JP2003150890A - Plant dynamic characteristic model construction system and construction method and plant dynamic characteristic simulator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently and easily prepare a plant dynamic characteristic model in a short time even if a person is not familiar to a plant dynamic characteristic program and a plant dynamic characteristic model. SOLUTION: The plant dynamic characteristic model construction system is provided with an display part 3 capable of displaying an element symbol including a first element symbol and a second element symbol for displaying elements usable at the plant; an input part 7 for designating the second element symbol to be bonded to the first element symbol displayed on the display part 3; a data base 6 having a rule for bonding the element symbols each other; an automatic production part 4 for judging whether or not the bonding of the first element symbol and the second element symbol is coincident with the rule in reference to the data base 6 while responding to the designation, bonding the first element symbol and the second element symbol on the display part 3 when it is coincident and showing the matter when it is not coincident to produce a plant model; and an element model data base 8 having an element model representing a characteristic of the element. The automatic production part 4 produces a plant dynamic characteristic model based on the bonding state of the first element symbol and the second element symbol and the element model.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plant dynamic characteristic model construction system, a plant dynamic characteristic simulator and a plant dynamic characteristic model construction method, and in particular, it is possible to construct a plant dynamic characteristic model used for a plant dynamic characteristic program. To dynamic plant dynamic characteristic model construction system, plant dynamic characteristic model construction method, and plant dynamic characteristic simulator using the same.

[0002]

2. Description of the Related Art When constructing a plant such as a chemical plant or a power plant, a plant dynamic characteristic program for verifying the dynamic characteristic of the plant in advance is known. The plant dynamic characteristic program can be applied to various plants without changing the program by changing the data file input thereto.

[0003] This data file is created by using information peculiar to each equipment element such as piping and equipment as numerical data and further adding connection information data which is data of connection information between equipment elements. Then, the program recognizes the data file as an analysis code.

To create a data file, it is necessary to create a plant dynamic characteristic model as a prerequisite. However, in order to create a plant dynamic characteristic model, it is necessary to be familiar with the contents of the plant dynamic characteristic program and each equipment element model. Then, in order to create the numerical data of each device element and the connection information data between the device elements in the data file, it is necessary to be skilled in these data creating operations.

As a related technique, Japanese Patent Laid-Open No. 104655/1995.
The technology of a plant simulator is disclosed in Japanese Patent Publication. The simulator of this technique automatically generates a dynamic characteristic model of an optimum plant system by creating a dynamic characteristic model of a plant system on a display device using symbols during plant design. In this technique, first, a combination of one symbol (plant model) is created on the display device by the symbols indicating the respective devices constituting the plant. After that, the connection between each symbol is examined. As a result, if there is a combined portion that does not follow the preset combination rule, that portion is clearly indicated on the display device.
The creator modifies the specified binding points. The above operation is repeated to obtain an appropriate plant model. Then, it is described that the dynamic characteristic model and the data file of the optimum plant system can be easily created based on the plant model and the element model.

In this technique, after the plant model is completed, the connection between the symbols is examined. Therefore, even if there is a combination rule violation in the coupling of devices on the way, the violation point cannot be grasped until the plant model is completed. In addition, even if the violating portion is corrected, the violating portion may occur at another portion due to the correction. Even in that case, the inspection is not performed unless the plant model is corrected (if there are multiple places, all of them). Therefore, even if a new violation point occurs due to the correction, the violation point cannot be immediately grasped. In this way, once the entire plant model has been completed, the connection between each symbol is examined, so to complete the plant model without violating the combination rules,
It can be very time consuming and labor intensive.

There is a demand for a system that can easily create a plant dynamic characteristic model even if the user is not familiar with the plant dynamic characteristic program or is not skilled in creating a plant dynamic characteristic model. Further, a system capable of efficiently creating a plant dynamic characteristic model in a short time is desired. There is a demand for a system capable of performing data input to analysis of plant dynamic characteristics even if the user is not skilled in the plant dynamic characteristics program.

[0008]

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a plant dynamics program even if the user is not familiar with the plant dynamics program or is not skilled in creating a plant dynamics model.
To provide a plant dynamic characteristic model building system, a plant dynamic characteristic simulator and a plant dynamic characteristic model building method capable of easily creating a plant dynamic characteristic model.

