JPH05316651A - Simulating system for electric power system - Google Patents

Abstract

PURPOSE:To enable a simulating system which simulates the fault of an electric power system during the course of training to simulate the occurrence of a change of state in real time during the course of training by generating changes of the state of a protective relay and switch in real time in accordance with time in a simulator. CONSTITUTION:When the accident set by means of a man-machine device 1 in a training preparing stage is generated by means of an accident generating means 2, a system data simulating means 3 first prepares the admittance data, etc., of a system from the turning on/off state of a currently used circuit breaker and stores the data, etc., in a simulation data file 4. Then a fault calculating means 5 prepares the faulty current and faulty voltage at the time of the accident based on the data and stores the current and voltage in an accident-time system data file 6 and a protective relay operation simulating means 7 simulates the operation of the protective relay in the system in which the accident occurs based on the stored data. Then a change-of-state generating means 9 sends the simulation to an electric power system simulating means 10 when the time at which a change of state occurs comes. Thus the system of the man-machine device 1 is simulated in real time.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power system simulation system for simulating a system failure during training.

[0002]

2. Description of the Related Art FIG. 4 is a flow chart showing a conventional power system simulation method disclosed in, for example, Japanese Patent Application No. 3-23634. According to this flow chart, operation simulation of a protection relay is performed to calculate the occurrence of a system failure. Based on the above, the operation of the protection relay is simulated for the purpose of performing a system simulation in real time during training execution using the data of the trip circuit breaker by the protection relay.

In the figure, ST1 is a simulation target section limiting step for limiting the section to be simulated from the set accident point, and ST2 is this simulation target section limiting step ST1.
The step ST3 is a step of reducing the system to the outside of the section limited by, the step ST3 is a step of calculating a fault current and a failure voltage, and the step ST4 is a step of setting an internal time T to an initial value.

Further, ST5 is an operation judging step for judging the operation of the protective relay, ST6 is a step for judging the change of the switch (CB), and ST7 is a step for making the protective relay change and the switch change. ST8 is a state change saving step of saving state change data in a state change data file, ST9 is a step of determining an accident elimination, ST10 is a step of calculating a failure after a system configuration change, and ST11 is an internal time for determining a protective relay operation. Step ST12 is a step of generating state change data after the protection relay operation determination is completed.

Next, the operation will be described. First, in the training preparation stage, the trainer sets an accident occurrence time, an accident point, and an accident type in the power system. Then, based on the above set data, the training is started, and if an accident occurs, the simulation target section is limited (step ST
1) After further system reduction (step ST
2), failure calculation is performed (step ST3).

Subsequently, an initial value 0 is set to the internal time T (step ST4), and the operation of the protection relay unit and the relay sequence is judged based on the failure voltage and the failure current calculated for the failure (step ST5). When it is determined that there is no circuit breaker operation based on the operation result of the protection relay (step ST6), the operation is advanced internally by ΔT and the operation determination of the protection relay alone and the relay sequence is repeated again.

On the other hand, when it is determined that the circuit breaker operation is reached, a state change of the protection relay and the state of the circuit breaker is created (step ST7) and stored in the state change data file (step ST8). , Create a system configuration after protection relay operation. In addition, the determination of accident removal is also performed (step ST9). If the accident is not eliminated, the failure calculation after the system configuration change is performed (step ST10), the internal time is advanced by ΔT (step ST11), and the operation determination of the protection relay is repeated until the accident is eliminated. When the accident is removed, the state change stored in the state change file is generated (step ST12).

FIG. 5 is an explanatory diagram showing the relationship between the occurrence of a state change in the case where an accident occurs in the actual system and the state change inside the simulator according to the above method. First, when an accident occurs in the actual system, a state change "A" occurs after T1 hours in real time, and then state changes "B" and "C" occur.

On the other hand, when an accident occurs in the simulator,
The operation of the protection relay is judged, and when a state change "A" occurs, it is stored in the state change file. Further, all the state changes (state change "B", state change "C") until the accident is removed are stored in the state change file, and after the judgment of the protection relay operation is completed, the state change "A" in the state change file is stored. , "B", "C" are generated.

