CN114609984A - Automatic evaluation system and method for execution condition of nuclear power plant operation regulation - Google Patents

Abstract

The invention discloses an automatic evaluation system and method for nuclear power plant operation regulation execution conditions, which comprises the following steps: the system comprises a data gateway, an operation guidance module and a procedure man-machine interface module; the data gateway is used for acquiring the running state data of the nuclear power plant and transmitting the running state data of the nuclear power plant to the operation guidance module; the operation guidance module is used for carrying out logic calculation on the nuclear power plant operation state data by using a rule step logic function to generate a rule evaluation result; the regulation human-computer interface module is used for acquiring the regulation step logic function and the structured regulation text data, transmitting the regulation step logic function to the operation guidance module, and sending the nuclear power plant operation state data, the structured regulation text data and the regulation evaluation result to an operation end for displaying. The system realizes automatic evaluation of the execution condition of the operation regulation of the nuclear power plant.

Description

Automatic evaluation system and method for execution condition of nuclear power plant operation regulation

Technical Field

The invention relates to the technical field of nuclear power plants, in particular to an automatic evaluation system and method for execution conditions of operation regulations of a nuclear power plant.

Background

The operation rules of the nuclear power plant need to be written and finished before commissioning and are approved, and the operation rules are basic written documents used for guiding operators to operate and monitor unit systems and equipment and handle faults and various accidents, and mainly comprise a general operation rule, an alarm response rule, a fault handling rule, an accident handling rule and the like.

At present, most nuclear power plants only adopt paper edition operation regulations, and operators have heavy burden when in use, so that the operation steps are easy to be ignored or even misoperation occurs. Some nuclear power plants are equipped with a Computerized Operating Procedure System (COPS), but the Computerized Operating Procedure System only provides electronic Procedure text data, cannot display real-time data of the state of the nuclear power plant required by the execution Procedure, and further cannot automatically check the Procedure according to the state of the nuclear power plant.

Disclosure of Invention

In view of this, embodiments of the present invention provide an automatic evaluation system and method for nuclear power plant operation regulation execution conditions, so as to solve a problem that a current nuclear power plant operation regulation system cannot automatically check a regulation according to a nuclear power plant state.

The embodiment of the invention provides an automatic evaluation system for execution conditions of operation procedures of a nuclear power plant, which comprises the following steps: the system comprises a data gateway, an operation guidance module and a procedure man-machine interface module;

the data gateway is used for acquiring the running state data of the nuclear power plant and transmitting the running state data of the nuclear power plant to the operation guidance module;

the operation guidance module is used for carrying out logic calculation on the nuclear power plant operation state data by using a regulation step logic function to generate a regulation evaluation result, and transmitting the nuclear power plant operation state data and the regulation evaluation result to the regulation human-machine interface module;

the regulation human-computer interface module is used for acquiring the regulation step logic function and the structured regulation text data, transmitting the regulation step logic function to the operation guidance module, and transmitting the nuclear power plant operation state data, the structured regulation text data and the regulation evaluation result to an operation end for displaying.

Optionally, the operation guidance module is further configured to:

and sending a calling instruction to the regulation database based on the nuclear power plant operation state data.

Optionally, the method further comprises: a procedure database;

the rule database is connected with the rule man-machine interface module and used for storing the structured rule text data and the rule step logic function and transmitting the structured rule text data and the rule step logic function to the rule man-machine interface module based on the calling instruction.

Optionally, the method further comprises: a procedure editing configuration module;

the rule editing configuration module is used for acquiring a rule document and the rule step logic function, recognizing the rule document by using a preset rule template, generating the structured rule text data, and transmitting the structured rule text data and the rule step logic function to the rule database.

Optionally, the method further comprises: a nuclear power plant status database;

the nuclear power plant state database is connected with the operation guidance module and used for storing the nuclear power plant operation state data.

In accordance with the above object, in a second aspect of the present application, there is provided a method for automatically evaluating the execution condition of the operating procedure of a nuclear power plant, including:

acquiring running state data, rule step logic functions and structured rule text data of a nuclear power plant;

performing logic calculation on the nuclear power plant operation state data by using a rule step logic function to generate a rule evaluation result;

and sending the nuclear power plant operation state data, the structured regulation text data and the regulation evaluation result to an operation end for displaying.