Another object of the present invention is to provide a plant dynamic characteristic model construction system, a plant dynamic characteristic simulator and a plant dynamic characteristic model construction method capable of efficiently producing a plant dynamic characteristic model in a short time. That is.

Still another object of the present invention is to provide a plant dynamic characteristic model building system, a plant dynamic characteristic simulator and a plant dynamic characteristic simulator which are capable of performing from data input to analysis of plant dynamic characteristic even if they are not skilled in the plant dynamic characteristic program. It is to provide a characteristic model construction method.

[0011]

[Means for Solving the Problems] Means for solving the problems will be described below by using the numbers and symbols used in the embodiments of the present invention. These numbers and signs are added to clarify the correspondence between the description of [Claims] and the [Embodiment of the Invention]. However, those numbers and signs should not be used for the interpretation of the technical scope of the invention described in [Claims].

Therefore, in order to solve the above problems, a plant dynamic characteristic model building system of the present invention includes a plurality of elements including a first element symbol and a second element symbol, each of which represents a plurality of elements usable in a plant. (3) capable of displaying the element symbols (13 to 16) and an input unit for designating the second element symbol combined with the first element symbol displayed on the display unit (3). (7) and element symbols (13 to 16)
A combination rule database (6) that stores rules for combining each other, and, in response to the designation, refers to the combination rule database (6) to refer to the first element symbol and the second element symbol. It is determined whether or not the combination conforms to the rule, and if they match, the first element symbol and the second element symbol are combined and shown on the display unit (3), and the combination is determined. If not, an automatic generation unit (4) indicating that they do not match is provided.

The automatic generation unit (4) uses a set of element symbols (13 to 16) set for each type based on the input of the type of the plant as a template for creating the plant model of the plant. (17) is displayed on the display unit (3).

Further, in the plant dynamic characteristic model construction system of the present invention, the automatic generation unit (4) displays the templates (17) side by side in descending order of frequency of use when the plant model of the type was previously created.

Further, in the plant dynamic characteristic model construction system of the present invention, the input unit (7) includes a mouse, and the automatic generation unit (4) right clicks the mouse to display an element on the display unit (3). A list of symbols (13 to 16) is shown, and element symbols (13 to 16) in the list of the mouse
The element symbol (13 to 16) is displayed on the display unit (3) by the selection operation of.

Further, the plant dynamic characteristic model construction system of the present invention further comprises an element model database (8) having a plurality of element models representing respective characteristics of the plurality of elements, and an automatic generation section (4). Is a multiple element symbol (1
Plant model (18) represented by a combination of 3 to 16)
And a plant dynamic characteristic model as a model for simulating the dynamic characteristics of the plant based on the element information and the connection information indicating the states of the first element symbol and the second element symbol. .

Further, a plant dynamic characteristic model construction system of the present invention is a plant dynamic characteristic model construction system (3, 4, 6, 7, 8) according to claim 5, and a plant for evaluating the dynamic characteristic of the plant. And a dynamic characteristic calculation processing section (5) which has a dynamic characteristic program and evaluates the dynamic characteristic of the plant using the plant dynamic characteristic program based on the plant dynamic characteristic model.

The plant dynamic characteristic model building method of the present invention for solving the above-mentioned problems is a plurality of element symbols representing each of a plurality of devices used in a plant, which are connected to each other on a display screen (11). (13 to 16), the first step of obtaining the combined information indicating the combined state, and the combined state is compared with a preset combined rule based on the combined information, and the combined state is the combined rule. Violates the combination state, the combination state is compared with a preset combination rule based on the second step of eliminating the combination state, and the combination state violates the combination rule. If not, the third step for maintaining the combined state, the first step, the second step, and the third step are displayed on the display screen with the element symbols (13 to 1).
6) The fourth step which is repeated each time the pieces are connected to each other.

Further, the plant dynamic characteristic model construction method of the present invention includes a plant model (18) represented by a combination of a plurality of element symbols (13 to 16), its connection information, and each of the plurality of devices. And a fifth step of generating a plant dynamic characteristic model for evaluating the dynamic characteristic of the plant based on a plurality of element models expressing the characteristic.

