SU1072175A1 - Device for prohibiting power system multi-step automatic frequency unloading - Google Patents

Abstract

DEVICE BAN Multistage automatic frequency discharge (ACR) ENERGY comprising the consumer and the substation power system ACR blocks, blocks power control, characterized in that, with a view to the Enhance selectivity of action, it is further introduced comparing relay, two mobile katuschki rigidly fastened between by themselves and located on a longitudinal magnet with poles on longitudinal faces with a magnetic core adjacent to them, two potentiometers, roller current collectors of which are rigidly fastened to one cat AC voltage regulator, transformer with three secondary windings equipped with moving contacts, two potentiometers, the moving contacts of the first and second secondary windings of the transformer and potentiometer being combined by a common operating mode adjustment knob, the first winding of the relay is connected to the output of the power control unit comparison and through the disconnecting contacts of the first stage of the AChR unit, the first movable coil, one output of which is connected to the second movable coil, which through The same contacts of the AChR unit are connected to the first potentiometer, which is connected via a diode bridge, to an AC voltage regulator, to which the primary winding of the transformer is also connected, the first and second secondary windings of which are connected opposite to each other and connected to the second potentiometer. the output of the secondary windings is connected to the initial output of the potentiometer, and their movable contacts, which are the second terminals of the secondary windings of the transformer, through soy dividing diodes (L. between each other and connected to the movable contact of the second potentiometer, a third secondary winding of the transformer is connected opposite the second secondary winding and its movable contact is connected to the final terminal of the second potentiometer, which is connected to the first terminal of the second winding of the comparison relay, the second terminal of which is connected to the roller current collector of the second potentiometer Parallel to the second winding of the comparison relay, a capacitor is switched on, the opening contacts of the comparison relay are intended to be connected to the output circuit. second stage AChR energy systems. SP