Optionally, the method further comprises:

and sending a calling instruction to the regulation human-machine interface module based on the nuclear power plant operation state data.

Optionally, the method further comprises:

storing the structured specification text data and the specification step logic function, receiving a calling instruction, and transmitting the structured specification text data and the specification step logic function to the specification human-computer interface module based on the calling instruction.

Optionally, the method further comprises:

acquiring a procedure document and the procedure step logic function, identifying the procedure document by using a preset procedure template, generating the structured procedure text data, and transmitting the structured procedure text data and the procedure step logic function to the procedure database.

Optionally, the method further comprises:

and storing the nuclear power plant operation state data through a nuclear power plant state database.

The technical scheme of the invention has the following advantages:

1. according to the automatic evaluation system and method for the execution condition of the nuclear power plant operation regulation, the nuclear power plant operation state data is acquired in real time, the nuclear power plant operation state data and the current regulation step information are subjected to logic calculation to generate the regulation evaluation result, and the nuclear power plant operation state data and the regulation evaluation result (whether the judgment and evaluation are in accordance with the expectation or not) are displayed at the operation end, so that the automatic evaluation of the nuclear power plant operation regulation execution condition is realized.

2. The rule editing and configuration module identifies the rule document by using a preset rule template to generate structured rule text data, and configures rule step logic functions corresponding to different rule steps, so that conversion from the paper rule document electronic version file to a computerized rule is realized, the identification efficiency of the rule document is improved, and automatic judgment of the rule evaluation result is realized through the rule step logic functions configured in advance.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a block diagram of an automatic evaluation system for nuclear power plant operating procedure execution according to embodiment 1 of the present invention;

FIG. 2 is a schematic diagram of a conventional expression provided in embodiment 1 of the present invention;

FIG. 3 is a schematic diagram of a conventional expression combination provided in embodiment 1 of the present invention;

FIG. 4 is a schematic diagram of "coincidence relation" in a conventional expression set provided in embodiment 1 of the present invention;

fig. 5 is a schematic diagram of a conventional expression double recombination provided in embodiment 1 of the present invention;

FIG. 6 is a schematic diagram of a conditional expression provided in embodiment 1 of the present invention;

fig. 7 is a schematic diagram of an execution result of a procedure step for finally generating a plurality of types of expressions provided in embodiment 1 of the present invention;

FIG. 8 is an architecture diagram of an automatic evaluation system for nuclear power plant operating procedure execution according to embodiment 1 of the present invention;

fig. 9 is a flowchart of an automatic evaluation method for execution conditions of nuclear power plant operation procedures in embodiment 2 of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, or may be communicated with each other inside the two elements, or may be wirelessly connected or wired connected. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Example 1

Referring to fig. 1, an automatic evaluation system for nuclear power plant operation procedure execution conditions according to an embodiment of the present invention includes: the system comprises a data gateway 1, an operation guidance module 2 and a procedure man-machine interface module 3;

the data gateway 1 is used for acquiring nuclear power plant operation state data and transmitting the nuclear power plant operation state data to the operation guidance module 2; the data gateway 1 receives communication data sent from a nuclear power plant instrument and a Control System, and acquires real-time nuclear power plant operation state data, wherein the Control System may adopt a Distributed Control System (DCS) System.

Further, the data communication mode of the data gateway 1 is unidirectional communication, and a third-party system is prohibited from modifying and operating the data of the DCS through the data gateway 1; the data gateway 1 is accessed to a network of the DCS, an application program adapted to the DCS protocol is installed in the data gateway 1, and the application program converts the nuclear power plant operating state data conforming to the DCS protocol format into data in a general protocol format (for example, OPC-UA protocol format), thereby ensuring format conversion and real-time transmission of the nuclear power plant operating state data.

The operation guidance module 2 is configured to perform logic calculation on the nuclear power plant operation state data by using a regulation step logic function, generate a regulation evaluation result (including an expected response and an unexpected response), and issue the nuclear power plant operation state data and the regulation evaluation result.

For example, the operation guidance module 2 obtains that the pressure value in the current operation schedule of the nuclear power plant operation state data is "7.1 MPa", and the schedule step logic function is "if the pressure value is greater than 7MPa, the result is true (expected response)", and then the schedule step logic function is used to perform logic calculation on "7.1 MPa", and the logic judgment result is "expected response".

