KR20220022643A - System and method for simulating virtual fault of distribution network - Google Patents

Abstract

The present invention comprises: a substation operating results management system (SOMAS) DB in which actual measurement data collected from a grid is stored; and a simulating failure simulator configured to receive actual measurement data stored in the SOMAD DB, convert the received actual measurement data into simulation data, set initial information of a virtual grid model based on the converted simulation data, and simulate a simulating failure situation of the grid based on the set virtual grid model so as to perform grid simulating failure simulation by reflecting a real-time grid situation.

Description

SYSTEM AND METHOD FOR SIMULATING VIRTUAL FAULT OF DISTRIBUTION NETWORK

The present invention relates to a system simulated failure simulation system and method, and to a system simulated failure simulation system and method capable of simulating a system simulated failure situation.

Due to the rapid increase in power demand, the system is continuously expanding, and the complexity of the system operation task is gradually increasing due to the complicated connection of the grid network and the diversification of the topology in the substation.

In addition, the demand for a stable power supply is increasing, and the risk of power system instability accidents such as voltage collapse and generator dropout due to system complexity and increasing demand is also increasing.

Accordingly, electric power supply companies (eg, Korea Electric Power Corporation) are conducting simulation training to improve the system failure recovery ability of workers working at power distribution substations and substations, but they do not reflect the actual system situation, and a preset simulation is performed. There is a problem in providing only training.

The background technology of the present invention is disclosed in 'Operation method of education and training system to which power system failure recovery education and training algorithm is applied' of Republic of Korea Patent Publication No. 10-0543543 (Jan. September 2006).

The present invention has been devised to solve the above problems, and an object of one aspect of the present invention is to provide a system simulated failure simulation system and method capable of simulating a simulated failure situation of a system by reflecting the real-time system situation. will be.

System simulated failure simulation system according to an aspect of the present invention is a SOMAS (Substation Operating Results Management System) DB in which actual measurement data collected from the system is stored; and receiving the actual measurement data stored in the SOMAD DB to perform the system simulation failure simulation by reflecting the real-time system situation, converting the received actual measurement data into simulation data, and a virtual system model based on the converted simulation data. and a simulation failure simulator that sets initial information and simulates a simulated failure situation of a system based on the set virtual system model.

In the present invention, the measured data includes state information collected in real time from circuit breakers and disconnectors provided in the system, and load information collected in real time from transmission lines, distribution lines and main transformers provided in the system. do.

In the present invention, a simulated failure generating device for generating a simulated failure signal according to the operator's operation and outputting the generated simulated failure signal to the simulator; is characterized in that it further comprises.

In the present invention, a simulated failure recovery device for generating a simulated failure recovery signal according to a recovery operation of the test subject and outputting the generated simulated failure recovery signal to the simulator; is characterized in that it further comprises.

A system simulation failure simulation method according to an aspect of the present invention comprises: receiving, by a simulated failure simulator, actual measurement data collected from a system and stored in a Substation Operating Results Management System (SOMAS) DB; converting the measured data received through the SOMAS DB into simulation data so that the simulated failure simulator performs a system simulated failure simulation by reflecting the real-time system situation; setting, by the simulated failure simulator, initial information of a virtual system model based on the converted simulation data; and simulating, by the simulated failure simulator, a simulated failure situation of a system based on the set virtual system model.

In the present invention, the measured data includes state information collected in real time from circuit breakers and disconnectors provided in the system, and load information collected in real time from transmission lines, distribution lines and main transformers provided in the system. do.

The step of simulating in the present invention may include, by the simulated failure generating device, generating a simulated failure signal according to the operator's operation, and outputting the generated simulated failure signal to the simulator.

In the present invention, the simulating step includes, by the simulated failure recovery device, generating a simulated failure recovery signal according to a recovery operation of the test subject, and outputting the generated simulated failure recovery signal to the simulator. characterized.

According to an aspect of the present invention, a simulated failure situation of a system may be simulated by reflecting the situation of a real-time system.

1 is a block diagram illustrating a system simulated failure simulation system according to an embodiment of the present invention.
2 is a flowchart illustrating a system simulation failure simulation method according to an embodiment of the present invention.
3 is a flowchart for explaining the step of simulating a simulated failure situation of the system simulated failure simulation method according to an embodiment of the present invention.

Hereinafter, a system simulation system and method for simulated failure according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a block diagram illustrating a system simulated failure simulation system according to an embodiment of the present invention.

Referring to FIG. 1 , the system simulated failure simulation system according to an embodiment of the present invention includes a SOMAS DB 100 , a simulated failure simulator 200 , a simulated failure generating device 300 and a simulated failure recovery device 400 . can do.

SOMAS (Substation Operating Results Management System) 100 is a substation operation performance management system operated by a power supplier (eg, Korea Electric Power Corporation), and the SOMAS DB 100 stores actual measurement data collected from the grid in real time there may be

The actual data includes state information collected in real time from circuit breaker (CB) and disconnecting switch (DS) provided in the system, and transmission line (T/L; Transmiton Line) and distribution line (Distribution) provided in the system. Line) and the load information collected in real time from the main transformer (M.Tr; Main Transformer).

