RU2767519C1 - Method and device for determining reasons for disconnection of consumers of a partitioned power transmission line - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, in particular to the automation of electrical networks, and is intended to determine the reasons for disconnection of consumers of a partitioned power transmission line. To determine the reasons for disconnection of consumers of a partitioned power transmission line, voltage and current are monitored at control points of the network, at inputs of consumers, facts of disappearance of voltage in different points of the network and its presence in other points are compared, facts of occurrence of overload and short-circuit currents in control points and based on comparison of these facts, a conclusion is made on the reasons for disconnection of consumers in the partitioned power transmission line.

EFFECT: expansion of functional capabilities due to determination of reasons of disconnection of consumers of sectioned power transmission line.

2 cl, 1 dwg

Description

The invention relates to the automation of electrical networks and is intended to determine the reasons for disconnecting consumers of a sectioned power line.

There is a known method for monitoring the failure to turn off the point of automatic switching on of the reserve when its switch is turned on for a stable short circuit in the ring network, which consists in monitoring the current at the control points of the network and determining, based on its changes, the facts of disconnections and failures of disconnecting switches installed in the electrical network (patent RF No. 2304339, IPC H 02 J 13/00, published 10.08.2007, Bulletin No. 22).

A device is known that implements a method for monitoring the failure of the shutdown of the automatic switch on of the reserve when its switch is turned on for a stable short circuit in the ring network, containing current sensors and logic elements, which determines, based on information coming from the current sensors, the facts of shutdowns and failures of the switches installed in electrical network (RF patent No. 2304339, IPC H 02 J 13/00, published on August 10, 2007, bull. No. 22).

The closest in technical essence to the proposed invention is a method for controlling circuit breaker trips and the subsequent successful activation of an ATS point in a ring network, which consists in monitoring the current at network control points and determining, based on its changes, the facts of circuit breaker trips in the electrical network, leading to consumer disconnections , and the facts of successful switching on of switches installed in the electrical network (RF patent No. 2214667, IPC H02J 13/00, publ. 10.20.2003, Bull. No. 29).

The closest in technical essence to the proposed invention is a device that implements a method for monitoring circuit breakers and the subsequent successful inclusion of an ATS point in a ring network, containing current sensors, logic elements that determine, based on information from current sensors, the facts of circuit breakers trips in an electrical network, leading to to consumer disconnections, and the facts of successful closing of switches installed in the electrical network (RF patent No. 2214667, IPC H02J 13/00, publ. 10.20.2003, Bull. No. 29).

The disadvantage of the known method and device is the lack of functionality due to the fact that the method and device are not applicable to determine the reasons for disconnecting consumers of a sectioned power line.

The technical objective of the invention is to expand the functionality by determining the reasons for disconnecting consumers of a sectioned power line.

The claims describe a method for determining the reasons for switching off consumers of a sectioned transmission line and a device for determining the reasons for disconnecting consumers of a sectioned transmission line to implement the method as a whole, therefore the requirement of unity of invention is met.