Description

This invention relates to the technique of electric power system automation, in particular, to automatic private unloading (AChR) while reducing the frequency in the power system. Devices are known for providing selective action of AChR based on a duplicating version of AChR at power grid substations with respect to consumer ACHR devices with a higher frequency setting and a shorter time 1. The use of special frequency response lines installed directly at the substation of consumers necessitates their duplication. in substations of power systems with a large volume of disconnection. There are known ACHR devices at power substations with the equipment for monitoring the power supply, disconnecting lines from the frequency response with selective disconnection of only those connections where this power exceeds the set value 2. The effectiveness of such redundancy is insufficient, since when the frequency is reduced, the permissible power of individual consumers may be exceeded, but at the same time, the failure of the AChR response to a certain amount of power is allowed, which will lead to the need to turn off other consumers due to non-operation ACR to disable those users that do not provide the required unloading when power consumption is less than acceptable. The currently implemented AChR special stage at consumer substations does not have effective control of its response from the power grid substation, therefore, if they fail, unnecessary disconnection of consumers of equal degree of responsibility occurs due to non-selective action of AChR devices at a slow decrease in frequency as the overall setpoint is reached. AChR. The purpose of the invention is to increase the selectivity of the action of AChR to prevent unnecessary blackouts of consumers of different degrees of responsibility due to the failure of the AChR special stage of non-critical consumers. The goal is achieved by the fact that the device containing the AChR blocks and power control blocks at the consumer and at the power grid substation is additionally introduced with comparison relays, two moving coils rigidly fastened together and located on a longitudinal magnet with poles on the longitudinal faces adjacent to with a magnetic conductor, two potentiometers, roller current collectors of which are rigidly connected to one coil, an alternating current voltage regulator, a transformer with three secondary windings equipped with movable and contacts two potentiometers, the movable contacts of the first and second secondary transformer windings and potentiometer combined bschey handle adjustment mode, the output to the power control unit under. The first winding of the comparison relay is also connected via the disconnecting contacts of the first stage of the AChR unit of the system — the first movable coil, one output of which is connected to the second movable coil, which through the same contacts of the AChR unit is connected to the first potentiometer, which through the diode bridge is connected to a voltage regulator current, which is also connected to the primary winding of the transformer, the first and second secondary windings of which are connected opposite each other and connected to the second potentiometer, with one pin toric windings are connected to the initial output of the potentiometer, and their movable contacts, which are the second leads of the secondary windings of the transformer, are interconnected via dividing diodes and connected to the movable contact of the second potentiometer, the third secondary winding of the transformer is connected opposite to the second secondary winding and its movable contact is connected to the final terminal of the second potentiometer, which is connected to the first terminal of the second winding of the comparison relay, the second terminal of which is connected to the rollers mu current collector of the second potentiometer, parallel to the second winding of the relay switched capacitor comparator, comparing the break contacts of relays are intended for inclusion in the output circuit of the second stage ACR grid. The drawing shows the diagram of the proposed device (a) and the interposition of the magnet with the coils on the rollers of the current collectors of the potentiometers and the magnetic core (b). The power control unit is connected to the current transformer 2, line 3 and transformer 4 of the voltage of the substation 5, from which, via switch 6, line 3 feeds the substation 7 with the block 8 AChR. The power control unit 1 is connected to the winding of the comparison relay 9 and through the contacts 10 of the block 11 of the automatic frequency converter of the substation 5 - coil 12, with which the coil 13 is fastened, is connected through the same contacts 10 to the potentiometer 14, which is connected to the stabilizer 16 through diode bridge 15 The stabilizer 16 is also connected to the primary winding of the transformer 17, which has three secondary windings equipped with moving contacts, the first and second are connected opposite each other and one terminal connected to the initial output of potentiometer R moving contacts that are The secondary leads of the transformer are connected to each other and to the movable contact of potentiometer 18 through separate diodes 19, the third secondary winding of the transformer is connected opposite to the second secondary winding of the transformer and its movable contact is connected to the final terminal of potentiometer 18. Roller current collectors of potentiometers 14 and 18 fastened with coils 12 and 13 mounted on a longitudinal magnet 20 with poles on its longitudinal faces, and the magnetic conductor 21 adjacent to them 21. To potentiometer 18 through a roller current collector The nickname is connected to the second winding of the comparison relay 9, in parallel with which the capacitor 22 is turned on, which smoothes the rectified voltage of the second winding, the comparison relay, the contacts 23 of the comparison relay are included in the second-phase AChR circuit of the system.

The device works as follows.

By reducing the frequency in the power system, the special sequence of AChR 8 at substation 7, the consumer produces a disconnection of the part of the least responsible load. Providing a given volume of unloading within a given limit of the total connected power, the subsequent decrease in frequency does not cause the action of AChR 11 - at power grid substation 5 to disconnect the supply line 3 with switch 6 due to the operation of the comparison relay 9 and opening of its contacts 23.

The operation of the comparison relay 9 occurs from the excess of the amperages of the second winding with respect to the first winding, which is powered from the power control unit 1 connected to the transformer 2 of the line 3 current and the transformer 4 of the substation 5. The second winding of the relay 9 is powered by a roller current collector 18 the algebraic sum of the voltages of the secondary windings of the transformer 17 with an individual and common control knob for their operation from the power supply stabilizer 16. The position of the summation of the voltages on the potentiometer 18 is determined by the position of the common adjustment knob.

Presetting the common knob of potentiometer 18 and transformer 17 establishes the allowable limit value of the load power of line 3, exceeding of which by moving the roller current collector to the right of the position of the manual regulator of potentiometer 18 causes the reduced voltage on the second winding of relay 9 to be proportional to the excess power due to counter-switching secondary obmoto1k transformer 17. Counter-inclusion of the third secondary winding of the transformer 17 allows m individual regulator pre-set value umenschenie total voltage of the potentiometer 18 over a predetermined

the power of the special line of AChR 8 on the line 7 substation 7 supplied by the consumer. The diodes 19 eliminate the mutual influence of the secondary windings of the transformer 17 in that they prevent the flow between them.

