RU2769456C1 - Method and device for remote channelless monitoring of the operation of a generation source connected to an electrical network powered by a two-transformer substation - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the automatics of electrical networks. The expected result is achieved by the fact that in the method for remote channel-free monitoring of the operation of the generation source, the current and voltage in the lines departing from different buses of a two-transformer substation having electrical connections with the network section to which the generation source is connected are monitored, an increase in the operating current and a decrease in voltage in the outgoing lines having electrical connections with the network section to which the generation source is connected are recorded, the values of current and voltage recorded in one of the controlled outgoing lines are compared with the current value, corresponding to the load current of the first section of the network, and the value of the voltage corresponding to the operating voltage of the first section of the network, powered in normal mode from the generation source, after a time interval, in the same controlled line, an increase in current is fixed corresponding to the value of the increase in the load current of the second section of the network, and a decrease in voltage caused by the connection of the load of the second section of the network, powered in normal mode from the generation source, based on the data obtained, a conclusion is made about the state of the generation source, and this information is transmitted to the dispatcher and displayed by means of display.

EFFECT: increase in the accuracy of control of power reduction and shutdown of the generation source.

2 cl, 1 dwg

Description

The invention relates to the automation of electrical networks and is intended for remote channelless control of power reduction and shutdown of a generation source connected to an electrical network powered by a two-transformer substation.

The closest in technical essence to the proposed invention is a method for monitoring the successful inclusion of an ATS point in a ring network powered by different buses of a two-transformer substation, which consists in fixing two current surges and counting the time between them, starting from the moment the first increase in short-circuit current (to .h.) on the transformer buses of the main power source, equal to the turn-on time delay of the ATS point, in which, at the end of the countdown, the appearance of a second increase in current on the buses of the backup power source transformer is controlled and if it is greater than the normal operating current, but less than the short-circuit current ., then when it appears, the fact of successful inclusion of the ABP item is established (RF patent No. 2214667, IPC ⁷ H02J 13/00, publ. 10.20.2003, Bull. No. 29).

The disadvantage of the known method is the lack of functionality and reliability associated with the fact that the method does not provide for the ability to control power reduction and turn off the generation source connected to the electrical network powered by a two-transformer substation and does not take into account, when implementing remote control, voltage values in different operating modes controlled electrical network.

The objective of the invention is to expand the functionality of the method and increase the reliability of control by providing control of power reduction and shutdown of a generation source connected to an electrical network powered by a two-transformer substation and accounting, when performing remote monitoring, voltage values in different operating modes of a controlled electrical network.

As a result of using the proposed invention, it is possible to expand the functionality of the method and increase its reliability of control by providing control of power reduction and shutdown of a generation source connected to an electrical network powered by a two-transformer substation and accounting, when performing remote monitoring, voltage values in different modes of operation of a controlled electrical networks due to the fact that they control the current and voltage in the lines outgoing from different buses of the two-transformer substation, which have electrical connections with the section of the network to which the generation source is connected, they fix the increase in operating current and decrease in voltage in the controlled outgoing lines, and the time intervals between them, they compare the values of the increase in the operating current and the decrease in voltage, the intervals between them with the given ones, and on the basis of this, conclusions are drawn about the power reductions and disconnections of the generation source connected to the electrical network.

The above technical result is achieved by the fact that in the proposed method for remote channelless control of the operation of a generation source connected to an electrical network powered by a two-transformer substation, which consists in monitoring current surges at a two-transformer substation and measuring the time intervals between them, according to the invention, the current and voltage in lines extending from different buses of a two-transformer substation, having electrical connections with the network section to which the generation source is connected, an increase in the operating current and a decrease in voltage in the outgoing lines, having electrical connections with the network section to which the generation source is connected (controlled outgoing lines), comparing the current increase value and the voltage decrease value recorded in one of the controlled outgoing lines with the current value corresponding to the load current of the first section of the network, and the voltage value corresponding to the operating voltage to the first section of the network, powered in the normal mode from the generation source, after a time interval, in the same controlled line, an increase in current corresponding to the increase in the load current of the second section of the network, and a decrease in voltage caused by the connection of the load of the second section of the network, powered by in normal mode from the generation source, if the increase in current with a value corresponding to the value of the load current of the second section of the network, and the decrease in voltage caused by the connection of the load of the second section of the network, powered in normal mode from the generation source, is not fixed, then a conclusion is made about a decrease in power generation source and disconnecting it from the first section of the network, powered in normal mode from the generation source, transmit this information to the dispatcher and display by means of display, if the increase in current corresponding to the value of the load current of the second section of the network, and the decrease in voltage caused by the connection of the load of the second section network, powered in normal mode from the generation source, will be fixed after a time interval corresponding to the time delay of the automatic switching on of the reserve of the separating point with the function of automatic switching on of the reserve, installed between the first and second section of the network, fed in normal mode from the generation source, make a conclusion about simultaneous disconnection of the generation source from the entire load, transmit this information to the dispatcher and display by display means, if the increase in current, corresponding in value to the load current of the second section of the network, and the decrease in voltage caused by the connection of the load of the second section of the network, powered in normal mode from the generation source, are fixed after a longer time interval than the response time of the automatic switching on of the reserve of the separating point with the function of automatic switching on of the reserve installed between the first and second section of the network, powered in normal mode from the generation source, they conclude that at first there was a decrease in the power of the generation source, and later it was disconnected from the entire load, they transmit this information to the dispatcher and display it by means of display.