The above technical result is achieved by the fact that in the method for determining the reasons for disconnecting consumers of a sectioned power line, which consists in monitoring the voltage and current at the control points of the electrical network, according to the invention, the voltage is controlled before and after the switching device at the input of the power supply source of the sectioned power line, before and after switching device of the outgoing line, before and after the switching devices of the power line sectioning device, before and after the switching devices at the inputs of consumers, control the current at the input of the power supply source of the partitioned power line, in the outgoing line, at the point of installation of the sectioning device of the power line and at the inputs of consumers, fix the disappearance of voltage at the input of one consumer, control the presence of voltage at this moment in other control points of the network and the current in them if the voltage disappears after the switching device at the input of the consumer, and before it is present, while before the moment of voltage failure there was no short-circuit current, or an overload current at the input of the consumer, they conclude that the consumer was disconnected due to manual or spontaneous disconnection of the switching device at the input of the consumer, if before the loss of voltage there was a short circuit current, or an overload current at the input of the consumer, then they conclude that the consumer is disconnected due to the switching device being turned off at the input of the consumer under the action of a short circuit, or overload in the consumer's network, if the voltage at the input of the consumer disappears before and after the switching device, but at In this case, it is present at the inputs of other consumers receiving power from the same section of the power line, then they conclude that the consumer is disconnected due to a wire break that connects the consumer’s input to the power line, if the voltage disappears at the inputs ex consumers connected to the same section of the power line after the sectioning device, disappears after the switching device of the sectioning device and is present before the switching device of the sectioning device, and at the same time before the moment of voltage failure there was no short circuit current, or overload current at the point of installation of the sectioning device, make a conclusion about the disconnection of consumers due to manual or spontaneous disconnection of the switching device of the partitioning device, if before the power failure there was a short circuit current, or an overload current at the point of installation of the partitioning device, then they conclude that consumers were disconnected due to disconnection of the switching device of the partitioning device under the action of a short circuit , or overload on the line section after the sectioning device, if the voltage disappears at the inputs of some consumers connected to the same section at the power line after the partitioning device, but will be present at another part of the consumers connected to the same section of the line and present on both sides of the switching device of the partitioning device, then it is concluded that the wire is broken in the section of the line behind the partitioning device between consumers, at the inputs of which the voltage has also disappeared by the consumers, at the inputs of which it is present, if the voltage disappears at the inputs of all consumers connected to the partitioned power line before and after the partitioning device and after the switching device of the outgoing line, but will be present before the switching device of the outgoing line, then it is concluded that disconnection of consumers occurred due to manual or spontaneous disconnection of the switching device of the outgoing line, if before the power failure there was a short-circuit current, or an overload current at the point of installation of the switching device of the outgoing line, t o make a conclusion about the disconnection of consumers due to disconnection of the switching device of the outgoing line under the action of a short circuit, or overload in the section of the line before the sectioning device, if before the power failure there was a short circuit current, or an overload current at the installation point of the switching device of the outgoing line and at the installation point of the device sectioning, then they conclude that consumers are disconnected due to non-selective disconnection of the switching device of the outgoing line under the action of a short circuit, or overload on the line section after the sectioning device, if the voltage disappears at the inputs of some of the consumers connected to the same section of the power line before the sectioning device, and the voltage at the inputs of consumers after the partitioning device will disappear, and the voltage will also disappear before and after the switching device of the partitioning device, but will be present in another part of the consumers, according to connected to the section of the line before the sectioning device and present on both sides of the switching device of the outgoing line, it is concluded that the wire is broken in the section of the line before the sectioning device between consumers, at the inputs of which the voltage has disappeared and consumers, at the inputs of which it is present, if the voltage disappears at the inputs of all consumers connected to a partitioned power line before and after the partitioning device and after the switching device at the input of the power supply source, but will be present before the switching device at the input of the power supply source, it is concluded that the consumers were disconnected due to manual or spontaneous switching off of the input device of the power supply source, if before the power failure there was a short circuit current, or an overload current at the input of the power supply source, then they conclude that the consumers were disconnected due to the switching off of the switching device at the input of the power supply source under the action of a short circuit, or overload on the buses of the power supply source, if before the power failure there was a short circuit current, or an overload current at the input of the power supply source and at the installation point of the switching device of the outgoing line, then a conclusion is made about the disconnection of consumers due to non-selective disconnection of the switching device at the input of the power supply source under the action of a short circuit, or overload on the line section before the sectioning device, if the voltage disappears at the inputs of all consumers connected to the sectioned power line before and after the sectioning device, before and after the switching device at the input of the power supply source , then they conclude that the disconnection of consumers occurred due to the disconnection of the power supply source.

The technical result is also achieved by the fact that the device for determining the reasons for disconnecting consumers of a sectioned power line for implementing the method, including current sensors, according to the invention, is equipped with voltage sensors installed at the input of the power supply source of the sectioned power line, in the outgoing line, in the device for sectioning the power line, on inputs of consumers and controlling voltage, respectively, before and after the switching device at the input of the power supply source of the sectioned power transmission line, before and after the switching device of the outgoing line, before and after the switching devices of the sectioning device of the power line, before and after the switching devices at the inputs of consumers and transmitting information about the presence of voltage in the block for processing and displaying information using built-in means of transmitting information, current sensors installed at the input of the power supply source of the section in the outgoing line, at the point of installation of the sectioning device of the power line and at the inputs of consumers that control the current, respectively, at the input of the power supply source of the sectionalized power line, in the outgoing line, at the point of installation of the sectioning device of the power line and at the inputs of consumers and transmitting information about the current values in the block for processing and displaying information using built-in means of transmitting information, the block for processing and displaying information, processing information coming from current and voltage sensors, processing it, transmitting and displaying information coming from current and voltage sensors and results its processing.