 The magnitude of the voltage on the second winding of the relay 9 depends on the position of the roller current collector of potentiometer 18, which moves along the magnet 20 due to the interaction of its magnetic field by the drain

0 coils 12 and 13. The current in the coil 12 is proportional to the power load line 3.

The opposing current of the coil 13 is proportional to the voltage on the potentiometer 14, depending on the position of its po-i face current collector.

 The longitudinal magnet 20 and the potentiometers 14 and 18 are arranged so that the movement of the movable coils 12 and 13 with the rollers of the current collectors of the potentiometers 14 and 18 along the magnet 20 corresponds to the power value

Q load substation 7 at each time measurement and fixing power on line 3.

By reducing the frequency in the power system to a value that exceeds the setpoint of the possible error of the relay operation setpoint

5 frequencies of АЧР 8, the first level of АЧР 11 is activated and the contacts 10 are opened, which causes the power supply of the coils 12 and 13 to stop, as a result of which the power consumption of the substation 7 is fixed until the response of its AFP 8 special turn.

0, the current collector of potentiometer 18 is set to the corresponding power voltage value with its decrease by the value of the specified power frequency response frequency of the substation 7. If the load power exceeds 5 specified, the voltage decreases additionally by the amount of excess power on line 3.

By reducing the frequency in the power system to a value less than the setting of AChR 8 by

0 possible error of its frequency relay, triggers the second level of АЧР 11- and affects the switching off of switch 6 only if the previous power of line 3 minus the volume of АЧР of substation 7 and exceeding the loading tolerance of line 3 turned out to be lower than the power settings of АЧР 8. If АЧР 8 provided shutdown of the required power, referred to the special turn, and power, which exceeded

0 given the load limit, the action of AChR 11 to disable line 3 does not occur. With a deeper reduction in the frequency in the power system, when it is necessary to disconnect consumers in general, ARF 11 acts to disconnect switch 6 without locking power control from the third stage of ARF 11 to prevent a system-wide accident.

Claims (1)

DEVICE FOR PROHIBITING MULTI-STAGE AUTOMATIC FREQUENCY UNLOADING (ACF) OF THE ENERGY SYSTEM, containing at the consumer and at the substation of the power system AChR units, power control units, characterized in that, in order to increase the selectivity of the action, the comparison relay is added, two movable coils are rigidly inserted into it themselves and located on a longitudinal magnet with poles on the longitudinal faces with an adjacent magnetic circuit, two potentiometers, the roller current collectors of which are rigidly fixed to one coil, with AC voltage tabulator, transformer with three secondary windings equipped with movable contacts, two potentiometers, the movable contacts of the first and second secondary windings of the transformer and potentiometer combined by a common control knob for operation, while the first winding of the comparison relay is connected to the output of the power control unit and through disconnecting contacts of the first stage of the AFR system block - the first movable coil, one output of which is connected to the second movable coil, which through the same contact You are connected to the first potentiometer, which is connected through a diode bridge, to an AC voltage regulator, to which the primary winding of the transformer is also connected, the first and second secondary windings of which are connected opposite each other and connected to the second potentiometer, with secondary windings connected to one connected to the initial output of the potentiometer, and their movable contacts, which are the second conclusions of the secondary windings of the transformer, are connected to each other and connected via dividing diodes s to the movable contact of the second potentiometer, the third secondary winding of the transformer is turned on counter with the second secondary winding and its movable contact is connected to the final output of the second potentiometer, which is connected to the first output of the second winding of the comparison relay, the second output of which is connected to the current collector of the second potentiometer, parallel to the second a capacitor is connected to the coil of the comparison relay, the disconnecting contacts of the comparison relay are designed to be included in the output circuit of the second stage of the ACP of the power system. >