The regulation human-computer interface module 3 is used for acquiring the regulation step logic function and the structured regulation text data, transmitting the regulation step logic function to the operation guidance module 2, and sending the nuclear power plant operation state data, the structured regulation text data and the regulation evaluation result to an operation end for displaying.

Specifically, the schedule human-machine interface module 3 subscribes the nuclear power plant operation state data, the structured schedule text data and the schedule evaluation result published by the operation guidance module 2, and dynamically displays the nuclear power plant operation state data, the structured schedule text data and the schedule evaluation result through a COPS operator station (i.e., an operation terminal).

In the embodiment, the running state data of the nuclear power plant is acquired in real time, the running state data of the nuclear power plant and the current regulation step information are logically calculated to generate the regulation evaluation result, and the running state data of the nuclear power plant and the regulation evaluation result (namely whether the running state data of the nuclear power plant and the regulation evaluation result meet the expected judgment and evaluation) are displayed at the operation end, so that the automatic evaluation of the running regulation execution condition of the nuclear power plant is realized.

Preferably, the method further comprises the following steps: a procedure database 4;

the procedure database 4 is used for storing the structured procedure text data and the procedure step logic function, and transmitting the structured procedure text data and the procedure step logic function to the procedure human-machine interface module 3 based on the calling instruction.

Specifically, the operation guidance module 2 sends a calling instruction to the procedure human-machine interface module 3 based on the nuclear power plant operation state data, the procedure human-machine interface module 3 sends the calling instruction to the procedure database 4, the procedure database 4 identifies a current procedure step in the nuclear power plant operation state data in the calling instruction, and calls a structured procedure text data and a procedure step logic function corresponding to the current procedure step based on the current procedure step.

Preferably, the method further comprises the following steps: a rule editing configuration module 5;

the rule editing configuration module 5 is configured to obtain a rule document and the rule step logic function, identify the rule document (MS Word format rule document) by using a preset rule template, generate the structured rule text data (electronic rule text), and transmit the structured rule text data and the rule step logic function to the rule database 4.

Specifically, a paper regulation document is obtained, and the paper regulation document is manually converted into a regulation document in an MS Word format; the rule editing configuration module 5 receives the import of the rule document in the MS Word format, automatically identifies the content and format of the rule based on a preset rule template, and generates structured rule text data, wherein the preset rule template can comprise the current step rule steps and parameters, and can also be manually set according to the actual rule document.

Further, the procedure editing configuration module 5 provides a function of manually compiling procedure step logic functions corresponding to different procedures according to the procedure text, wherein the procedure step logic functions are formed by logic calculation of single or multiple logic expressions; as shown in fig. 2 to 6, the logic expression includes the following types:

A. the conventional relational expression is only a single relational logic expression, and the types of comparison items on the left side of the relational expression can be digital quantity, analog quantity, range quantity, manual work, transfer and the like; when the comparison relationship is satisfied, the regular expression is true, and the 'manual' and 'transfer' do not participate in logic calculation; when the type is 'digital quantity', the comparison object is the process data of the digital quantity, the comparison relation is 'equal to' and the comparison parameter is 0 or 1 Boolean type number; when the type is analog quantity, the comparison object is the process data of the analog quantity, the comparison relation is 'greater than' or 'less than' and the comparison parameter is a numerical parameter; when the type is 'range quantity', the comparison object is the process data of the analog quantity, and the comparison parameters are the upper limit parameters and the lower limit parameters of the process parameters, which are numerical parameters; when the type is 'manual', the content of the expression is a prompt text for personnel; when the type is 'turn to', the content of the expression is a link to other steps of the procedure or other procedures;

B. the conventional expression combination is an expression formed by logically combining a plurality of single-term relational expressions, and the logical combination relation can be an AND relation (namely, logical AND operation), an OR relation (namely, logical OR operation), and an OR relation (namely, logical coincidence operation of 'coincidence relation', and 'M-taking n', namely, at least n of the M relational expressions are true, the result is true, and the rest expressions are false);

C. the conventional expression double recombination is an expression formed by combining a plurality of relational expressions through second logic combination, and the logic combination relation is the same as the logic combination relation of the conventional expression combination;

D. the conditional expression is combined according to the relational expression of the IF-THEN structure or the IF-THEN-ELSE structure; IF the front piece is true and THEN the back piece is true, the conditional expression result is true; IF the front piece is true and the THEN back piece is false, the conditional expression result is false; IF the front-part is false and no ELSE back-part or ELSE back-part is true, the conditional expression result is true; IF the IF front-piece is false and ELSE back-piece is false, then the conditional expression result is false.