The technical result is also achieved by the fact that the proposed device for remote channelless monitoring of the operation of a generation source connected to an electrical network powered by a two-transformer substation, including current sensors, according to the invention, is equipped with voltage sensors installed in front of the connection points of the switches of the lines extending from different buses of the two-transformer substation, having electrical connections with the network section to which the generation source is connected, current sensors installed in front of the connection points of the switches of lines extending from different buses of the two-transformer substation, having electrical connections with the network section to which the generation source is connected, the information processing and display unit that processes information coming from current and voltage sensors, performing its processing, transmitting and displaying information coming from current and voltage sensors and the results of its processing.

The essence of the proposed method and device is illustrated by the drawing, according to which: T1 is a power transformer, T2 is a power transformer, G3 is a generation source, BB4 is an input low voltage switch of transformer T1, BB5 is an input low voltage switch of transformer T2, BO6 is an outgoing line switch from section of the tires fed from the transformer T1, VO7 - switch of the outgoing line from the section of the tires fed from the transformer T2, VO8 - switch of the outgoing line from the generation source, BC9 - sectional switch, SPAVR10 - sectioning point equipped with the ATS function, SPAVR11 - sectioning point, equipped with the ATS function, SPAVR12 - sectioning point equipped with the ATS function, SPAVR13 - sectioning point equipped with the ATS function, S14 - electrical load, S15 - electrical load, S16 - electrical load, S17 - electrical load, S18 - electrical load, DT19 - sensor current, DT20 - current sensor, DN21 - voltage sensor, DN22 - n sensor voltage, BOiOI23 - block for processing and displaying information.

The method is implemented as follows using the proposed device.

With the help of current sensors DT19 and DT20 and voltage sensors DN 21 and DN 22, the values of current and voltage in the outgoing lines fed from transformers T1 and T2 and having electrical connections with the network section to which the generation source G3 is connected are monitored. In this case, in normal mode, two sections of the network are fed from the generation source, namely, the section between SPAVR10, SPAVR11 and SPAVR13 - the first section of the network, powered in normal mode from the generation source G3, and the section between BO8 and SPAVR13 - the second section of the network, fed in normal mode from the generation source G3. In normal mode, the current sensor DT19 captures the current corresponding in value to the load current S14, and DN21 captures the voltage, the value of which is due to the flow of load current S14, and the current sensor DT20 captures the current corresponding in value to the total load current S17 and S16, and the voltage sensor DN22, fixes the voltage, the value of which is due to the current flow of the loads S17 and S16. Information from current sensors DT19 and DT20 and voltage sensors DN21 and DN22 is transmitted to the block for processing and displaying information BOiOI23. If the BOiOI23 unit records information about the increase in operating current received from DT19 or DT20, and the decrease in voltage received from DN21 and DN22, and the value of the increase in current and decrease in voltage will correspond to the values due to the connection of the load S15, that is, the load of the first section of the network, powered in the normal mode from the generation source G3, then the BOiOI23 will turn on the countdown corresponding to the time delay of the operation of the automatic switching on of the SPAVR13 reserve. An increase in current and a decrease in voltage will be caused by the fact that the SPAVR13 will turn off, disconnecting G3 from the load S15, after which the voltage will disappear in the section between the SPAVR10, SPAVR11 and SPAVR13, which will lead to the automatic switching on of the reserve SPAVR10, or SPAVR11, depending on their settings. It is the inclusion of SPAVR 10, or SPAVR11 on the load S15 that will lead to an increase in the operating current and a decrease in voltage in the corresponding line powered by T1 or T2.

An increase in current and a decrease in voltage, corresponding to the connection of load S18, can be caused by the fact that BO8 turns off, disconnecting G3 from load S18, after which voltage disappears in the section between BO8 and SPAVR13, which will lead to the automatic switching on of the reserve SPAVR13. It is the inclusion of the SPAVR13 on the load S18 that will lead to an increase in the operating current and a decrease in voltage corresponding to the connection of the load S18 in the corresponding line powered by T1 or T2.

