KR20230003783A - Apparatus for Simulation of training power field Operator - Google Patents

Abstract

The present invention is a simulation apparatus for training field operator trainees in the power plant, comprising: a dome-structured screen which has a curved led mounted thereon, wherein a field operator trainee of a power plant operates a facility; a simulator control board which grants a condition screen for audiovisual control required for education of field operator trainees in the power plant. The condition screen granted from the simulator control board comprises at least one from among a specific place of the power plant, a room, facility start, facility stop, facility replacement, malfunction and remote function. In addition, the simulator control board is installed in the dome-structured screen.

Description

Power plant field training center training simulation device {Apparatus for Simulation of training power field Operator}

The present invention relates to a simulator for education and training of a power plant, and more particularly, to a system that utilizes monitoring variables of a plant information system of a power plant to generate initial conditions of the simulator having the same variable values as those of a power plant in a short time. Thus, it relates to a simulator of a dome structure in which a power plant field operator can simulate field facilities.

Power plant simulators have been mainly developed and used for operator training after power plant construction for stable power plant operation. Recently, control logic tests, HMI tests, existing control logic improvement tests, etc. It is used as a test bed to reduce trial and error in the field by conducting it in advance.

Here, variable values mean values of sensor signals measured by a plurality of sensors installed in power plant facilities, and plant information includes configuration information of devices installed in the plant. Conditions related to plant evaluation, such as plant operating environment information and operating pattern information, are recorded together, and performance models of all devices are recorded. The performance model includes performance information such as mass balance, thermal balance, thermal efficiency, and output of each device or design values of heat balance of all devices, thermal efficiency and output according to heat balance.

The power plant simulator is based on the design data (Isometric Drawings, Control Logic Diagram, Heat Balance etc.) and operation and operation data (control system operation screen, performance data, etc.) of the power plant to be developed. to develop

In particular, the nuclear power plant simulator is a simulation training device that allows operators to practice in the same environment as the actual situation based on high level of safety and precision. It is a facility that enables road analysis and improvement of driving methods. In addition, it includes the ability to set external environment variables, which is one of the main functions of the simulator instructor's control panel.

However, the external environment variable setting function of the instructor's control panel is physically impossible to reflect the changes that occur simultaneously in natural phenomena manually input by the user and cannot be included in the simulation range.

In addition, in general, there are many cases where the external environmental variables of the instructor's control panel are inconsistent with the reference data reflected in the design of the actual power plant and the data at the time when the simulator is developed and used. Moreover, it is difficult to reflect the variables that change in real time to the simulator.

Therefore, it is difficult to perform real-time interlocking and simulation of the initial conditions of power plant start-up and conditions that change during operation, and it is cumbersome for the user to input the corresponding variables into the simulator every time.

In addition, codes for analyzing power plants usually pre-specify the simulation system of the power plant in the component system information input file, and the input values in the related system are always limited to constants or pre-specified condition values. There is a problem of not receiving dynamic values according to the state of a connected system such as an actual power plant.

In addition, the power plant simulator requires various initial conditions for diversity of education and training, and the creation of the initial conditions is created by the training department professor through the same driving operation as the power plant, and this generation method takes a long time and the professor's workload. is increased In addition, there is a possibility that the power plant and variable values are different depending on the driving skill of the professor.

Korea Hydro & Nuclear Power has established a plant information system that can check the variable values of the power plant online in real time. Using this plant information system, it is possible to create initial conditions for the simulator, but the linkage between the current plant information system and the simulator is in the absence of

In particular, a simulator is currently in operation for the education and training of operators in the main control room of a power plant, but a simulator for training and training of field operators in charge of operating a power plant in an actual field is not being operated.

Korean registered patent 1715765 (Plant information management method and system, Lee Seung-ho) US registered patent 10204713 (Emergency decision-making assistance system , MITSUBISHI HEAVY INDUSTRIES, LTD.) Korean registered patent 2130280 (Curved backlight unit and curved display device including the same, LG Display)

The technical problem of the present invention for solving the above problems is to apply a power plant simulator that can generate and input accurate initial conditions for simulating various power plant situations in a short period of time using the existing system of the power plant, and in particular, the power plant field training center. It provides a dome-structured simulator equipped with a curved screen that can provide an audio-visual environment for education so that on-site trainees can experience and operate field equipment inside the dome-shaped screen. .