The essence of the proposed method is illustrated by a drawing, which shows a block diagram of a device for determining the reasons for disconnecting consumers of a sectioned power transmission line.

The device for determining the reasons for disconnecting consumers of a partitioned power line contains a power supply source IE1, a switching device for inputting a power supply source KAVIE2, a switching device for an outgoing line KAOL3, switching devices at the input of consumers KAVP4, 5, a switching device for a sectioning device KAUS6; switching devices at the input of consumers KAVP7, 8, consumers P9-12, voltage sensors DN13-19; current sensors DT20-26; block for processing and displaying information BOI27; tires of power supply source SHIE28.

The power supply source IE1 supplies power to the sectioned power transmission line and is installed at its beginning, in front of the switching device for entering the power supply source KAVIE2. KAVIE2 is installed after the power supply source in front of the switching device of the outgoing line KAOL3 and the buses of the power supply source SHIE28 and serves to switch the input of the power supply source. KAOL3 is installed at the beginning of the outgoing line after the buses SHIE28 and serves to switch the outgoing line. The switching device of the sectioning device is installed in the sectioning device installed in the outgoing power line and serves to switch the line at the point of its installation; Switching devices at the inputs of consumers KAVP4, 5, 7, 8 are installed on the inputs of consumers and serve to switch the inputs of consumers, are connected to the electrical network of consumers and the power line. Consumers П9–12 are connected to sections of the power transmission line through switching devices of consumer inputs. The voltage sensor DN13 is installed at the input of the power supply source IE1 and controls the voltage before and after KAVIE2, is connected to the information processing and display unit BOI27 using built-in information transmission tools and transmits information about the voltage value before and after KAVIE3 to it. The voltage sensor DN14 is installed at the beginning of the outgoing line, and controls the voltage before and after the KAOL3, is connected to the BOI27 using the built-in means of transmitting information and transmits information about the voltage value before and after the KAOL3 to it. The voltage sensor DN17 is installed in the sectioning device and monitors the voltage before and after KAUS6, is connected to PU27 using built-in information transfer tools and transmits information about the voltage value before and after KAUS6 to it. Voltage sensors DN15, 16, 18, 19 are installed at the inputs of consumers and control the voltage before and after the switching devices of the inputs of consumers KAVP4, 5, 7, 8, respectively, are connected to the BOI27 using built-in means of information transmission and transmit information about the voltage value up to and after CAVP4, 5, 7, 8, respectively. The current sensor DT20 is installed at the input of the power supply source of the sectioned power transmission line and controls the current at the input of IE1, is connected to the BOI27 using built-in means of transmitting information and transmits information about the current value at the input of IE1 to it. The current sensor DT21 is installed at the beginning of the outgoing sectioned power line and controls the current at the beginning of the line, is connected to the BOI27 using built-in information transmission tools and transmits information about the current value at the beginning of the line to it. The current sensor DT22 is installed in the sectioning device and controls the current flowing through the sectioning device, is connected to the PU27 using the built-in information transmission means and transmits to it information about the value of the current flowing through the sectioning device. Current sensors DT23-26 are installed at the consumer inputs P9-12, respectively, and control the current flowing through the consumer input, that is, the current in the consumer network, are connected to the PU27 using built-in information transmission tools and transmit information to it about the values of the current flowing through the inputs consumers. The BOI27 information processing and display unit is connected to current and voltage sensors via built-in communication facilities and processes information coming from current and voltage sensors, processes it, transmits and displays information coming from current and voltage sensors and the results of its processing.

The method is implemented as follows using the proposed device.

In the normal mode of network operation, all switching devices are switched on, all consumers receive power. Voltage sensors DN13-19 transmit information about the presence of voltage at all control points to BOI27. Current sensors DT20-26 transmit information about current values that do not exceed the normal value to BOI27.