A program according to the present invention for solving the above-mentioned problems includes a plurality of element symbols (13 to 16), which are connected to each other on a display screen (11) and represent each of a plurality of devices used in a plant. , The first step of acquiring the binding information indicating the binding state, and based on the binding information,
Compare the combined state with the preset combined rule,
When the combined state violates the combined rule, the second step of eliminating the combined state and the combined state are compared with the preset combined rule based on the combined information, and the combined state is Does not violate the combination rule, the third step for maintaining the combined state, the first step, the second step, and the third step are displayed on the display screen (11) with the element symbol (13 ... 16) A fourth step that is repeated each time each other is connected, a plant model represented by a combination of a plurality of element symbols (13 to 16), the connection information, and the characteristics of each of the plurality of devices. And a fifth step of generating a plant dynamic characteristic model for evaluating the dynamic characteristic of the plant based on the plurality of element models.

The plant dynamic characteristic model construction method and program described above can change the order of each step within a range in which no contradiction occurs.

[0022]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a plant dynamic characteristic model building system, a plant dynamic characteristic simulator and a plant dynamic characteristic model building method according to the present invention will be described below with reference to the accompanying drawings. In this example,
A plant dynamic characteristic model building system, a plant dynamic characteristic simulator and a plant dynamic characteristic model building method used in a chemical plant will be described as an example, but can be applied to other types of plants such as a power plant. . Note that the same or corresponding portions in the respective embodiments will be described with the same reference numerals.

First, a plant dynamic characteristic model building system, a plant dynamic characteristic model building method, and a plant dynamic characteristic simulator having the same according to the present invention will be described. FIG. 1 is a diagram showing a configuration in an embodiment of a plant dynamic characteristic model building system and a plant dynamic characteristic model building method according to the present invention, and a plant dynamic characteristic simulator having them.

A plant dynamic characteristic simulator 1 including a plant dynamic characteristic model building system comprises a simulation section 2, a display section 3 and an input section 7. The simulation unit 2 includes an automatic generation unit 4, a dynamic characteristic calculation processing unit 5,
The combination rule database 6 and the element model database 8 are provided.

In the system for constructing a plant dynamic characteristic model of the present invention, the creator of the plant dynamic characteristic model (hereinafter referred to as "creator") uses the input unit 7 on the display unit 3 to display each device constituting the plant. Element symbol shown (hereinafter "element symbol")
Are combined one after another to create a combination of a set of element symbols (hereinafter “plant model”). Then, the plant dynamic characteristic model building system automatically completes the plant dynamic characteristic model based on the plant model. The creator is
When creating a plant model, if the combining rules are violated, the element symbols cannot be combined. Therefore,
If the element symbols can be combined and a plant model can be created on the display unit 3, it is possible to automatically complete the plant dynamic characteristic model without subsequent examination.

In this case, the creator only has to combine the element symbols and does not need special knowledge or skill and can easily construct the plant model. Further, when the connection rule between the element symbols is violated, it is rejected immediately, so that it is possible to eliminate the waste of time as in the case where the inspection is performed after the plant model is completed. Then, the plant dynamic characteristic simulator of the present invention can perform the operation calculation of the plant dynamic characteristic based on the obtained plant model, using the automatically completed plant dynamic characteristic model as it is.

Each configuration of FIG. 1 will be described. Display 3
Is CRT (Cathode-Ray Tube) or L
CD (Liquid Crystal Display)
The display device illustrated in y) belongs to the plant dynamic characteristic simulator 1. The element symbol is displayed on the screen. Details will be described later. Further, it is possible to display the results of various processes in the simulation unit 2 (described later).

The input unit 7 is an input device exemplified by a keyboard and a mouse, and belongs to the plant dynamic characteristic simulator 1. The operation of the element symbols displayed on the display unit 3 is performed by operating the keyboard or the mouse (exemplification: selection of element symbols, coupling of element symbols). Further, data required for various processes in the simulation unit 2 is input.

The simulation unit 2 is an information processing device exemplified by a workstation and belongs to the plant dynamic characteristic simulator 1. Processing for constructing a plant dynamic characteristic model and dynamic characteristic calculation processing based on the plant dynamic characteristic model are performed. It has an automatic generation unit 4 which is a program and a dynamic characteristic calculation processing unit 5, and is equipped with a connection rule database 6 and an element model database 8.