Here, the state information of the circuit breaker and the disconnector may mean whether the circuit breaker and the disconnector are input and open.

The simulated failure simulator 200 may receive actual measurement data from the SOMAS DB 100 and convert the received actual measurement data into simulation data so as to perform a system simulation failure by reflecting the real-time system situation.

That is, the simulated failure simulator 200 receives the state information collected in real time from the circuit breakers and disconnectors provided in the system and the load information collected in real time from the transmission line, the distribution line and the main transformer from the SOMAS DB 100, respectively. , it is possible to convert the received state information of circuit breakers and disconnectors, and load information of transmission lines, distribution lines, and main transformers, into simulation data, which is data in a form suitable for performing a simulation.

The simulated failure simulator 200 may set initial information of the virtual system model based on the converted simulation data.

The virtual system model may be a model of a single line diagram of a system, and the virtual system model may include system design information including information on power facilities provided in the system and information on connection relationships between each power equipment. there is.

Meanwhile, the virtual system model may be preset, or the simulated failure simulator 200 may generate a virtual system model based on system design information input from the SOMAS DB 100 in real time.

For example, the simulated failure simulator 200 may set the initial state of each circuit breaker and disconnector included in the virtual system model based on the state information of the circuit breaker and disconnector included in the simulation data, and the transmission line included in the simulation data. , it is possible to set the initial load value of each transmission line, distribution line, and main transformer included in the virtual system model based on the load information of the distribution line and the main transformer.

Meanwhile, the simulated failure simulator 200 may simulate a simulated failure situation of a system based on a virtual system model in which initial information is set.

The simulated failure generating apparatus 300 may generate a simulated failure signal according to the operator's operation, and output the generated simulated failure signal to the simulated failure simulator 200 .

Here, the tester may mean a person who generates a simulated failure signal to induce the test subject's recovery operation, that is, an instructor.

For example, the simulated failure generating device 300 may include an initial state set in each circuit breaker provided in the virtual system model according to the operator's operation, an initial state set in each disconnector, an initial load value of each transmission line, and an initial state of each distribution line. By changing at least one of the load value and the initial load value of each main transformer, a simulated failure signal corresponding to a situation in which a ground fault, short circuit, disconnection, etc. occurs may be generated.

On the other hand, the simulated failure generating device 300 is the initial state set in each circuit breaker provided in the virtual system model according to the operation of the tester, the initial state set in each disconnector, the initial load value of each transmission line, the initial load value of each distribution line , and a user interface for changing the initial load value of each main transformer.

The simulated failure recovery apparatus 400 may generate a simulated failure recovery signal according to a recovery operation of the test subject, and output the generated simulated failure recovery signal to the simulator.

Here, the test subject may mean a person who learns the recovery operation method in the simulated failure situation generated by the tester, that is, a trainee.

For example, the simulated failure recovery apparatus 400 changes at least one of the state information of each circuit breaker and the state information of each disconnector included in the virtual system model according to the operation of the test subject in response to the simulated failure signal to recover the simulated failure. signal can be generated.

Meanwhile, the simulated failure recovery apparatus 400 may include a user interface for changing at least one of the state information of each circuit breaker and the state information of each disconnector provided in the virtual system model according to the operation of the test subject.

As described above, in the present invention, the simulated failure simulation of the system can be performed in an environment similar to the situation of the actual system by setting the initial value of the simulated failure simulator 200 using the measured data collected in real time from the actual system. . In addition, the present invention can strengthen the failure recovery capability of the test subject through the simulated failure simulation reflecting the actual system situation.

2 is a flowchart for explaining a system simulation failure simulation method according to an embodiment of the present invention, and FIG. 3 is a step of simulating a simulated failure situation of the system simulation failure simulation method according to an embodiment of the present invention. is a flowchart for

Hereinafter, a system simulation method according to an embodiment of the present invention will be described with reference to FIGS. 2 and 3 .

In step S100 , the simulated failure simulator 200 may receive actual measurement data collected from the system and stored in the SOMAS DB 100 .

The actual data includes state information collected in real time from circuit breaker (CB) and disconnecting switch (DS) provided in the system, and transmission line (T/L; Transmiton Line) and distribution line (Distribution) provided in the system. Line) and the load information collected in real time from the main transformer (M.Tr; Main Transformer).

In step S200 , the simulated failure simulator 200 may convert the measured data received from the SOMAS DB 100 into simulation data so as to perform a system simulated failure simulation by reflecting the real-time system situation.

For example, the simulation failure simulator 200 simulates data in a form suitable for performing simulations on state information of circuit breakers and disconnectors input from the SOMAS DB 100 and load information of transmission lines, distribution lines, and main transformers. can be converted to data.

In step S300 , the simulated failure simulator 200 may set initial information of the virtual system model based on the converted simulation data.

For example, the simulated failure simulator 200 may set the initial state of each circuit breaker and disconnector included in the virtual system model based on the state information of the circuit breaker and disconnector included in the simulation data, and the transmission line included in the simulation data. , it is possible to set the initial load value of each transmission line, distribution line, and main transformer included in the virtual system model based on the load information of the distribution line and the main transformer.

