RU2665033C1 - Automatic frequency load shedding in the power supply power distribution network control method - Google Patents

Abstract

FIELD: electrical equipment.SUBSTANCE: invention relates to the field of electrical equipment. Invention is explained by the interaction scheme of relay protection and automation (RPA) software and hardware complex and automatic power information and fiscal metering station (APIAFMS), which contains located at the 35/10 kV transformer substation the FLS 1 device, the relay protection and automation equipment microprocessor device (terminal) RPA 2, the 10 kV bus 3, 10 kV feeder switch 4 and the APIAFMS general substation control cabinet 5 with GSM modem 6, participating, like the rest of GSM modems, in the FAAR cycle, and the data acquisition and transmission devices (DATD) 7, as well as the 10/0.4 kV package transformer substation 8 with GSM modem 9, by the data acquisition and transmission device (DATD) 10 and the APIAFMS power metering counters 11, made with control terminals 12, the main switchboard 13 with the GSM modem 14, data acquisition and transmission device 15 and the APIAFMS power metering counters 16, the network sections control center 17 with the GSM modem 18, and the database server 19. With the frequency decrease, command from the FLS 1 device for the 0.4 kV load disconnection is transmitted to the 10/0.4 kV network, in the form of the supply voltage drop with specified duration by switching-off and switching on according to the commands of the RPA 2 terminal of the 10 kV feeder switch 4, connected to the 10 kV buses 3. FAAR command for of the load reclosing is realized in the APIAFMS equipment system SHC.EFFECT: automatic frequency load shedding (FLS) in the power supply power distribution network control method allows to achieve the technical result, which consists in the FLS quality control improvement taking into account of the electric consumers priority change dynamics and of their total current capacity monitoring and reducing the damage caused by the power supplies sudden disconnection and keeping the most important electric consumers in operation.4 cl, 1 dwg

Description

The invention relates to the field of electric power and is intended for use in the implementation of reliable power supply to responsible consumers with the prevention of an unacceptable reduction in frequency.

The actions of balancing anti-emergency automation devices, which provide for the disconnection of electricity consumers, make it possible to maintain the continuity of power supply to the most critical consumers. However, the task of distributing consumers according to the order of disconnection is difficult to implement in megacities, where objects of different degrees of responsibility are combined. Promising to solve this problem is to transfer the implementation of the control actions of emergency control devices, in particular for AChR, from the level of 6-10 kV to the level of 0.4 kV.

There is a known method of controlling automatic frequency unloading (AChR), which involves switching off the power supply from 6-10 kV to 0.4 kV with the formation of a command to turn off the relay protection and automation by a microprocessor device and transmitting this command to the network in the form of a power failure duration by turning off and on the feeder 6-10 kV (patent RU 2542742 C1, IPC H02J 13/00, publ. 02.27.2015).

The disadvantage of this method is the lack of the possibility of a frequency automatic reconnection (ChAPV) of disconnected power receivers and operations providing switching of the latter. Closest to the invention is a method of controlling the AChP in a power distribution network of power supply, according to which, during the AChP and subsequent ChAPV, switching the switching of power receivers from a level of 6-10 kV to a level of 0.4 kV with the ability to save the most priority commands from the AChR device to disconnect and reconnect 0.4 kV power consumers are perceived by electricity meters as automated information and measurement systems for monitoring and control of energy consumption (AIISK E) and through their control contacts, the power supply circuits of 0.4 kV power receivers are switched, while the command to turn off 0.4 kV power consumers is formed using a transmitter of a microprocessor relay protection and automation device and transmitted to the network in the form of a power supply failure of a given duration by disconnecting switching on the feeder 6-10 kV (Artsishevsky Y.L., Giyoev B.M. Reliability of power supply of responsible consumers 0.4 kV under the influence of AChR. Materials of the XXII International scientific and technical conference “Prospects for the development of the electric power industry and high-voltage electrical equipment. Switching devices, converting equipment, microprocessor control and protection systems ”, TRAVEK, M., 2015).