If, using one of the sensors DN15, DN16, DN18, or DN19, the disappearance of voltage is detected at the input of one of the consumers, for example, using the sensor DN19, the disappearance of voltage is detected at the input of the consumer P12, then the presence of voltage at this moment is monitored at other control points of the network and current in them. If at the same time the voltage disappeared after the switching device KAVP8 at the input of the same consumer, and before KAVP8 it is present, about which the voltage sensor DN19 will transmit information to BOI27, while before the moment of voltage failure there was no short-circuit current, or overload current, about which information is received in BOI27 using a current sensor DT26 at the input of the consumer P12, then the BOI concludes that the consumer P12 is disconnected due to manual or spontaneous disconnection of the switching device KAVP8 at the input of the consumer P12. BOI27 displays the relevant information using the means of displaying information. If before the voltage failure after KAVP8, that is, before the corresponding signal from the DN19 sensor, there was a short-circuit current, or an overload current at the consumer input, about which BOI27 will receive information from DT26, then BOI27 concludes that the consumer has been disconnected due to the switching device KAVP8 being disconnected at the consumer input under the action of a short circuit, or overload in the network of the consumer P12. BOI27 displays the relevant information using the means of displaying information.

If the voltage at the input of the consumer P12 disappears before and after the switching device KAVP8, but at the same time it is present at the input of another consumer P11, which receives power from the same section of the power line, then information about this comes from voltage sensors DN18 and DN19 in BOI27, which makes conclusion about the disconnection of the consumer due to a break in the wire connecting the input of the consumer P12 to the power line. BOI27 displays the relevant information using the means of displaying information.

If the voltage disappears at the inputs of all consumers, that is, in the example under consideration, P11 and P12, connected to the same section of the power line after the sectioning device, disappears after the switching device of the sectioning device KAUS6 and is present before the switching device of the sectioning device KAUS6 and at the same time before at the moment of voltage failure, there was no short-circuit current, or overload current at the installation point of the sectioning device, about which the current sensor DT22 transmits information to BOI27, BOI27 concludes that consumers have been disconnected due to manual or spontaneous disconnection of the switching device of the sectioning device KAUS6. BOI27 displays the relevant information using the means of displaying information.

If before the power failure at the inputs P11 and P12 there was a short circuit current, or an overload current at the point of installation of the partitioning device, then the information about this is transmitted to BOI27 by the current sensor DT22, BOI27 concludes that consumers P11 and P12 are disconnected due to the switching device of the sectioning device KAUS6 under the action of a short circuit, or overload on the line section after the sectioning device. BOI27 displays the relevant information using the means of displaying information.

If the voltage disappears at the inputs of some consumers connected to the same section of the power line after the sectioning device, for example, at the P12 input, which will be reported by DN19, but will be present at another part of the consumers connected to the same section of the line, for example, at the input P12, which will be reported by DN18, and be present on both sides of the switching device of the sectioning device KAUS6, which will be reported in BOI27 by DN17, then BOI27 concludes that there is a wire break in the line section behind the sectioning device between consumers, at the inputs of which the voltage has disappeared P12 and consumers , on the inputs of which it is present P11. BOI27 displays the relevant information using the means of displaying information.

If the voltage disappears at the inputs of all consumers connected to the sectioned power line before and after the sectioning device, about which voltage sensors DN15, DN16, DN18, DN19 will transmit information to BOI27 and after the switching device of the outgoing line KAOL3, which will transmit information DN14, but there will be be present before the switching device of the outgoing line (information from DN14), then BOI27 concludes that the disconnection of consumers occurred due to manual or spontaneous disconnection of the switching device of the outgoing line KAOL3. BOI27 displays the relevant information using the means of displaying information.

If before the power failure at the inputs of consumers there was a short-circuit current, or an overload current at the point of installation of the switching device of the outgoing line, about which information from DT21 is transmitted to BOI27, then BOI27 concludes that consumers are disconnected due to the switching device of the outgoing line KAOL3 being disconnected under the action of a short circuit , or overload on the line section to the sectioning device. BOI27 displays the relevant information using the means of displaying information.

If before the power failure at the inputs of consumers there was a short circuit current, or an overload current at the installation point of the switching device of the outgoing line KAOL3 (information in BOI27 from DT21) and at the installation point of the partitioning device (information in BOI27 from DT22), then BOI27 concludes that the consumers due to non-selective shutdown of the switching device of the outgoing line KAOL3 under the action of a short circuit, or overload in the line section after the sectioning device. BOI27 displays the relevant information using the means of displaying information.

