CN106159939B - Dispatching of power netwoks is issued an order method and system automatically - Google Patents

Abstract

Issue an order automatically method and system the present invention provides a kind of dispatching of power netwoks, matching is compared with the type of equipment and the fault type of the device type being stored in emergency preplan management module in the device type and fault type to break down in the fault warning information that will acquire, obtain the alternative emergency disposal scheme of failure in the fault warning information, then the data information further according to the alternative emergency disposal scheme and acquisition obtains the practical emergency disposal scheme of failure in the fault warning information, and the dispatch command in the practical emergency disposal scheme is uniformly sent to related scheduling institution and plant stand by communication module.Dispatcher issues an order the time when greatly reducing troubleshooting, improves the working efficiency of dispatcher.Meanwhile aforesaid operations pass through network implementations, improve the cooperative ability between the processing speed and each scheduling institution and plant stand when failure occurs, ensure that the timeliness and accuracy that dispatching of power netwoks is issued an order.

Description

Automatic issuing method and system for power grid dispatching

Technical Field

The invention relates to the field of power grid dispatching automation, in particular to a power grid dispatching automatic issuing method and a power grid dispatching automatic issuing system.

Background

Currently, when an accident occurs to a power grid, a dispatcher often needs to dial the telephones of a plurality of dispatching mechanisms or stations to arrange dispatching instructions. Because the time consumed for calling the dispatching command is long, the command information is transmitted by the telephone when an emergency accident is processed, and sometimes the accident processing requirement cannot be met in time; meanwhile, for a dispatcher, if the issuing or receiving time is too short, the receiving understanding is deviated, and the emergency handling of accidents of the power grid is not facilitated.

The above situation is greatly related to the situation that the EMS system (smart grid dispatching control system) used in the current grid dispatching has no function of instant communication. For instant messaging software, QQ, WeChat and the like are commonly used in the internet, and for local area networks, Feiqiu and the like, the software supports functions of instant messaging, file transmission and the like, can meet common communication requirements, but cannot be combined with the EMS system, cannot meet the requirement of automatic issuing of power grid dispatching, and cannot solve the problem that the timeliness and the accuracy of the current power grid dispatching and issuing are not enough.

Disclosure of Invention

The invention aims to provide a power grid dispatching automatic issuing method and a power grid dispatching automatic issuing system, which are used for solving the problem that the timeliness and the accuracy of the current power grid dispatching issuing are not enough.

In order to achieve the above object, the present invention provides an automatic command issuing method for power grid dispatching, which comprises:

acquiring fault alarm information and data information of a power grid;

matching the type of the equipment with the fault in the fault alarm information and the fault type of the equipment with the stored equipment type and the fault type thereof;

acquiring an alternative emergency disposal scheme corresponding to the stored equipment type and the fault type thereof;

acquiring an actual emergency disposal scheme of the fault in the fault alarm information according to the data information and the alternative emergency disposal scheme;

and respectively sending the scheduling instructions of the related scheduling mechanism and the plant station in the actual emergency disposal scheme to the related scheduling mechanism and the plant station, and receiving the feedback information of the related scheduling mechanism and the plant station.

Preferably, in the above method for automatically issuing a power grid dispatching command, the data information includes: real-time operational data, planning data, and historical statistical data.

Preferably, in the above method for automatically issuing a grid dispatching command, the primary emergency treatment scheme for the fault includes a specific process and dispatching commands for handling the fault.

Preferably, in the above method for automatically issuing a power grid dispatching command, the feedback information is used to describe the states of the actual emergency disposal plan at each dispatching mechanism and plant station.

Preferably, in the above method for automatically issuing a command for power grid scheduling, the feedback information includes: successful send, failed send, executing, completed, and failed execute.

Preferably, in the above method for automatically issuing a power grid schedule, the scheduling instructions of the relevant scheduling mechanism and the plant station in the actual emergency disposal scheme are respectively sent to the relevant scheduling mechanism and the plant station through an internal network of a national power grid.

Preferably, in the above method for automatically issuing a power grid schedule, the relevant scheduling entity and the plant station transmit data in real time through an internal network of the national power grid.

Preferably, in the above method for automatically issuing a command for power grid dispatching, the dispatching command includes power on, power off, and power up and down.