The disadvantage of this method is the limited reliability of the control of the AChP and there are no opportunities for changing the priority of non-disconnectable power receivers, or for monitoring the total actual power in the network, since only the ChAPV commands are realized when the frequency is restored only through the operational switching channels of the AIISKUE.

The technical task of the invention is to improve the quality control of the AChP taking into account the dynamics of changing the priority of power consumers and monitoring their total current capacity.

The technical result of the invention is to reduce damage in the event of a sudden power outage and maintaining the most critical power consumers in operation.

This is achieved by the fact that in the known method of controlling AChP in a power distribution network of power supply, according to which, in the process of ACHP and subsequent ChAPV, switching of network power receivers is switched from a level of 6-10 kV to a level of 0.4 kV with the ability to save the most priority commands from AChR devices for disconnecting and reconnecting 0.4 kV power consumers are perceived by electricity meters as automated information and measurement systems for monitoring and control of energy consumption (AIISKUE) through their control contacts, the power supply circuits of 0.4 kV power consumers are switched, and the command to turn off 0.4 kV power consumers is formed using a transmitter of a microprocessor relay protection and automation device and transmitted to the network in the form of a power supply failure of a given duration by disconnecting and turning on the feeder 6 -10 kV, the command for the ChAPV of the disconnected 0.4 kV power receivers is formed using equipment located in the AIISKUE general substation control cabinet, as well as a database server installed on nte control the sections of the electric network, and transmit through the grouping of modems over the remote data collection network and control the electricity meters to all complete transformer substations and the main switchboards of this feeder, the database server at the point of control of the sections of the electric network carries out operational control of the total power of the group of power consumers 0 , 4 kV, disconnected from the AChR device, and possible switching as part of this group, taking into account the variable level of response identity.

In addition, the network of remote data collection and control of electricity meters can be performed using GSM-modems of PLC technology with RS-485 interface.

In addition, the control contacts of the AIISKUE electricity metering meters are included directly in the power circuits of 0.4 kV power receivers or in the 0.4 kV circuit breaker drive control circuit. The essence of the method of controlling the AChR in the power distribution network of power supply is illustrated by the drawing, which shows a diagram of the interaction of the software and hardware complex of relay protection and automation (RPA) and AIISKUE, which ensures the implementation of the method.

The interaction scheme of the software and hardware complex of relay protection and automation (RZA) and AIISKUE contains, at a transformer substation 35/10 kV, an AChR device 1, a microprocessor device (terminal) RZA 2, a bus 10 kV 3, a switch 4 of a feeder 10 kV and a cabinet 5 AIISKUE general substation control with a GSM modem 6, participating, like other similar GSM modems, in the ChAPV cycle, and data transmission collection devices (USPD) 7, as well as a complete transformer substation (KTP) 10 / 0.4 kV 8 with a GSM modem 9 device 10 data collection and transmission (USPD) and meters 11 metering electricity AIISKUE made with control contacts 12, the main switchboard (MDB) 13 with a GSM modem 14, device 15 for collecting and transmitting data (USPD) and meters 16 electricity metering AIISKUE, control room 17 control sections of the electric network with GSM modem 18 and database server 19.

When the frequency decreases, the command from the AChR device 1 to disconnect the load of 0.4 kV is transmitted to the 10 / 0.4 kV network, in the form of a failure of the supply voltage of a given duration by disconnecting-turning on at the relay terminal 2 relay 4 switch 10 kV feeder connected to the buses 10 kV 3. The ChAPV command for re-switching the load is implemented in the PTC of the complex of the AISISCUE equipment. Each of the disconnected 0.4 kV power receivers is controlled by means of control contacts 12 of individual meters 11 of electricity metering.

At the same time, the output circuit of the “disconnect” command from the AChR device 1 installed at the 35/10 kV substation, to the logic input of the microprocessor relay protection relay 2, which switches off the switch 4 without delay. At the same time, the load is quickly disconnected by the AChR-1 queue commands.