[0010]

Since the conventional power system simulation method is carried out as described above,
When judging the operation of the protection relay, all the state change data up to the end of the operation judgment of the protection relay are stored in the state change file, and after the operation judgment is completed, the state change is sequentially generated. The determination is performed during the training in order to simulate the system state that changes every moment in real time.

Therefore, as shown in FIG. 5, even if the "A" state change should occur T1 seconds after the accident occurs in the actual system, the state change occurs in the simulator after the protection relay operation determination is completed. Therefore, the occurrence of "A" abnormalities is T2.
When the protection relay operation determination is completed after a few seconds, there is a problem in that there is a large difference between the time T1 until the actual system condition change occurs and the simulator internal condition change time T2.

The present invention has been made in order to solve the above problems, and adds the stored data of the time in the state change simulator to determine whether the state change occurs in the state change file using a protection relay. The purpose is to obtain a power system simulation method that simulates the occurrence of a state change in real time regardless of whether the operation determination is completed or not.

[0013]

SUMMARY OF THE INVENTION A power system simulation method according to the present invention comprises a simulation target section limiting step for limiting a simulation target section from an accident point, and a system contraction for performing system reduction outside the simulation target section. Steps, a failure calculation step of calculating a failure voltage and a failure current in the simulation target section, an operation determination step of performing an operation determination of a protection relay unit and a relay sequence according to the calculation results of the failure voltage and the failure current, and the protection In the simulation method of the power system for executing the state change saving step of storing the state change of the relay and the state change of the switch in the state change data file, the state change of the protection relay and the state of the switch during the training are further performed. The change is generated in real time according to the time in the simulator.

[0014]

In the simulation system of the power system according to the present invention, the occurrence of the state change data stored in the state change data file during the training is managed by the simulator for each state change of the protection relay and the switch. Eliminate the time difference between the time and the time within the protection relay operation judgment, and simulate the occurrence of state changes during training in real time.

[0015]

EXAMPLES Example 1. An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, ST1 is a simulation target section limiting step of limiting the section to be simulated from the set accident point, and ST2 is this simulation target section limiting step S.
System reduction step for system reduction outside the section limited by T1, ST3 is a failure calculation step for calculating a failure current and failure voltage, and ST4 is a step for setting an initial value to the internal time T.

Further, ST5 is an operation judging step for judging the operation of the protective relay, ST6 is a step for judging a change in the switch (CB), and ST7 is a step for making a protective relay change and a switch change. ST8 is a state change saving step of saving state change data in a state change data file, ST9 is a step of determining an accident elimination, ST10 is a step of calculating a failure after a system configuration change, and ST11 is an internal time for determining a protective relay operation. Step ST12 is a step of generating state change data after the protection relay operation determination is completed. Further, ST13 is a step of determining occurrence of a state change every ΔT seconds.

FIG. 2 is an explanatory diagram showing the relationship between the occurrence of state changes in the actual system and the state changes occurring in the simulator when a step for determining the occurrence of state changes has been added.

Next, the operation will be described. First, in the training preparation stage, the trainer sets an accident occurrence time, an accident point, and an accident type in the power system. Then, based on the above set data, the training is started, and if an accident occurs, the simulation target section is limited (step ST
1) After further system reduction (step ST
2), failure calculation is performed (step ST3).

Subsequently, an initial value 0 is set to the internal time T (step ST4), and the operation of the protection relay unit and the relay sequence is judged based on the failure voltage and the failure current calculated for the failure (step ST5). When it is determined that there is no circuit breaker operation based on the operation result of the protection relay (step ST6), the operation is advanced internally by ΔT and the operation determination of the protection relay alone and the relay sequence is repeated again.

On the other hand, when it is determined that the circuit breaker operation is reached, the state change of the state of the protection relay and the state of the circuit breaker is created (step ST7) and stored in the state change data file (step ST8). .. In the operation judgment of the above-mentioned protection relay, the state change caused by this is sequentially stored in the state change file. In this case, it is determined in the simulator how many seconds after the accident the state change occurs. It is converted into time and the time of occurrence of state change is also stored.