If the increase in current with a value corresponding to the value of the load current S18, and the decrease in voltage due to the connection of the load S18, that is, the load of the second section of the network, powered in normal mode from the generation source G3, is not recorded by the corresponding sensors DT19, or DT20, and DN21, or DN22, at the end of the countdown time, then it is concluded that the power of the generation source is reduced and it is disconnected only from the load S15. BOiOI23 in this case captures, transmits and displays this information to the dispatcher in one way or another, including using signaling means, display on a board, panel, screen and other means of displaying information.

If the increase in current corresponding to the value of the load current S18, and the decrease in voltage due to the connection of the load S18, are recorded after a time interval corresponding to the time delay of the automatic switching on of the reserve SPAVR13, it is concluded that the generation source is simultaneously disconnected from the entire load, that is, from S15 and S18. BOiOI23 in this case captures, transmits and displays this information to the dispatcher in one way or another, including using signaling means, display on a board, panel, screen and other means of displaying information.

If the increase in current, corresponding in value to the load current S18, and the decrease in voltage, due to the connection of the load S18, are recorded after a longer time interval than the time delay for the automatic switching on of the reserve SPAVR13, then it is concluded that at first there was a decrease in the power of the generation source, and later it was disconnected from the entire load. BOiOI23 in this case captures, transmits and displays this information to the dispatcher in one way or another, including using signaling means, display on a board, panel, screen and other means of displaying information.

The use of the proposed method and device makes it possible to increase the observability of electrical networks to which generation sources are connected, by increasing the reliability of the information received and expanding the functionality of the method by providing the ability to control power reduction and turn off the generation source connected to the electrical network powered by a two-transformer substation and accounting , when implementing remote control, voltage values in different modes of operation of the controlled electrical network.

Claims (2)

1. A method for remote channelless control of the operation of a generation source connected to an electrical network powered by a two-transformer substation, which consists in monitoring current surges at a two-transformer substation and measuring the time interval between them, characterized in that they control the current and voltage in the two-transformer substation outgoing from different buses lines that have electrical connections with the section of the network to which the generation source is connected, an increase in the operating current and a decrease in voltage in the outgoing lines that have electrical connections with the section of the network to which the generation source is connected (controlled outgoing lines), compare the value of the increase in current and the value decrease in voltage recorded in one of the controlled outgoing lines, with the value of the current corresponding to the load current of the first section of the network, and the value of the voltage corresponding to the operating voltage of the first section of the network, powered in normal mode from the source g generation, fix, after a time interval, in the same controlled line, an increase in current corresponding in value to an increase in the load current of the second section of the network, and a decrease in voltage caused by the connection of the load of the second section of the network, powered in normal mode from the generation source, if the increase in current with value corresponding to the value of the load current of the second section of the network, and the decrease in voltage caused by the connection of the load of the second section of the network, powered in the normal mode from the generation source, will not be fixed, then it is concluded that the power of the generation source is reduced and disconnected from the first section of the network, powered by in normal mode from the generation source, transmit this information to the dispatcher and display by display means, if the increase in current corresponding to the value of the load current of the second section of the network, and the decrease in voltage caused by the connection of the load of the second section of the network, powered in normal mode from the generation source, will be fixed are checked after a time interval corresponding to the time delay of the automatic switching on of the reserve of the partitioning point with the function of automatic switching on of the reserve installed between the first and second sections of the network, fed in normal mode from the generation source, make a conclusion about the simultaneous disconnection of the generation source from the entire load, transmit this information to the dispatcher and display by means of display if the increase in current, corresponding in value to the load current of the second section of the network, and the decrease in voltage caused by the connection of the load of the second section of the network, powered in normal mode from the generation source, will be fixed after a longer time interval than the delay time of automatic operation switching on the reserve of the sectioning point with the function of automatically switching on the reserve installed between the first and second sections of the network, fed in normal mode from the generation source, it is concluded that at first there was a decrease in the power of the generation source, and later it was disconnected from the entire load, this information is transmitted to the dispatcher and displayed by means of display. 2. A device for remote non-channel control of the operation of a generation source connected to an electrical network powered by a two-transformer substation for implementing the method according to claim 1, including current sensors, characterized in that it is equipped with voltage sensors installed in front of the connection points of switches extending from different buses of a two-transformer substation lines having electrical connections with the section of the network to which the generation source is connected, current sensors installed in front of the connection points of switches extending from different buses of a two-transformer substation of lines having electrical connections with the section of the network to which the generation source is connected, the unit for processing and displaying information, carrying out the processing of information coming from current and voltage sensors, performing its processing, transmitting and displaying information coming from current and voltage sensors, and the results of its processing.

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