In step S400 , the simulated failure simulator 200 may simulate a simulated failure situation of a system based on a virtual system model in which initial information is set.

Referring to FIG. 3 , step S400 may include steps S410, S420, S430, S440, S450, and S460.

In step S410 , the simulated failure generating device 300 may generate a simulated failure signal according to the operator's manipulation.

For example, the simulated failure generating device 300 includes initial state information set in each circuit breaker provided in the virtual system model according to the operator's operation, initial state information set in each disconnector, initial load value of each transmission line, and each distribution line. By changing at least one of the initial load value of , and the initial load value of each main transformer, a simulated failure signal corresponding to a situation in which a ground fault, short circuit, disconnection, etc. occurs may be generated.

In step S420 , the simulated failure generating device 300 may output the generated simulated failure signal to the simulated failure simulator 200 .

In step S430 , the simulated failure simulator 200 may change initial information set in the virtual system model based on the simulated failure signal output from the simulated failure generating device 300 .

In operation S440 , the simulated failure recovery apparatus 400 may generate a simulated failure recovery signal according to an operation of a test subject corresponding to the simulated failure signal.

For example, the simulated failure recovery apparatus 400 may generate a simulated failure recovery signal by changing at least one of the state information of each circuit breaker and the state information of each disconnector provided in the virtual system model according to the operation of the test subject. .

In step S450 , the simulated failure recovery apparatus 400 may output the generated simulated failure recovery signal to the simulated failure simulator 200 .

In operation S460 , the simulated failure simulator 200 may change information set in the virtual system model based on the simulated failure recovery signal output from the simulated failure recovery apparatus 400 .

As described above, the system simulated failure simulation system and method according to an embodiment of the present invention sets the initial value of the simulated failure simulator using the measured data collected in real time from the real system in an environment similar to the situation of the real system. Simulation of system failure can be performed. In addition, the failure recovery capability of the test subject can be strengthened through simulated failure simulation that reflects the actual system situation.

Implementations described herein may be implemented in, for example, a method or process, an apparatus, a software program, a data stream, or a signal. Although discussed only in the context of a single form of implementation (eg, discussed only as a method), implementations of the discussed features may also be implemented in other forms (eg, as an apparatus or program). The apparatus may be implemented in suitable hardware, software and firmware, and the like. A method may be implemented in an apparatus such as, for example, a processor, which generally refers to a computer, a microprocessor, a processing device, including an integrated circuit or programmable logic device, and the like. Processors also include communication devices such as computers, cell phones, portable/personal digital assistants (“PDA”) and other devices that facilitate communication of information between end-users.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely exemplary, and it is understood that various modifications and equivalent other embodiments are possible by those of ordinary skill in the art. will understand Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

100: SOMAS DB
200: simulated failure simulator
300: simulated failure generating device
400: simulated failure recovery device

Claims (8)

SOMAS (Substation Operating Results Management System) DB in which the measured data collected from the system is stored; and
In order to perform a system simulation failure simulation by reflecting the real-time system situation, the actual measurement data stored in the SOMAD DB is received, the received actual measurement data is converted into simulation data, and the initial virtual system model is based on the converted simulation data. and a simulation failure simulator for setting information and simulating a simulated failure situation of a system based on the set virtual system model.
The method of claim 1,
The measured data includes state information collected in real time from circuit breakers and disconnectors provided in the system, and load information collected in real time from transmission lines, distribution lines and main transformers provided in the system. simulation system.
The method of claim 1,
The system simulated failure simulation system further comprising a; a simulated failure generating device that generates a simulated failure signal according to the operator's operation and outputs the generated simulated failure signal to the simulator.
The method of claim 1,
The system simulated failure simulation system further comprising a; a simulation failure recovery device that generates a simulated failure recovery signal according to a recovery operation of a test subject and outputs the generated simulated failure recovery signal to the simulator.
receiving, by the simulated failure simulator, actual measurement data collected from the system and stored in a Substation Operating Results Management System (SOMAS) DB;
converting the measured data received through the SOMAS DB into simulation data so that the simulated failure simulator performs a system simulated failure simulation by reflecting the real-time system situation;
setting, by the simulated failure simulator, initial information of a virtual system model based on the converted simulation data; and
and simulating, by the simulated failure simulator, a simulated failure situation of a system based on the set virtual system model.
6. The method of claim 5,
The measured data includes state information collected in real time from circuit breakers and disconnectors provided in the system, and load information collected in real time from transmission lines, distribution lines and main transformers provided in the system. Distribution system simulation, characterized in that it includes method.
6. The method of claim 5,
The step of simulating, the simulated failure generating device,
Generating a simulated failure signal according to a tester's operation, and outputting the generated simulated failure signal to the simulator.
6. The method of claim 5,
The step of simulating, the simulation failure recovery device,
Generating a simulated failure recovery signal according to a recovery operation of a test subject, and outputting the generated simulated failure recovery signal to the simulator.

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