As one aspect to achieve the above object, as a simulation device for education and training of field operators of power plants, a dome structure screen equipped with curved LEDs for operating field operators of power plants and It includes a simulator control panel that provides a condition screen for audio-visual control necessary for training of the power plant field training center.

In addition, the condition screen provided by the simulator control panel includes at least one of a power plant specific location, a ROOM, facility activation, facility stop, facility replacement, malfunction (MALFUNCTION), and remote function (REMOTEFUNCTION).

In addition, the simulator control panel is characterized in that it is installed on the screen of the dome structure.

In addition, the simulation device for education and training includes a simulator that is installed in a power plant and is connected to a plant information system that generates actual operating variable values of the power plant to simulate power plant operation using the actual operating variable values of the power plant as inputs.

In addition, the simulator may include an initial condition generation unit that retrieves actual operating variable values of a power plant corresponding to a specific date and time from the plant information system and stores them as initial conditions necessary for starting the simulator.

In addition, the initial condition generation unit includes performing an operation of classifying a data storage range among power plant operating variable values corresponding to the specific date and time.

Also, the operation of classifying the data storage range includes dividing power plant operating variable values corresponding to the specific date and time into cumulative necessary variable values and cumulative unnecessary variable values.

In addition, the operation of classifying the data storage range is characterized in that the cumulative variable values of the previous specific time domain range are automatically called from the plant information system based on the specific date and time for the cumulative required variable values.

According to the simulator proposed through the present invention, by providing an audio-visual environment corresponding to the operation of the simulator in the field training center of the power plant, effective education and training is possible without wearing a headset.

In addition, by generating initial conditions with the same variable values as power plants in a short time, it is possible to more similarly simulate events (EVENT) occurring in power plants, and the quality of operator education and training can be improved by providing more detailed and diverse initial conditions. . In addition, since initial conditions can be created in a short period of time, the workload of the training department professor in charge of educating drivers can be reduced.

1 is an overall block diagram of a simulation device using actual operating variable values of a power plant as initial conditions according to an embodiment of the present invention.
2 is a detailed configuration block diagram of a simulation device using actual operating variable values of a power plant as initial conditions according to an embodiment of the present invention.
3 is a diagram illustrating an operation between a simulator control panel and a dome-structured screen according to an embodiment of the present invention.
4 is a diagram showing the entire operation of a simulation device using actual operating variable values of a power plant as initial conditions according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, some configurations irrelevant to the gist of the present invention will be omitted or compressed, but the omitted configurations are not necessarily unnecessary in the present invention, and can be combined and used by those skilled in the art to which the present invention belongs. can

1 is a block diagram of a simulation device with actual operating variable values of a power plant as initial conditions according to an embodiment of the present invention.

As shown in FIG. 1 , the simulation device 100 using actual operating variable values of a power plant as initial conditions of the present invention is composed of an initial condition generating unit 120 and a simulator 130 built in a power plant.

First, the initial condition generator 120 of the simulation device 100, which uses the actual operating variable values of the power plant as initial conditions, is connected online with the plant information system 200 that generates the variable values of the power plant in real time. Specific variable values required for the simulator 130 are brought from the plant information system 200, and the specific variable values are processed and transmitted to the simulator 130, and the simulator 130 transmits the specific variable values transmitted from the initial condition generator 120. Values are input as initial conditions for power plant startup, and simulation for specific situations is performed.

2 is a detailed configuration block diagram of a simulation device using actual operating variable values of a power plant as initial conditions according to an embodiment of the present invention.

As shown in FIG. 2, the plant information system 200 is a system that monitors and outputs the operating states of all devices in a power plant, that is, variable values in real time, and the initial condition generator 120 includes a first subprogram ( 122) and the second subprogram 124.

First, the training instructor 140 inputs (1) a specific date/time for initial condition generation into the first subprogram 122, and the first subprogram 122 inputs the input specific date/time into the second subprogram. It is transmitted to the program 124 (2), and the variable interface 126 of the second subprogram 124 brings the variable values of devices in the power plant corresponding to the entered specific date/time (3). The second sub-program 124 outputs the variable values of the devices in the power plant corresponding to the specific date/time imported and transmits them to the first sub-program 122 (4). The variable values output from the program 124 are processed according to the initial conditions of the simulator and then transmitted to the simulator 130 (5). will do

FIG. 3 is a diagram illustrating an operation between a simulator control panel and a dome-structured screen according to an embodiment of the present invention.