Further, referring to fig. 7, a plurality of logic expressions of the above type are subjected to logical and or logical or calculation to finally generate procedure step execution results, and if the final logic calculation result is true, it indicates that the procedure step execution results meet expectations; if the result is false, the execution result of the procedure step is not in accordance with the expectation.

In the embodiment, the rule editing and configuration module identifies the rule document by using the preset rule template to generate the structured rule text data, and configures the rule step logic functions corresponding to different rule steps, so that the conversion from the paper rule document electronic version file to the computerized rule is realized, the identification efficiency of the rule document is improved, and the automatic judgment of the rule evaluation result is realized through the pre-configured rule step logic functions.

Preferably, the method further comprises the following steps: a nuclear power plant status database 6;

the nuclear power plant state database 6 is connected with the operation guidance module 2 and used for storing the nuclear power plant operation state data.

Specifically, the nuclear power plant status database 6 provides a service of a real-time/historical database, wherein the nuclear power plant status database 6 is a time sequence database, the nuclear power plant operation status data is collected at regular time sequence points along with time, and a basic data (i.e., nuclear power plant operation status data) structure of each time sequence point includes data occurrence time, current data identification and data numerical value, and generates time sequence data.

Referring to fig. 8, the operation of the automatic monitoring system for the evaluation result of the nuclear power plant operation procedure is described below by a specific embodiment.

It should be noted that the protocol human-machine Interface module is connected to the operation end through an API (Application Programming Interface) or a Websocket (a protocol for performing full duplex communication on a single TCP connection), where a user interaction Interface layer in fig. 8 is the operation end, the platform logic processing layer includes the protocol human-machine Interface module and the operation guidance module, and the data layer includes a nuclear power plant status database and a protocol database (i.e., a protocol library).

The method comprises the steps that a data gateway obtains nuclear power plant operation state data from a nuclear power plant DCS in real time and carries out real-time data processing on the nuclear power plant operation state data; the nuclear power plant operation state data comprises operation parameter codes and operation parameter values;

the data gateway transmits the operation parameter codes and the operation parameter values to the operation guidance module, and the operation guidance module transmits the operation parameter codes and the operation parameter values to the nuclear power plant state database for storage;

the rule editing configuration module runs on a COPS engineer station, carries out identification and analysis processing of rule outline on the paper rule document electronic file, generates structural data of all running rules, and sets corresponding logic configuration data (namely rule step logic functions);

the rule database stores electronized data of all operation rules and corresponding logic configuration data;

the protocol man-machine interface module acquires a current protocol step name, and calls corresponding logic configuration data from a protocol database based on the current protocol step name;

the operation guidance module performs logic calculation by using a logic expression in the logic configuration data based on the procedure parameters of the current procedure step to generate a procedure evaluation result;

storing the rule evaluation result, the rule step logic function and the logic calculation process into a nuclear power plant state database, and binding the data with a current rule step name and a rule parameter corresponding to the data by the nuclear power plant state database to generate current rule step log data;

the procedure man-machine interface module transmits the current procedure step data and the procedure evaluation result to an actuator interface of the operation end for display, and the display content comprises the following steps: selecting and displaying the protocol on a computer screen, providing intra-protocol or inter-protocol navigation links, related parameters within protocol steps, processing protocol step logic, and evaluating the result of the protocol.

Example 2

The embodiment provides an automatic evaluation method for execution conditions of operation procedures of a nuclear power plant, as shown in fig. 9, including:

s901, a data gateway acquires running state data of a nuclear power plant, and a rule step logic function and structured rule text data are acquired by a rule man-machine interface module; the data gateway 1 receives communication data sent from a nuclear power plant instrument and a Control System, and acquires real-time nuclear power plant operation state data, wherein the Control System may adopt a Distributed Control System (DCS) System.