For example, if the state change "A" actually occurs T1 seconds after the accident occurs in the simulator, the state change data file is also added with the data "state T1 second" after the state change "A". To store.

Now, when the operation judgment of the protection relay is carried out while advancing by ΔT time in sequence, the status change occurrence judgment is made every time the status change of the protection relay and the switch is made (step ST13), and the status change data file If there is a state change occurrence time that exceeds the simulator internal time “t”, a state change is generated. Explaining the above-mentioned state change “A”, since the state change occurrence time is “T1”, when the relationship of T1 ≦ t is established,
A state change "A" is generated.

As can be seen from FIG. 2, the occurrence time T1 of the actual systematic state change "A" and the occurrence time T2 of the simulator internal state change "A" can be made substantially the same by the above-described method, and the state change occurs. It can be simulated in real time.

FIG. 3 is a block connection diagram of a training simulator for carrying out the simulation method of the present invention. In the figure, 1 is a man-machine device in which the trainer actually sets an accident, and 2 is an accident caused by the accident setting. Accident generating means, 3 is a system data simulating means, and 4 is a simulated system data file.

Reference numeral 5 is a failure calculation means for creating a failure current and a failure voltage at the time of an accident, 6 is an accident system data file, and 7 is an operation simulation of a protection relay in the accident system based on this accident system data file 6. Protective relay operation simulation means to be performed, 8 is a supervision (hereinafter referred to as SV) state change data file such as circuit breaker ON / OFF state, 9 is information of SV state change data file 8 when the state of the state change occurs The state change generating means 10 is an electric power system simulating means for simulating the system of the man-machine device 1 in real time.

In such a training simulator, the accident set by the man-machine device 1 at the training preparation stage is caused by the accident generating means 2. When an accident occurs, system admittance data or the like depending on the current circuit breaker ON / OFF state is created by the system data simulating means 3 and stored in the simulated system data file 4. Next, based on the simulated system data file 4, the fault current and the fault voltage at the time of the accident are created by the fault calculation means 5 as in the above step ST3, and stored in the fault system data file 6.

Next, the operation of the protection relay in the accident system is simulated by the protection relay operation simulation means 7 based on the accident system data file 6, and the operation result is stored in the SV-like variation data file 8 and the accident system data file 6. reflect. Then, for the system data changed by the protection relay operation, the failure calculation and the protection relay operation simulation are performed again.

This is performed until the operation of the protection relay is completed,
The protection relay operation information is stored in the SV change data file 8. The information stored in the SV state change data file 8 is sent to the power system simulation means 10 when the state change generation means 9 reaches the time when the state change occurs, and the system of the man-machine device 1 is simulated in real time.

[0029]

As described above, according to the present invention, the state of the protective relay and the state of the switch during the training are generated in real time in accordance with the simulator time. There is an effect that it is possible to eliminate a time lag between the time and the operation determination time of the protection relay, and to simulate the occurrence of a state change during training in real time.

[Brief description of drawings]

FIG. 1 is a flowchart showing a power system simulation method according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing a relationship between an actual system of the present invention and occurrence of a state change in a simulator.

FIG. 3 is a block connection diagram showing a training simulator that implements the simulation method in FIG.

FIG. 4 is a flowchart showing a conventional power system simulation method.

FIG. 5 is an explanatory diagram showing a relationship between a conventional actual system and occurrence of a state change in the simulator.

[Explanation of symbols]

 ST1 Simulation target section limitation step ST2 System reduction step ST3 Failure calculation step ST5 Operation determination step ST8 Condition change step

Claims (1)

[Claims] 1. A simulation target section limiting step for limiting a simulation target section from an accident point, a system contraction step for performing a system contraction outside the simulation target section, and a failure voltage and a failure current in the simulation target section. Failure calculation step to
An operation determination step for performing the operation determination of the protection relay unit and the relay sequence according to the calculation result of the above-mentioned fault voltage and fault current, and the state change storage for storing the state change of the protection relay and the state change of the switch in the state change data file. In the power system simulation method for carrying out the steps, a power system simulation method is characterized in that the condition of the protection relay and the condition of the switch during the training are generated in real time in accordance with the time in the simulator. ..