The invention also provides an automatic command issuing system for power grid dispatching, which comprises: the system comprises an emergency plan management module, a fault emergency plan matching module, an input module and a communication module; wherein,

the emergency plan management module is used for storing the type of equipment, the fault type of the equipment type and an alternative emergency disposal scheme for the fault;

the fault emergency plan matching module acquires fault warning information and data information of a power grid, matches the type of equipment with a fault and the type of the fault of the equipment in the fault warning information with the type of the equipment and the fault type of the equipment stored in the emergency plan management module, and acquires an alternative emergency disposal scheme for the fault in the fault warning information from the emergency management module;

the input module is used for inputting an actual emergency disposal scheme of the fault in the fault alarm information obtained according to the data information and the alternative emergency disposal scheme;

and the communication module is used for respectively sending the scheduling instructions of the related scheduling mechanism and the plant station in the actual emergency disposal scheme to the related scheduling mechanism and the plant station and receiving the feedback information of the related scheduling mechanism and the plant station.

Preferably, in the above power grid dispatching automatic command system, the data information includes: real-time operational data, planning data, and historical statistical data.

Preferably, in the above-mentioned automatic power grid dispatching command system, the emergency treatment scheme for the fault is an alternative emergency treatment scheme including a specific flow for processing the fault.

Preferably, in the above power grid dispatching automatic command system, the feedback information is used to describe the states of the actual emergency disposal schemes at each dispatching mechanism and plant station.

Preferably, in the above power grid dispatching automatic command system, the feedback information includes: successful send, failed send, executing, completed, and failed execute.

Preferably, in the above power grid dispatching automatic command system, the communication module is further configured to transmit data between the relevant dispatching mechanism and the plant station in real time.

According to the method and the system for automatically issuing the power grid dispatching command, the type and the fault type of equipment with the fault in the acquired fault alarm information are compared and matched with the type of the equipment stored on an emergency plan management module and the fault type of the equipment type, an alternative emergency disposal scheme of the fault in the fault alarm information is acquired, then an actual emergency disposal scheme of the fault in the fault alarm information is acquired according to the alternative emergency disposal scheme and the acquired data information, and the dispatching command in the emergency disposal scheme is uniformly sent to a relevant dispatching mechanism and a plant station through a communication module. The starting time of the dispatcher during fault processing is greatly reduced, and the working efficiency of the dispatcher is improved. Meanwhile, the operation is realized through a network, the processing speed when the fault occurs and the coordination capability between each scheduling mechanism and the plant station are improved, and therefore the timeliness and the accuracy of the power grid scheduling command are ensured.

Drawings

FIG. 1 is a flow chart of an automatic power grid dispatching and commanding method according to an embodiment of the invention;

fig. 2 is a schematic structural diagram of an automatic power grid dispatching and commanding system in the embodiment of the invention;

in the figure: 101-fault emergency plan matching module; 102-emergency plan management module; 103-an input module; 104-communication module.

Detailed Description

The following describes in more detail embodiments of the present invention with reference to the schematic drawings. Advantages and features of the present invention will become apparent from the following description and claims. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

At present, most of grid dispatching mechanisms above provincial level use a smart grid dispatching control system (hereinafter referred to as a D5000 system), and at present, the number of dispatching mechanisms above ground level using the D5000 system is more than hundreds of families, and the number is rapidly increasing. The inventor researches and discovers that the D5000 system can provide fault warning information of the current power grid, as shown in Table 1. The D5000 system may also provide real-time operational data, planning data, and historical statistics of the power grid. Furthermore, the inventor also finds that the D5000 System OMS (Operation Management System) also has a Management function of scheduling emergency plans. For grid accidents, dispatching authorities have already made many fault plans, but these plans are usually presented in WORD documents, and the handling of specific accidents is mainly mastered and understood by dispatchers based on personal experience.

TABLE 1

The embodiment of the invention provides an automatic issuing method for power grid dispatching, which is characterized in that the automatic issuing of the power grid dispatching is realized by utilizing a D5000 system, firstly, equipment and faults need to be objectified, namely, the object names and IDs of the equipment in the D5000 system are associated with the specific equipment. For example: the lines such as 'coating line 5907 line and coating line 5917 line' in the plan are objectified, and the switching object action event correlation is carried out on the 'tripping' event. Then, when a device fails, the already targeted device and its failure trigger an alternative emergency disposal scheme containing the device name and the failure. And finally, respectively sending the scheduling instructions of the related scheduling mechanism and the plant station in the actual emergency disposal scheme to the related scheduling mechanism and the plant station.