The automatic generation unit 4 performs a process for constructing a plant dynamic characteristic model by the creator selecting and combining element symbols on the display unit 3. That is, an element symbol is selected (generated) on the display unit 3 by the input work of the operator from the input unit 7 and is combined. Then, the connection information representing the connection state is extracted therefrom, and the connection rule database 6
Compare with the combining rule (described later). When the combination information violates the combination rule (inappropriate combination), the element symbols are separated (not combined) from each other on the display unit 3, and the reason why the combination cannot be performed is displayed. When the combination information does not violate the combination rule (the combination is proper), the combination of the element symbols is maintained on the display unit 3. Then, based on the completed plant model, the element model of each device (eg, pump, valve) corresponding to each element symbol is retrieved from the element model database 8 (described later) and combined to complete the plant dynamic characteristic model. The completed plant dynamic characteristic model is output to the dynamic characteristic calculation processing unit 5 (described later).

The dynamic characteristic calculation processing section 5 includes a plant dynamic characteristic program. Then, the plant dynamic characteristic model is input as a data file, and the dynamic characteristic of the plant is simulated. The result of the simulation is displayed on the display unit 3.
Or other output device (not shown). A conventionally used program can be used as the plant dynamic characteristic program.

The combination rule database 6 has a combination rule as a criterion for judging the appropriateness of the combination of element symbols. The coupling rule is, for example, that another pump cannot be directly coupled to the pump, that there is a device before and after the piping, and that a device for gas cannot be connected to a device for water. The combination rule database 6 may be included in the automatic generation unit 4.

The element model database 8 has an element model for simulating the dynamic characteristics of each device corresponding to each element symbol. As the element model, a general-purpose element model used in a conventional plant dynamic characteristic program can be used. The element model database 8 may be included in the automatic generation unit 4.

Next, the display screen on the display unit 3 will be described. FIG. 2 is a diagram showing a display screen 11 of the display unit 3 relating to the embodiment of the plant dynamic characteristic model building system, the plant dynamic characteristic simulator, and the plant dynamic characteristic model building method of the present invention. The display screen 11 includes an element symbol table 17 and a plant model creation area 12.

The element symbol table 17 includes an element symbol A13 indicating a pump, an element symbol B14 indicating a valve, an element symbol C15 indicating a tank, and an element symbol D16 indicating piping. These serve as templates in the process of creating a plant model. However, the element symbols are not limited to these, and other various plant constituent devices can be displayed by operations such as scrolling the element symbol table 17 and selecting from a pull-down menu (not shown). It is possible. Other constituent devices include, for example, a reaction device, a distillation device, a heat exchanger, a gas-liquid separator, and the like.

A set of element symbols in the element symbol table 17 is stored in a storage unit (not shown) of the automatic generation unit 4 for each type of plant for which a plant model is created. Then, when the work of creating the plant model is started, a desired element symbol set is selected and displayed by inputting the plant type. As a result, unnecessary element symbols are not displayed, making it easier to select the required element symbol and improving workability.

Further, when the element symbol table 17 is displayed on the display screen 11, the automatic generation unit 4 uses the element symbols (templates) in descending order of frequency of use when the plant model was generated last time by the type of the plant. ) Are rearranged and displayed. As a result, it becomes easier to select an element symbol that is frequently used, and workability can be improved. It is also possible for the worker to rearrange during the work.

The plant model creation area 12 is a work area for creating a plant model by combining the respective element symbols extracted from the element symbol table 17. The operator can create the plant model by dragging each element symbol with the mouse (the input unit 7), moving it to the plant model creating area 12, and dropping it at an appropriate position. Further, by right-clicking the mouse, a list of element symbols (eg, list of element symbol names, list of small element symbols) can be displayed on the display screen 11. At that time, the operator performs the operation of selecting the desired element symbol in the list (by moving the mouse pointer to (the name of) the desired element symbol in the list and left-clicking) The element symbol of can be displayed in the plant model creation area 12. Displaying, moving, copying, and the like of the element symbols on the screen can be performed by a conventionally known method.

When the plant model is created, the automatic generation unit 4 checks whether or not the combination rule is violated in order to connect the element symbols. If there is no violation, the bond between the element symbols is maintained. If there is a violation, the element symbols are separated from each other on the display screen 11 and cannot be combined. Then, a warning (example: cannot be combined due to a combination rule violation) is displayed on the screen. In FIG. 2, as an example, a plant model creation example 18 (pipe-valve-pipe-pump-pipe)
Is shown.