If the voltage disappears at the inputs of some consumers connected to the same section of the power line before the sectioning device (consumer P10, information in BOI27 from DN16), and the voltage disappears at the inputs of consumers after the sectioning device (consumers P11, P12, information in BOI27 from DN18, DN19), and the voltage will also disappear before and after the switching device of the sectioning device KAUS6 (information in BOI27 from DN17), but it will be present in another part of the consumers connected to the section of the line before the sectioning device (consumer P9, information in BOI27 from DN15) and be present on both sides of the switching device of the outgoing line KAOL3 (information in BOI27 from DN14), then BOI27 concludes that the wire is broken in the line section to the sectioning device between consumers, at the inputs of which the voltage has disappeared (P10) and consumers, at the inputs of which it present (P9). BOI27 displays the relevant information using the means of displaying information.

If the voltage disappears at the inputs of all consumers (information in BOI27 from DN15, DN16, DN18, DN19) connected to a sectioned power line before and after the sectioning device and after the switching device at the input of the power supply source KAVIE2 (information in BOI27 from DN13), but there will be be present before the switching device at the input of the power supply source KAVIE2 (information in BOI27 from DN13), then BOI27 concludes that the disconnection of consumers occurred due to manual or spontaneous disconnection of the switching device of the input of the power supply source KAVIE2. BOI27 displays the relevant information using the means of displaying information.

If before the disappearance of voltage at the inputs of consumers there was a short-circuit current, or an overload current at the input of the power supply source (information in BOI27 from DT20), then they conclude that the consumers are disconnected due to the switching device being disconnected at the input of the power supply source KAVIE2 under the action of a short circuit, or overload on busbars of power supply source SHIE28. BOI27 displays the relevant information using the means of displaying information.

If before the power failure at the inputs of consumers there was a short circuit current, or an overload current at the input of the power supply source (information in BOI27 from DT20) and at the installation point of the switching device of the outgoing line (information in BOI27 from DT21), then a conclusion is made about the disconnection of consumers due to non-selective disconnection of the switching device at the input of the power supply source KAVIE2 under the action of a short circuit, or overload on the line section to the sectioning device. BOI27 displays the relevant information using the means of displaying information.

If the voltage disappears at the inputs of all consumers (information in BOI27 from DN15, DN16, DN18, DN19) connected to a sectioned power line before and after the sectioning device (information in BOI27 from DN17), before and after the switching device at the input of the power supply source (information in BOI27 from DN13), it is concluded that the consumers were turned off due to the disconnection of the power supply source IE1.

The use of the proposed method and device makes it possible to increase the observability of electrical networks, determine the causes of outages, sections of the network where damage has occurred, and thereby reduce the time of interruptions in the power supply to consumers.

Claims (2)

1. A method for determining the reasons for disconnecting consumers of a sectioned power line, which consists in monitoring the voltage and current at the control points of the electrical network, characterized in that they control the voltage before and after the switching device at the input of the power supply source of the sectioned power line, before and after the switching device of the outgoing line, before and after the switching device of the sectioning device of the power line, before and after the switching devices at the inputs of consumers, control the current at the input of the power supply source of the sectioned transmission line, in the outgoing line, at the point of installation of the sectioning device of the power line and at the inputs of consumers, fix the disappearance of voltage at the input one consumer, control the presence of voltage at that moment in other control points of the network and the current in them, if the voltage disappears after the switching device at the input of the consumer, and before it it is present, at the same time, before the moment of voltage failure, there was no short circuit current or overload current at the consumer input, they conclude that the consumer was disconnected due to manual or spontaneous disconnection of the switching device at the consumer input, if before the voltage failure there was a short circuit current or overload current at the consumer input, then they do conclusion about the disconnection of the consumer due to the disconnection of the switching device at the input of the consumer under the action of a short circuit or overload in the consumer's network, if the voltage at the input of the consumer disappears before and after the switching device, but at the same time it is present at the inputs of other consumers receiving power from the same section of the line power transmission, then they conclude that the consumer is disconnected due to a break in the wire that connects the input of the consumer to the power line, if the voltage disappears at the inputs of all consumers connected to the same section of the line and power transmission after the partitioning device, disappears after the switching device of the partitioning device and is present before the switching device of the partitioning device, and at the same time before the moment of voltage failure there was no short-circuit current or overload current at the point of installation of the partitioning device, they conclude that consumers are disconnected due to manual or spontaneous disconnection of the switching sectioning device, if before the voltage failure there was a short-circuit current or an overload current at the point of installation of the sectioning device, then it is concluded that consumers were disconnected due to the disconnection of the switching device of the sectioning device under the action of a short circuit or overload in the line section after the sectioning device, if the voltage disappears at inputs of a part of consumers connected to the same section of the power line after the sectioning device, but will t be present at the other part of the consumers connected to the same section of the line and present on both sides of the switching device of the partitioning device, then they conclude that the wire is broken in the section of the line behind the partitioning device between consumers, at the inputs of which the voltage has disappeared, and consumers, at the inputs which it is present, if the voltage disappears at the inputs of all consumers connected to the partitioned power line before and after the partitioning device and after the switching device of the outgoing line, but is present before the switching device of the outgoing line, then it is concluded that the disconnection of consumers occurred due to manual or spontaneous disconnection of the switching device of the outgoing line, if before the failure of the voltage there was a short-circuit current or an overload current at the installation point of the switching device of the outgoing line, then it is concluded that the consumers were disconnected due to the disconnection of the switchgear of the outgoing line under the action of a short circuit or overload in the section of the line up to the sectioning device, if before the power failure there was a short circuit current or an overload current at the installation point of the switching device of the outgoing line and at the installation point of the sectioning device, then a conclusion is made about the disconnection of consumers due to non-selective disconnection of the switching device of the outgoing line due to a short circuit or overload on the line section after the sectioning device, if the voltage disappears at the inputs of some consumers connected to the same section of the power line before the sectioning device and the voltage disappears at the inputs of consumers after the sectioning device, as well as the voltage will disappear before and after the switching device of the partitioning device, but it will be present in another part of the consumers connected to the section of the line before the partitioning device, and there will be from the switching device of the outgoing line, then they conclude that the wire is broken in the section of the line to the partitioning device between the consumers, at the inputs of which the voltage has disappeared, and the consumers, at the inputs of which it is present, if the voltage disappears at the inputs of all consumers connected to sectioned power line before and after the partitioning device and after the switching device at the input of the power supply, but will be present before the switching device at the input of the power supply, it is concluded that the disconnection of consumers occurred due to manual or spontaneous disconnection of the switching device of the input of the power supply, if before the disappearance voltage, there was a short-circuit current or an overload current at the input of the power supply source, then they conclude that consumers were disconnected due to the switching device being disconnected at the input of the power supply source under the action short circuit or overload on the buses of the power supply source, if before the power failure there was a short circuit current or an overload current at the input of the power supply source and at the installation point of the switching device of the outgoing line, then a conclusion is made about the disconnection of consumers due to non-selective disconnection of the switching device at the input of the power supply source under the action short circuit or overload in the section of the line before the partitioning device, if the voltage disappears at the inputs of all consumers connected to the partitioned power line before and after the partitioning device, before and after the switching device at the input of the power supply source, then it is concluded that the consumers were disconnected due to a disconnection power supply source. 2. A device for determining the reasons for disconnecting consumers of a sectioned power line for implementing the method according to claim 1, including current sensors, characterized in that it is equipped with voltage sensors installed at the input of the power supply source of the sectioned power line, in the outgoing line, in the device for sectioning the power line, on inputs of consumers and controlling voltage, respectively, before and after the switching device at the input of the power supply source of the sectioned power transmission line, before and after the switching device of the outgoing line, before and after the switching devices of the sectioning device of the power line, before and after the switching devices at the inputs of consumers and transmitting information about the presence of voltage in the block for processing and displaying information using built-in means of transmitting information, current sensors installed at the input of the power supply source of the sectioned power transmission line, in the in the outgoing line, at the installation point of the power line sectioning device and at the consumer inputs that control the current, respectively, at the input of the power supply source of the sectionalized power line, in the outgoing line, at the installation point of the power line sectioning device and at the consumer inputs and transmitting information about the current values to the unit processing and displaying information using built-in means of information transmission, an information processing and display unit that processes information coming from current and voltage sensors, performs its processing, transmits and displays information coming from current and voltage sensors and the results of its processing.

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