Furthermore, the data gateway performs data communication in a one-way communication mode, and a third-party system is prohibited from performing data modification and operation on the DCS through the data gateway; the data gateway is accessed to a DCS network, an application program matched with a DCS protocol is installed in the data gateway, the application program converts the nuclear power plant operation state data conforming to the DCS protocol format into data in a general protocol format (such as an OPC-UA protocol format), and format conversion and real-time transmission of the nuclear power plant operation state data are guaranteed.

S902, performing logic calculation on the nuclear power plant operation state data by using a regulation step logic function, generating a regulation evaluation result (including expected response and unexpected response), and transmitting the nuclear power plant operation state data and the regulation evaluation result to the regulation human-computer interface module.

For example, the operation guidance module 2 obtains that the pressure value in the current operation schedule of the nuclear power plant operation state data is "7.1 MPa", and the schedule step logic function is "if the pressure value is greater than 7MPa, the result is true (expected response)", and then the schedule step logic function is used to perform logic calculation on "7.1 MPa", and the logic judgment result is "expected response".

And S903, the regulation man-machine interface module sends the nuclear power plant operation state data, the structured regulation text data and the regulation evaluation result to an operation end for displaying.

Specifically, the schedule human-machine interface module 3 subscribes the nuclear power plant operation state data, the structured schedule text data and the schedule evaluation result published by the operation guidance module 2, and dynamically displays the nuclear power plant operation state data, the structured schedule text data and the schedule evaluation result through a COPS operator station (i.e., an operation terminal).

In the embodiment, the nuclear power plant operation state data is acquired in real time, the nuclear power plant operation state data and the current regulation step information are subjected to logic calculation to generate the regulation evaluation result, and the nuclear power plant operation state data and the regulation evaluation result (namely whether the operation result accords with the expected judgment evaluation) are displayed at the operation end, so that the automatic evaluation of the nuclear power plant operation regulation execution condition is realized.

Preferably, the method further comprises the following steps:

and the procedure database stores the structured procedure text data and the procedure step logic function, receives a calling instruction, and transmits the structured procedure text data and the procedure step logic function to the procedure human-computer interface module based on the calling instruction.

Specifically, the operation guidance module sends a calling instruction to the regulation man-machine interface module based on the nuclear power plant operation state data, the regulation man-machine interface module sends the calling instruction to the regulation database, the regulation database identifies the current regulation step in the nuclear power plant operation state data in the calling instruction, and the structured regulation text data and the regulation step logic function corresponding to the current regulation step are called based on the current regulation step.

Preferably, the method further comprises the following steps:

the rule editing configuration module acquires a rule document and the rule step logic function, identifies the rule document (MS Word format rule document) by using a preset rule template, generates the structured rule text data (electronic rule text), and transmits the structured rule text data and the rule step logic function to the rule database.

Specifically, a paper regulation document is obtained, and the paper regulation document is manually converted into a regulation document in an MS Word format; the rule editing configuration module receives the import of the rule document in the MS Word format, automatically identifies the content and format of the rule based on a preset rule template, and generates structured rule text data, wherein the preset rule template can comprise the steps and parameters of the current step of the rule and can also be manually set according to the actual rule document.

Further, the procedure editing configuration module 5 provides a function of manually compiling procedure step logic functions corresponding to different procedures according to the procedure text, wherein the procedure step logic functions are formed by logic calculation of single or multiple logic expressions; wherein the logic expression comprises the following types:

A. the conventional relational expression is only a single relational logic expression, and the types of comparison items on the left side of the relational expression can be digital quantity, analog quantity, range quantity, manual work, transfer and the like; when the comparison relationship is satisfied, the regular expression is true, and the 'manual' and 'transfer' do not participate in logic calculation; when the type is 'digital quantity', the comparison object is the process data of the digital quantity, the comparison relation is 'equal to' and the comparison parameter is 0 or 1 Boolean type number; when the type is analog quantity, the comparison object is the process data of the analog quantity, the comparison relation is 'greater than' or 'less than' and the comparison parameter is a numerical parameter; when the type is 'range quantity', the comparison object is the process data of the analog quantity, and the comparison parameters are the upper limit parameters and the lower limit parameters of the process parameters, which are both numerical parameters; when the type is 'manual', the content of the expression is a prompt text for personnel; when the type is 'turn to', the content of the expression is a link to other steps of the procedure or other procedures;