Next, the operation of the embodiment of the plant dynamic characteristic model building system, plant dynamic characteristic simulator and plant dynamic characteristic model building method according to the present invention will be described. FIG. 3 is a flow chart showing the operation in the embodiment of the plant dynamic characteristic model building system, the plant dynamic characteristic simulator, and the plant dynamic characteristic model building method according to the present invention.

Construction of a plant dynamic characteristic model and plant dynamic characteristic simulation will be described below. (0) Start: The operator specifies the type of plant. Thereafter, on the display screen 11, an element symbol table 17 which is a set of element symbols (templates) for a desired plant is displayed. The operator selects a certain element symbol using the element symbol table 17, and selects the plant model work area 1
At 2, start creating a plant model. (1) Step S1: The automatic generation unit 4 represents the connection information between the element symbols at the time when the connection between the element symbols occurs on the display screen 11 (example: the pump A and the pipe B are connected). Information). However, even before the join occurs, if the join can be predicted when the element symbol to be joined is selected (if there is one join method), it is possible to use it as the join information. Is. (2) Step S2: The automatic generation unit 4 compares the acquired combining information with the combining rule to determine whether or not the combining rule is met. When they do not match (eg, the pump is connected immediately after the pump), the process proceeds to step S3. If they match, the process proceeds to step S4. (3) Step S3: Since the combination does not conform to the combination rule, the automatic generation unit 4 separates the element symbols from each other on the display screen 11 and does not combine them (does not approach a certain distance or less). Then, a warning is issued on the display screen 11. The warning may simply display that the combination rule is violated.
Alternatively, in addition to the mere warning, the content of the violated rule may be displayed together. In that case, it can help the operator's understanding. (4) Step S4: Since the combination conforms to the combination rule, the automatic generation unit 4 maintains the combination of the element symbols on the display screen 11. (5) Step S5: The automatic generation unit 4 determines whether or not the worker has completed the plant model. That is, when the worker performs the process of ending the creation of the preset plant model (example: pressing a preset key, selecting the end of creation from the pull-down menu), the automatic generation unit 4 causes the plant Judge that the model is completed.
When completed, the process proceeds to step S6. When the worker selects the element symbol again on the display screen 11 and combines it with the plant model of the plant work area 12, the automatic generation unit 4 determines that the plant model is not completed. If not completed, the process returns to step S1. (6) Step S6: Based on the completed plant model, the automatic generation unit 4 combines information about the piping and each device in the plant model, and information unique to each device element of the piping and each device (example: In the case of a pump, a plant dynamic characteristic model is completed by combining element models with numerical data such as rotation speed, discharge pressure, and flow rate). The automatic generation unit 4 outputs the completed plant dynamic characteristic model to the dynamic characteristic calculation processing unit 5.

The dynamic characteristic calculation processing section 5 simulates the dynamic characteristic of the plant by using the plant dynamic characteristic model output from the automatic generation section 4 as an input data file. The result of the simulation is output to the display unit 3 and other output devices (not shown).

By using the system of the present invention, even a worker who is not familiar with the plant dynamic characteristic program or an operator who is not skilled in creating a plant dynamic characteristic model can display the display screen 1
The plant model can be easily created by performing the work of combining the element symbols on 1. Further, in the present system, since the plant dynamic characteristic model is automatically generated using the plant model, the worker can easily create the plant dynamic characteristic model.

Further, the present system immediately points out the violation of the joining rule when the plant model is created. Therefore, by following the indication, even an operator who is not skilled in creating a plant dynamic characteristic model can efficiently create an appropriate plant model in a short time.

Furthermore, this system makes it possible to easily create a data file of a plant dynamic characteristic model. Therefore, even if the user is not skilled in the plant dynamic characteristic program, it is possible to perform the plant dynamic characteristic model creation to the plant dynamic characteristic analysis.

[0046]

According to the present invention, a plant dynamic characteristic model can be efficiently and easily created in a short time even if the user is not familiar with the plant dynamic characteristic program or is not skilled in creating the plant dynamic characteristic model. , It becomes possible to analyze the plant dynamic characteristics based on it.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration in an embodiment of a plant dynamic characteristic model construction system, a plant dynamic characteristic simulator, and a plant dynamic characteristic model construction method according to the present invention.

FIG. 2 is a plant dynamic characteristic model construction system of the present invention;
It is a figure which shows the display screen of the display part regarding embodiment of a plant dynamic characteristic simulator and a plant dynamic characteristic model construction method.

