2. Author's certificate of the USSR on application No. 2933819 / 24-07, cl. H 02 J 3/00, 03/27/80. Mr.J