The simulator 130 is composed of a simulator control panel 131 and a dome-structured screen 132, and the dome-structured screen 132 is distorted according to the user's position by mounting a curved LED 133. is minimized, and a simulator control panel 131 is configured on the screen of the dome structure to perform audio-visual control. The training instructor 133 manipulates the simulator control panel 131 and gives a condition screen corresponding to facility operation through the dome-structured screen 132 (10), and the field training center 134 operates the dome-structured screen 132 Through this, facility operation simulator operation (20) is performed. As an example of the condition screen, there are ① a specific location of the power plant, ROOM ② training conditions such as facility startup, stop, and replacement ③ Malfunction/Remotefunction. The field operator 134 performs facility operation that meets given conditions. In the simulator control panel 131, power plant abnormal situations are loaded in advance.

4 is a diagram showing the entire operation of a simulation device using actual operating variable values of a power plant as initial conditions according to an embodiment of the present invention.

First, the first subprogram receives a specific date/time to request an output from the training professor 140 to the plant information system 200 (step 310), and the first subprogram 122 receives the input of the second subprogram 124 ) requesting a specific date/time (step 311), requesting, by the second subprogram 124, the corresponding variable values of the specific date/time from the plant information system 200 (step 312), the second subprogram 124 The program 124 calls and stores the corresponding variable values of a specific date/time from the plant information system 200 (step 313), and the second subprogram 124 does not need to accumulate the stored variable values with the accumulated variable values Dividing into variable values (step 314), step of having the second subprogram 124 automatically call accumulated variable values up to 2 hours ago from the plant information system 200 for the variable values classified as need for accumulation (step 315 ), loading the corresponding accumulated variable values called by the second subprogram 124 into final output data of the first subprogram 122 (step 316), loaded as final data in the second subprogram 124 The first subprogram 122 processes the variable values according to the simulator 130 and converts them into files in a format required by the simulator 130 environment program (step 317), in the first subprogram 122 Transmitting the converted variable values to a folder specified in the environment of the simulator 130 (step 3518), and simulating the operation of the power plant using the variable values stored in the folder as initial conditions for startup (step 319).

100: simulation device
120: initial condition generating unit
122: first sub program
124: second sub program
126: variable interface
130: simulator
131: simulator control panel
132: dome structure screen
133: Training Instructor
134: field operator
140: Professor in training
200: plant information system

Claims (8)

Dome-structured screen equipped with CURVED LEDs that power plant on-site trainees control facility operation; and
Power plant education and training simulation device including a simulator control panel for giving a condition screen for audio-visual control necessary for training of the power plant field training center. According to claim 1,
The condition screen given by the simulator control panel includes at least one of a power plant specific location, ROOM, facility startup, facility stop, facility replacement, malfunction (MALFUNCTION), and remote function (REMOTEFUNCTION) Simulation device for power plant education and training. According to claim 1,
The simulator control panel is a simulation device for power plant education and training, characterized in that installed on the screen of the dome structure. According to claim 1,
The simulation device
A simulation device for power plant education and training including a simulator installed in a power plant and connected to a plant information system that generates actual operating variable values of the power plant to perform power plant simulation operations using actual operating variable values of the power plant as inputs. According to claim 4,
The simulator includes an initial condition generation unit for calling actual operating variable values of the power plant corresponding to a specific date and time from the plant information system and storing them as initial conditions necessary for starting the simulator. Device. According to claim 5,
The initial condition generator
Simulation device for power plant education and training comprising performing an operation of dividing a data storage range among actual operating variable values of the power plant corresponding to the specific date and time According to claim 6,
The operation of classifying the data storage range is
Simulation apparatus for power plant education and training comprising dividing actual operating variable values of the power plant corresponding to the specific date and time into cumulative required variable values and cumulative unnecessary variable values. According to any one of claims 4 to 7,
The operation of classifying the data storage range is
Simulation device for power plant education and training, characterized in that for the cumulative required variable values, the cumulative variable values of the previous specific time domain range are automatically called from the plant information system based on the specific date and time.

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