FIG. 3 is a flowchart showing an operation in the embodiment of the plant dynamic characteristic model building system, the plant dynamic characteristic simulator, and the plant dynamic characteristic model building method according to the present invention.

[Explanation of symbols]

1 Plant dynamic characteristics simulator 2 simulation department 3 Display 4 Automatic generation unit 5 Dynamic characteristic calculation processing unit 6 join rule database 7 Input section 8 element model database 11 Display screen 12 Plant model creation area 13 element symbol A 14 Element symbol B 15 element symbol C 16 element symbol D 17 element symbol table 18 Example of creating plant model

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Claims (9)

[Claims] 1. A display unit capable of displaying a plurality of element symbols including a first element symbol and a second element symbol, each of which represents each of a plurality of elements usable in a plant, and is displayed on the display unit. An input unit for designating the second element symbol to be coupled to the first element symbol, a coupling rule database storing a rule for coupling the element symbols to each other, and the coupling in response to the designation With reference to the rule database, it is determined whether or not the combination of the first element symbol and the second element symbol conforms to the rule, and if they match, the first element symbol is displayed on the display unit. The one-element symbol and the second element symbol are combined and shown, and when they do not match,
A plant dynamic characteristic model construction system comprising: an automatic generation unit that indicates that they do not match. 2. The automatic generation unit uses the set of element symbols set for each type as a template for creating the plant model of the plant based on the input of the type of the plant. The plant dynamic characteristic model construction system according to claim 1, which is displayed on the screen. 3. The plant dynamic characteristic model building system according to claim 2, wherein the automatic generation unit displays the templates side by side in descending order of frequency of use when the plant model of the type was previously created. 4. The input unit includes a mouse, and the automatic generation unit displays a list of the element symbols on the display unit by right-clicking the mouse, and the element in the list of the mouse is displayed. By the symbol selection operation,
The plant dynamic characteristic model construction system according to claim 1, wherein the element symbol is displayed on the display unit. 5. An element model database having a plurality of element models representing characteristics of each of the plurality of elements, and the plant model represented by a combination of a plurality of the element symbols. And a plant dynamic characteristic model as a model for simulating the dynamic characteristic of the plant, based on the combination information indicating the states of the first element symbol and the second element symbol and the element model. The plant dynamic characteristic model construction system according to any one of claims 1 to 4. 6. A plant dynamic characteristic model building system according to claim 5, and a plant dynamic characteristic program for evaluating the dynamic characteristic of the plant, wherein the plant dynamic characteristic program is based on the plant dynamic characteristic model. A plant dynamic characteristic simulator, comprising: a dynamic characteristic calculation processing unit for evaluating the dynamic characteristic of the plant using the plant. 7. A first step of obtaining combined information representing a combined state of a plurality of element symbols representing each of a plurality of devices used in a plant, which are combined with each other on a display screen, Based on, based on the combination information, comparing the combination state and a preset combination rule, if the combination state violates the combination rule, a second step of eliminating the combination state, Comparing the combined state with a preset combined rule, and maintaining the combined state if the combined state does not violate the combined rule.
And a fourth step of repeating the first step, the second step, and the third step each time the element symbols are combined on the display screen. Method. 8. A dynamic characteristic of the plant is determined based on a plant model represented by a combination of a plurality of the element symbols, the connection information, and a plurality of element models representing characteristics of each of the plurality of devices. The plant dynamic characteristic model construction method according to claim 7, further comprising: a fifth step of generating a plant dynamic characteristic model to be evaluated. 9. A first step of acquiring combined information representing a combined state of a plurality of element symbols representing each of a plurality of devices used in a plant, which are combined with each other on a display screen, Based on, based on the combination information, comparing the combination state and a preset combination rule, if the combination state violates the combination rule, a second step of eliminating the combination state, Comparing the combined state with a preset combined rule, and maintaining the combined state if the combined state does not violate the combined rule.
A step, a fourth step that repeats the first step, the second step, and the third step each time the element symbols are combined on the display screen, and a combination of a plurality of the element symbols. A fifth step of generating a plant dynamic characteristic model for evaluating the dynamic characteristic of the plant based on the plant model, the coupling information, and a plurality of element models representing characteristics of each of the plurality of devices; A program for causing a computer to execute the method comprising: