RU2813359C1 - Method of redundancy of power supply to consumers connected to sectional power transmission line using mobile power platforms - Google Patents

Abstract

FIELD: automation of electric networks.

SUBSTANCE: invention is intended for redundancy of power supply to consumers connected to sectional power transmission line, using mobile power platforms. Technical result is achieved due to redundancy of power supply to consumers connected to sectional power transmission line, using mobile power platforms.

EFFECT: reduced time of power supply to consumers interruptions.

1 cl, 1 dwg

Description

The invention relates to the automation of electrical networks and is intended for redundant power supply to consumers connected to a sectionalized power line using mobile energy platforms.

There is a known method for monitoring switch outages and subsequent successful switching on of an ATS point in a ring network, which consists in monitoring the current at control points of the network and determining, based on its changes, the facts of switches outages in the electrical network, leading to disconnections of consumers, and the facts of successful switching on of switches installed in the electrical network (RF patent No. 2214667, IPC N02J 13/00, published 10/20/2003, Bulletin No. 29).

The closest in technical essence to the proposed invention is a method for determining the reasons for disconnecting consumers of a sectionalized power transmission line (RF patent No. 2767519, IPC H02J 13/00, H02J 3/06, G06Q 50/06, publ. 03.17.2022, Bull. No. 8) .

The disadvantage of this known method is its insufficient functionality due to the fact that the method and device are not applicable for reserving power supply to consumers connected to a sectionalized power line using mobile energy platforms.

The technical objective of the proposed invention is to expand the functionality by backing up the power supply to consumers connected to a sectionalized power line using mobile energy platforms.

The above technical result is achieved by the fact that in the proposed method for reserving power supply to consumers connected to a sectionalized power line using mobile energy platforms, which consists of monitoring voltage and current at control points of the electrical network, determining the reasons for shutdown, according to the invention , monitoring voltages and currents is carried out at the control points of the electrical network, record the appearance of short circuit currents in some of the control points, identify the section of the network where the damage occurred and the cause of this damage, turn off the switching devices protecting this section, record the disappearance of voltage in this section, as well as in other sections of the network receiving voltage through the damaged area, report the identified facts to the network manager through the operational information complex of the automated process control system to make a decision on the need and type of repair, promptly dispatch repair teams, turn off switching devices installed at the border of the damaged area and other undamaged areas , thus highlighting the damaged area, turn on the corresponding switching devices connecting the undamaged areas to be backed up with the source or sources of backup power supply - mobile energy platforms, connect the mobile energy platforms to the reserved undamaged areas of the network through specially designed switching devices such in such a way that each mobile energy platform reserves sections of the network allocated for it, carries out backup power supply to the reserved undamaged sections of the network from mobile energy platforms, if it is necessary to perform scheduled maintenance and repair work, disconnects the switching devices installed at the boundaries of the serviced or repaired area, and records the disappearance voltage at control points in this section, as well as in other sections of the network that receive voltage through the section being maintained (repaired), report this to the network manager through the operational information complex of the automated process control system, turn on the corresponding switching devices connecting the unmaintained (not repaired) ) areas subject to reservation, with a source or sources of backup power supply - mobile energy platforms, connect mobile energy platforms to the reserved sections of the network through specially designed switching devices in such a way that each mobile energy platform reserves the sections of the network allocated for it, carry out backup power supply to reserved sections of the network from mobile energy platforms.

The essence of the proposed method is illustrated by a drawing, which shows a block diagram of the method's implementation.

The block diagram of the method implementation contains output B1 of the multi-contact switching system MKS9, output B2 of the multi-contact switching system MKS9, output B3 of the multi-contact switching system MKS9, output B4 of the multi-contact switching system MKS9, a switching device installed between terminals B1 and B2 of the multi-contact switching system MKS9, switching device , installed between terminals B2 and B3 of the multi-contact switching system MKS9, a switching device installed between terminals B3 and B4 of the multi-contact switching system MKS9, a switching device installed between terminals B4 and B1 of the multi-contact switching system MKS9, sectioning device - multi-contact switching system MKS9, pin B10 sectioning device with the function of automatically switching on the reserve SPAVR13, pin B11 of the sectioning device with the function of automatically switching on the reserve SPAVR13, switching device installed between pins B10 and B11 of the sectioning device with the function of automatic switching on the reserve SPAVR13, partitioning device with the function of automatic switching on the reserve SPAVR13, mobile energy platform MEP14, mobile energy platform MEP15, power supply source IE16; 17 - section of power line L17, section of power line L18; 19 - section of power line L19, section of power line L20, section of power line L21, switching device at the input of the power supply source KA22, switching device at the input of the power supply source KA23, switching device for connecting the mobile energy platform MEP15 KA24, consumer P25, consumer P26, consumer P27 , consumer P28, consumer P29, monitoring device UM30, monitoring device UM31, monitoring device UM32, communication channel KS33, communication channel KS34, communication channel KS35, operational information complex of the automated process control system OIKASTU36, control point K37, control point K38, control point K39, control point K40, control points K41, K42, K43, K44, K45, switching device KA46 for connecting the MEP14 mobile energy platform.

Terminals B1 – B4 of the MKS9 multi-contact switching system are used to connect MKS9 to sections of the power line. Switching devices 5-8 are installed between the corresponding terminals of the MKS9 multi-contact switching system and serve for remote, automatic and manual switching. The sectioning device - multi-contact switching system MKS9 is installed in the power line at the connection point of sections L17, L18, L20 and L21 and is designed for remote, automatic and manual sectioning of the power line into these sections; Conclusions B10, B11 of the sectioning device with the function of automatic switching on of the SPAVR13 reserve are used to connect the SPAVR13 to sections of the power line. Switching device 12 is installed between terminals B10 and B11 of SPAVR13 and serves for remote, automatic and manual switching. SPAVR13 is installed in the power line between sections L18 and L19 and is designed for remote, automatic and manual sectioning of the power line. Mobile energy platforms MEP14 and MEP15 represent each source, or a set of sources of electrical, thermal, hydraulic energy, compressed air energy, or a combination thereof, located on a mobile platform. The following mobile platforms can be considered: tractors, cars, specially designed mobile devices. In the method they are used as a mobile source of electrical energy. The power supply source IE16 provides the main power supply to consumers and is connected to the power transmission line. L17-L21 – sections of the power transmission line obtained by sectioning it using MKS9 and SPAVR13. KA22 and KA23 switching devices at the input of the power supply source IE16, serve for switching the input and the power line at the point of its connection to the IE16. KA24 is a switching device for connecting the MEP15 mobile energy platform to the power transmission line. P25 - P29 – electricity consumers connected to sections of the power transmission line. UM30 - UM32 – monitoring devices that monitor the values of current, voltage, power at control points K37-K45. KS33 - KS35 – communication channels that provide information transfer between monitoring devices and OIKASTU36. OIKASTU36 is connected via KS33-KS35 to UM30-UM32, receives and processes the information received from them. KA46 is a switching device for connecting the MEP14 mobile energy platform to the power transmission line.

The method is implemented as follows.

In normal network operation mode, all switching devices are turned on, all consumers receive power. If, for example, a short circuit occurs on a section of the power line L17 behind the switching device KA23, a short circuit current will appear at control point K39, which will be recorded by the monitoring device UM30 and will be transmitted to OIKASTU36 via the KS33 communication channel. Devices UM31 and UM32 in K40-K45 will not detect a short circuit current. The switching device KA23 will turn off, the voltage will disappear after it in K39, while the voltage will not disappear in K37 and K38, which will also be recorded by the UM30 device and will be transferred to OIKAST36 for the dispatcher to make a decision on the need and type of repair, and the prompt dispatch of teams to carry it out. Also, at the same time, the voltage at control points K40-K45 will disappear, about which information will be transmitted to OIKAST36 by UM31 and UM32. Based on the information received, OIKASTU36 will conclude that section L17 is damaged and disconnected using KA23, and sections L18 - L21 are not damaged, but there is no voltage on them. After this, the network manager will take measures to allocate damaged and undamaged sections, for which switching devices 5 and 8 MKS9 will be turned off, switching devices 6 and 7 MKS9 will be turned on, and if the reservation is carried out by one mobile energy platform MEP14, or MEP15, then there will be switching device 12 SPAVR13 is also included.

If the backup power of consumer P29 is provided from MEP15, and the backup power of consumers P26-28 is from MEP14, then switching device 12 SPAVR13 will be turned off, as will switching devices 5 and 8 MKS9, and switching devices 6 and 7 MKS9 will be turned on. If the backup power of consumer P26 is provided from MEP14, and the backup power of consumers P27-29 is from MEP14, then switching device 12 SPAVR13 will be turned on, switching devices 5, 6 and 8 MKS9 will be disabled, and switching device 7 MKS9 will be turned on. Mobile energy platforms MEP14, or MEP15, or MEP14 and MEP15 will be sent to reserve power supply to consumers P26-P29 connected to sections L18-L21. The MEP14 is connected to the power line through the KA46 switching device, and the MEP15 is connected through the KA24. After connecting MEP14, or MEP15, or both MEP14 and MEP15, they provide backup power supply to consumers in designated areas.

Similarly, if any sections of a power transmission line or power supply source are damaged, the damaged section and sections to which backup power supply should be supplied are identified by switching on and off the corresponding switching devices, sent to the MEP, connected to the reserved sections and provided with backup power supply. .

During planned maintenance and repairs of a power transmission line or power supply source, also by turning on part of the switching devices installed at the input of the power supply source and in sectioning devices, as well as disconnecting another part of the switching devices installed at the input of the power supply source and in sectioning devices, sections are allocated power transmission lines on which maintenance or repair work is not carried out direct mobile energy platforms to reserve power supply to consumers, connect them to dedicated sections of the power line and provide backup power to consumers connected to the designated section by supplying electricity from mobile energy platforms. Let us give an example of backup power supply to consumers when the power supply source IE16 is taken out for repair. In this case, KA22 will be disabled. The UM30 monitoring device will record the disappearance of voltage in K37, K38, K39 without the prior presence of a short circuit current or overload current at these control points. Information from UM30 will be transmitted to OIKASTA36 via the KS33 communication channel. Devices UM31 and UM32 in K40-K45 will not detect a short circuit current. Also, at the same time, the voltage at control points K40-K45 will disappear, about which information will be transmitted to OIKAST36 by UM31 and UM32. Based on the information received, OIKASTU36 will conclude that the power supply source IE16 is turned off, and sections L17 - L21 are not damaged, but there is no voltage on them. After this, it will be determined which sections of the power transmission line will be equipped with backup power supply and from which MEPs. When using one MEP, for example, MEP14, or MEP15, KA23 will be turned off, and switching devices 5-8 MKS9 and switching device 12 SPAVR13 will be turned on. If the backup power of consumer P29 is provided from MEP15, and the backup power of consumers P25-28 is from MEP14, then switching device 12 SPAVR13 will be turned off, and switching devices 5-8 MKS9 will be turned on. If, for example, the backup power supply to consumers P25 and P26 is provided from MEP14, and the backup power supply to consumers P27-29 is from MEP14, then switching device 12 SPAVR13 will be turned on, switching devices 6, 7 and 8 MKS9 will be turned off, and switching device 5 ISS9 is on. Mobile energy platforms MEP14, or MEP15, or MEP14 and MEP15 will be sent to reserve power supply to consumers P25-P29 connected to sections L17-L21. The MEP14 is connected to the power line through the KA46 switching device, and the MEP15 is connected through the KA24. After connecting MEP14, or MEP15, or both MEP14 and MEP15, they provide backup power supply to consumers in designated areas during scheduled repairs of IE16.

Let us give an example of backup power supply to consumers when section L18 is taken out for repairs. In this case, switching devices 6 and 7 MKS9, as well as switching device 12 SPAVR13, will be turned off. The monitoring device UM31 will record the disappearance of voltage in K42 without the prior presence of a short circuit current or overload current, and the UM32 device will record the disappearance of voltage in K44 and K45 without the prior presence of a short circuit current or overload current at these control points. Information from UM31 and UM32 will be transmitted to OIKASTA36 via communication channels KS34 and KS35. Based on the information received, OIKASTU36 will conclude that section L18, IE16 is disconnected, sections L17, L19-L21 are not damaged. In areas L17, L20 and L21 there is voltage supplied from IE16, but in L19 there is no voltage. After this, it will be determined that section L19 needs to be equipped with backup power supply. The mobile energy platform MEP15 will be sent to reserve power supply to consumers P25-P29 connected to sections L17-L21. The MEP14 is connected to the power line through the KA46 switching device, and the MEP15 is connected through the KA24. After connecting MEP14, or MEP15, or both MEP14 and MEP15, they provide backup power supply to consumers in designated areas during scheduled repairs of IE16.

Similarly, if there is a need for scheduled repairs of any sections of the power transmission line, it is carried out by turning on and off the corresponding switching devices, identifying the section to be repaired and the sections to which backup power supply should be supplied, sending MEP, connecting to the reserved sections and providing backup power supply.

The use of the proposed method and device makes it possible to reduce the time of interruptions in the power supply to consumers due to the prompt identification of damage, the implementation of redundant power supply to consumers connected to a sectional power transmission line, using mobile energy platforms.

Claims (1)

A method for reserving power supply to consumers connected to a sectionalized power line using mobile energy platforms, which consists of monitoring voltage and current at control points of the electrical network and determining the reasons for the outage, characterized in that they monitor voltages and currents at control points of the electrical network, recording the occurrence short circuit currents in part of the control points, identify the section of the network where the damage occurred and the cause of this damage, turn off the switching devices protecting this section, record the disappearance of voltage in this section, as well as in other sections of the network that receive voltage through the damaged section, report the identified facts to the network dispatcher through the operational information complex of the automated process control system to make a decision on the need and type of repair, promptly dispatch repair teams, turn off the switching devices installed on the border of the damaged area and other undamaged areas, thus highlighting the damaged section, include appropriate switching devices connecting the undamaged sections to be reserved with the source or sources of backup power supply - mobile energy platforms, connect the mobile energy platforms to the reserved undamaged sections of the network through switching devices specially designed for this purpose in such a way that each mobile energy platform carries out reservation of sections of the network allocated for it, carry out backup power supply to the reserved undamaged sections of the network from mobile energy platforms, if it is necessary to perform scheduled maintenance and repair work, turn off the switching devices installed at the boundaries of the serviced or repaired section, record the loss of voltage at control points in this section, and also in other sections of the network that receive voltage through the serviced (repaired) section, they report this to the network manager through the operational information complex of the automated process control system, turn on the corresponding switching devices connecting the unserviced (non-repaired) sections subject to reservation with the source or sources of backup power supply - mobile energy platforms, connect mobile energy platforms to reserved sections of the network through switching devices specially designed for this purpose in such a way that each mobile energy platform reserves sections of the network allocated for it, carry out backup power supply to reserved sections of the network from mobile energy platforms.