It should be noted that the scheduling instruction may be a text version or a voice version, and the contents of the scheduling instruction are different for different scheduling mechanisms and stations.

Specifically, the method comprises the following steps: acquiring fault alarm information and data information of a power grid; matching the type of the equipment with the fault in the fault alarm information and the fault type of the equipment with the stored equipment type and the fault type thereof; acquiring an alternative emergency disposal scheme corresponding to the stored equipment type and the fault type thereof; acquiring an actual emergency disposal scheme of the fault in the fault alarm information according to the data information and the alternative emergency disposal scheme; and respectively sending the scheduling instructions of the related scheduling mechanism and the plant station in the actual emergency disposal scheme to the related scheduling mechanism and the plant station, and receiving the feedback information of the related scheduling mechanism and the plant station.

Specifically, as shown in fig. 1, step S1: and acquiring fault alarm information and data information of the power grid.

And acquiring fault alarm information and data information of the power grid through a fault emergency plan matching module. The fault warning information is shown in table 1, and includes a device in which a fault occurs and a description of the fault occurring in the device. The data information includes: real-time operating data, planning data and historical statistical data of the power grid.

Step S2: and matching the type of the equipment with the fault in the fault alarm information and the fault type of the equipment with the stored equipment type and the fault type thereof.

Analyzing the fault pre-plan formulated in the D5000 system, classifying the types of the equipment and various faults, and formulating different alternative emergency treatment schemes for the types of the equipment and the different types of the equipment to form an alternative emergency treatment scheme corresponding to the type of the equipment and one fault type of the equipment, wherein the alternative emergency treatment scheme comprises a specific flow for processing the fault type of the equipment type. And the processing flow of the type of fault of the type of equipment is unified.

Further, the equipment type, the fault type and the alternative emergency disposal scheme corresponding to the equipment type and the fault type are stored in an emergency plan management module.

And comparing and matching the type of the equipment with the fault in the fault warning information and the type of the fault of the equipment with the type of the equipment and the type of the fault stored in the emergency plan management module.

Types of devices include, but are not limited to: generators, transformers, buses, dc lines, ac lines, circuit breakers, disconnectors, capacitors, reactors, converter valves, converters, and the like. The types of faults include, but are not limited to: short-circuit faults (three-phase short-circuit, two-phase short-circuit, single-phase short-circuit, two-phase ground short-circuit), open-phase faults and complex faults.

Step S3: and acquiring an alternative emergency disposal scheme corresponding to the stored equipment type and the fault type thereof.

And when the type of the equipment with the fault and the type of the fault of the equipment in the fault alarm information are successfully matched with the type of the equipment and the type of the fault stored in the emergency plan management module, acquiring an alternative emergency disposal scheme corresponding to the type of the equipment and the type of the fault stored in the emergency plan management module.

The alternative emergency treatment scheme includes a specific unified generalized flow for handling the fault type for the equipment type.

Step S4: and obtaining an actual emergency disposal scheme of the fault in the fault alarm information according to the data information and the alternative emergency disposal scheme.

The processing flow in the alternative emergency handling scheme is a unified processing flow for a type of fault of a type of device, but for a specific device that has a fault in the fault alarm information and a specific fault of the specific device, the alternative emergency handling scheme needs to be combined with the data information to be processed, so as to obtain a specific device that has a fault in the fault alarm information and an actual emergency handling scheme for the specific device.

Step S5: and respectively sending the scheduling instructions of the related scheduling mechanism and the plant station in the actual emergency disposal scheme to the related scheduling mechanism and the plant station, and receiving the feedback information of the related scheduling mechanism and the plant station.

After the specific device which has failed in the fault alarm information and the actual emergency disposal scheme of the specific device are obtained, the scheduling instructions of the relevant scheduling mechanisms and the plant stations in the actual emergency disposal scheme are respectively sent to the relevant scheduling mechanisms and the plant stations through the internal network of the national power grid, and the feedback information of the relevant scheduling mechanisms and the plant stations is received.

The feedback information is used for describing the states of the scheduling instructions of the actual emergency disposal scheme in each scheduling mechanism and plant station, and comprises the following steps: successful send, failed send, executing, completed, and failed execute. The sending success indicates that the scheduling instruction of the actual emergency treatment plan has been sent to the receiving party. The failure to send indicates that the scheduling instruction in the actual emergency treatment plan is not sent to the receiving party. The executing indicates that the recipient acknowledges receipt of the scheduling instructions in the actual emergency treatment plan and is executing. The completed indicates that the recipient has completed execution of the scheduling instructions in the actual emergency treatment plan. The execution failure indicates that the receiver cannot execute the scheduling instruction in the actual emergency treatment plan or the execution fails.

Preferably, the relevant scheduling mechanism and the plant station can also transmit data in real time through an internal network of the national power grid.

The embodiment of the present invention further provides an automatic command issuing system for power grid dispatching, as shown in fig. 2, including: the system comprises an emergency plan management module 102, a fault emergency plan matching module 101, an input module 103 and a communication module 104.

Specifically, the emergency plan management module 102 is configured to store a type of a device, a fault type of the device, and an alternative emergency treatment plan for the fault.

Analyzing the fault pre-plan formulated in the D5000 system, classifying the types of the equipment and various faults, and formulating different alternative emergency treatment schemes for the types of the equipment and the different types of the equipment to form an alternative emergency treatment scheme corresponding to the type of the equipment and one fault type of the equipment, wherein the alternative emergency treatment scheme comprises a specific flow for processing the fault type of the equipment type. And the processing flow of the type of fault of the type of equipment is unified.

Further, the equipment type, the fault type and the alternative emergency disposal scheme corresponding to the equipment type and the fault type are stored in the emergency plan management module.

And comparing and matching the type of the equipment with the fault in the fault warning information and the type of the fault of the equipment with the type of the equipment and the type of the fault stored in the emergency plan management module 102.

Wherein the types of devices include, but are not limited to: generators, transformers, buses, dc lines, ac lines, circuit breakers, disconnectors, capacitors, reactors, converter valves, converters, and the like. The types of faults include, but are not limited to: short-circuit faults (three-phase short-circuit, two-phase short-circuit, single-phase short-circuit, two-phase ground short-circuit), open-phase faults and complex faults.

The fault emergency plan matching module 101 obtains fault alarm information and data information of a power grid, matches the type of a device with a fault in the fault alarm information and the type of the fault of the device with the device type and the fault type thereof stored in the emergency plan management module, and obtains an alternative emergency disposal scheme for the fault in the fault alarm information from the emergency management module.

Further, the fault emergency plan matching module 101 obtains fault alarm information and data information of the power grid. The fault warning information is shown in table 1, and includes a device in which a fault occurs and a description of the fault occurring in the device. The data information includes: real-time operating data, planning data and historical statistical data of the power grid. And when the type of the equipment with the fault and the type of the fault of the equipment in the fault alarm information are successfully matched with the type of the equipment and the type of the fault stored in the emergency plan management module, acquiring an alternative emergency disposal scheme corresponding to the type of the equipment and the type of the fault stored in the emergency plan management module.

And the dispatcher inputs an actual emergency disposal scheme for obtaining the fault in the fault alarm information according to the data information and the alternative emergency disposal scheme through the input module 103.

The alternative emergency treatment scheme includes a specific unified generalized flow for handling the fault type for the equipment type. However, for the specific device with the fault in the fault alarm information and the specific fault of the specific device, the fault emergency plan matching module combines the alternative emergency disposal scheme with the data information to obtain the specific device with the fault in the fault alarm information and the actual emergency disposal scheme of the specific device.

The communication module 104 is configured to send the scheduling instructions of the relevant scheduling mechanisms and the plant stations in the actual emergency disposal scheme to the relevant scheduling mechanisms and the plant stations respectively, and receive feedback information of the relevant scheduling mechanisms and the plant stations.

After the specific device which has failed in the fault alarm information and the actual emergency disposal scheme of the specific device are obtained, the communication module sends the scheduling instructions of the related scheduling mechanisms and the plant stations in the actual emergency disposal scheme to the related scheduling mechanisms and the plant stations through the internal network of the national power grid respectively, and receives feedback information of the plant stations of the related scheduling mechanisms. The internal network of the national grid comprises: the system comprises a power dispatching data network, a power comprehensive data network and a power enterprise internal information network.

In summary, in the power grid scheduling method and system provided in the embodiments of the present invention, the type of the device and the type of the fault in the acquired fault alarm information are compared and matched with the type of the device stored in the emergency plan management module and the type of the fault of the device, an alternative emergency disposal scheme for the fault in the fault alarm information is acquired, an actual emergency disposal scheme for the fault in the fault alarm information is acquired according to the alternative emergency disposal scheme and the acquired data information, and the scheduling instruction in the actual emergency disposal scheme is uniformly sent to the relevant scheduling mechanism and the plant station through the communication module. The starting time of the dispatcher during fault processing is greatly reduced, and the working efficiency of the dispatcher is improved. Meanwhile, the operation is realized through a network, the processing speed when the fault occurs and the coordination capability between each scheduling mechanism and the plant station are improved, and therefore the timeliness and the accuracy of the power grid scheduling command are ensured.

The above description is only a preferred embodiment of the present invention, and does not limit the present invention in any way. It will be understood by those skilled in the art that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (12)

1. An automatic command issuing method for power grid dispatching is characterized by comprising the following steps:

acquiring fault alarm information and data information of a power grid;

matching the type of the equipment with the fault in the fault alarm information and the fault type of the equipment with the stored equipment type and the fault type thereof;

acquiring an alternative emergency disposal scheme corresponding to the stored equipment type and the fault type thereof;

acquiring an actual emergency disposal scheme of the fault in the fault alarm information according to the data information and the alternative emergency disposal scheme;

respectively sending scheduling instructions of related scheduling mechanisms and plant stations in the actual emergency disposal scheme to the related scheduling mechanisms and the plant stations, and receiving feedback information of the related scheduling mechanisms and the plant stations; the data information includes: real-time operational data, planning data, and historical statistical data.

2. The method for grid dispatching automatic signaling according to claim 1, wherein the alternative emergency treatment solution for the fault includes a specific flow and dispatching instructions for handling the fault.

3. The method according to claim 1, wherein the feedback information is used to describe the status of the actual emergency treatment plan at each relevant dispatching authority and plant.

4. The grid scheduling automated signaling method of claim 3, wherein the feedback information comprises: successful send, failed send, executing, completed, and failed execute.

5. The method according to claim 1, wherein the scheduling instructions of the relevant scheduling mechanism and the plant station in the actual emergency disposal plan are sent to the relevant scheduling mechanism and the plant station through an internal network of a national power grid.

6. The method according to claim 5, wherein the relevant scheduling entity and the plant station transmit data in real time through the internal network of the national grid.

7. The method according to claim 1, wherein the scheduling command comprises power-on, power-off, and lift-off output.

8. An automatic command issuing system for power grid dispatching is characterized by comprising: the system comprises an emergency plan management module, a fault emergency plan matching module, an input module and a communication module; wherein,

the emergency plan management module is used for storing the type of equipment, the fault type of the equipment type and an alternative emergency disposal scheme for the fault;

the fault emergency plan matching module acquires fault warning information and data information of a power grid, matches the type of equipment with a fault and the type of the fault of the equipment in the fault warning information with the type of the equipment and the fault type of the equipment stored in the emergency plan management module, and acquires an alternative emergency disposal scheme for the fault in the fault warning information from the emergency plan management module;

the input module is used for inputting an actual emergency disposal scheme of the fault in the fault alarm information obtained according to the data information and the alternative emergency disposal scheme;

the communication module is used for respectively sending the scheduling instructions of the related scheduling mechanism and the plant station in the actual emergency disposal scheme to the related scheduling mechanism and the plant station and receiving the feedback information of the related scheduling mechanism and the plant station; the data information includes: real-time operational data, planning data, and historical statistical data.

9. The grid dispatching automated signaling system of claim 8, wherein the alternative emergency treatment protocol for the fault comprises a specific flow for handling the fault.

10. The grid dispatch automated signaling system of claim 8, wherein the feedback information is used to describe a status of the actual emergency treatment plan at each relevant dispatch facility and plant station.

11. The grid dispatch automated signaling system of claim 10, wherein the feedback information comprises: successful send, failed send, executing, completed, and failed execute.

12. The grid dispatch automated signaling system of claim 8, wherein the communication module is further configured for real-time transmission of data between the associated dispatch mechanism and the plant station.