A voltage dip of a given duration in a 10 / 0.4 kV network is perceived by a plurality of electricity metering meters 11 of the AIISKUE and a pre-selected majority of 0.4 kV power consumers are turned off. At the same time, some smaller part of the pre-selected most important power consumers are not turned off.

The command of the AChR device 1 “to turn on” according to the ChAPV algorithm is implemented by means of the PTK AIISKUE using GSM modems installed at substations:

- at a transformer substation, a command to turn on from the AChR device 1 to USPD 7 and a GSM modem-transmitter;

- on KTP 10 / 0.4 kV 8 and main switchgear-0.4 kV 13, powered by the feeder in question, - GSM-modem-receivers of the “on” command 9 and 14.

The “turn on” commands on the 10 / 0.4 kV 8 transformer substation are realized from the GSM modem of the receiver 9 through the USPD 10 and the counters 11 with control contacts 12, and on the main switchboard of 0.4 kV 13 the “turn on” command from the GSM receiver 14 through USPD 15 and meters 16 electricity metering.

At the same time, at the control room 17, through the GSM modem 18 of the AIISKUE, the total current power of consumers connected to the power supply at the considered feeder 10 kV is monitored, and through the database server 19 and the GSM modem 18 of the AIISKUE, from time to time, individual power consumers at the level of 0.4 kV, taking into account the dynamics of changes in their priority.

Thus, the implementation of the proposed method provides for the replacement of a complete shutdown with a partial load limitation of the feeder 10 kV with the provision of the ability to save part of the most important load at the moment. The quantitative value of the fraction of the non-disconnectable load of 0.4 kV is set in the volume, for example, 10-20% of the initial feeder load of 10 kV.

Minimizing the cost of implementing the method is achieved by integrating the existing PTC for the microprocessor device of relay protection and automation control and automation systems using 0.4 kV meters equipped with control contacts.

The technical result when translating the implementation of the control actions of the ACP to the level of 0.4 kV is to ensure reliable and better control of the ACP taking into account the dynamics of changing the priority of power receivers and monitoring their total current capacity. Ultimately, the proposed method can reduce damage during a sudden power outage and keep the most critical power consumers in operation.

Claims (4)

1. A method for controlling automatic frequency unloading (AFC) in a power distribution network of power supply, according to which, during the AFC and subsequent frequency automatic restart (CHAPV), switching of network power receivers is switched from a level of 6-10 kV to a level of 0.4 kV with the possibility of storing in the work of the highest priority, the commands from the AChP device for shutdown and ChAPV 0.4 kV power receivers are perceived by electricity meters as automated information and measurement control systems and control energy consumption control (АИИСКУЭ) and, through their control contacts, switch on the power supply circuits of 0.4 kV power consumers, while the command to turn off 0.4 kV power consumers is generated using a transmitter of a microprocessor relay protection and automation device and is transmitted to the network in the form of a power supply failure of a given duration by disconnecting and turning on the feeder of 6-10 kV, characterized in that the command for the ChAPV of the disconnected 0.4 kV power receivers is formed using equipment placed in the AIISKUE cabinet in a substation control, as well as the database server installed at the control station for the sections of the electric network, and transmit through a group of modems via a remote data collection network and control electricity meters to all complete transformer substations and the main switchboards of this feeder, the database server at the control room control sections of the electric network carry out operational control of the total power of the group of 0.4 kV power consumers disconnected from the AChR device, and rip shift in the composition of this group with the variable level of responsibility accounting. 2. The method according to p. 1, characterized in that the network of remote data collection and control of electricity meters is performed using GSM modems of PLC technology with RS-485 interface. 3. The method according to p. 1 or 2, characterized in that the control contacts of the electricity meters AIISKUE directly into the power circuit of 0.4 kV power receivers. 4. The method according to p. 1 or 2, characterized in that the control contacts of the electricity meters AIISKUE include in the control circuit of the drive circuit breaker 0.4 kV.

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