B. the method comprises the following steps of combining conventional expressions, namely, logically combining a plurality of single-term relational expressions to form an expression, wherein the logical combination relation can be an AND relation (namely logical AND operation), an OR relation (namely logical OR operation) and a coincidence relation (M takes n logical coincidence operation, namely at least n of the M relational expressions takes true, the result is true, and the rest expressions are false);

C. the conventional expression double recombination is an expression formed by combining a plurality of relational expressions through second logic combination, and the logic combination relation is the same as the logic combination relation of the conventional expression combination;

D. the conditional expression is combined according to the relational expression of the IF-THEN structure or the IF-THEN-ELSE structure; IF the front piece is true and THEN the back piece is true, the conditional expression result is true; IF the front piece is true and the THEN back piece is false, the conditional expression result is false; IF the front-part is false and no ELSE back-part or ELSE back-part is true, the conditional expression result is true; IF the IF front-piece is false and ELSE the back-piece is false, then the conditional expression result is false.

Further, referring to fig. 7, a plurality of logic expressions of the above type are subjected to logical and or logical or calculation to finally generate procedure step execution results, and if the final logic calculation result is true, it indicates that the procedure step execution results meet expectations; if false, the execution result of the procedure step is not in accordance with the expectation.

In the embodiment, the rule document is identified by using the preset rule template to generate the structured rule text data, and the rule step logic functions corresponding to different rule steps are configured, so that the conversion from the paper rule document electronic version file to the computerized rule is realized, the identification efficiency of the rule document is improved, and the automatic judgment of the rule evaluation result is realized through the pre-configured rule step logic functions.

Optionally, the method further comprises:

and storing the nuclear power plant operation state data through a nuclear power plant state database.

Specifically, the nuclear power plant state database provides services of a real-time/historical database, wherein the nuclear power plant state database is a time sequence database, the nuclear power plant operation state data is collected at regular time sequence points along with the time, and a basic data (namely, the nuclear power plant operation state data) structure of each time sequence point comprises the data occurrence time, the current data identification and the data numerical value, so as to generate the time sequence data.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (10)

1. An automatic evaluation system for nuclear power plant operating procedure execution, comprising: the system comprises a data gateway, an operation guidance module and a procedure man-machine interface module;

the data gateway is used for acquiring the running state data of the nuclear power plant and transmitting the running state data of the nuclear power plant to the operation guidance module;

the operation guidance module is used for performing logic calculation on the nuclear power plant operation state data by using a regulation step logic function to generate a regulation evaluation result, and transmitting the nuclear power plant operation state data and the regulation evaluation result to the regulation human-computer interface module;

the regulation human-computer interface module is used for acquiring the regulation step logic function and the structured regulation text data, transmitting the regulation step logic function to the operation guidance module, and sending the nuclear power plant operation state data, the structured regulation text data and the regulation evaluation result to an operation end for displaying.

2. The system of claim 1, wherein the operation guidance module is further configured to:

and sending a calling instruction to the regulation human-machine interface module based on the nuclear power plant operation state data.

3. The system of claim 2, further comprising: a procedure database;

the rule database is connected with the rule man-machine interface module and used for storing the structured rule text data and the rule step logic function and transmitting the structured rule text data and the rule step logic function to the rule man-machine interface module based on the calling instruction.

4. The system of claim 1, further comprising: a procedure editing configuration module;

the rule editing configuration module is used for acquiring a rule document and the rule step logic function, recognizing the rule document by using a preset rule template, generating the structured rule text data, and transmitting the structured rule text data and the rule step logic function to the rule database.

5. The system of claim 1, further comprising: a nuclear power plant status database;

the nuclear power plant state database is connected with the operation guidance module and used for storing the nuclear power plant operation state data.

6. A method for automatically evaluating the execution condition of the operation regulation of a nuclear power plant is characterized by comprising the following steps:

acquiring running state data of a nuclear power plant, rule step logic functions and structured rule text data;

performing logic calculation on the nuclear power plant operation state data by using a rule step logic function to generate a rule evaluation result;

and sending the nuclear power plant operation state data, the structured regulation text data and the regulation evaluation result to an operation end for displaying.

7. The method of claim 6, further comprising:

and sending a calling instruction to the regulation human-machine interface module based on the nuclear power plant operation state data.

8. The method of claim 7, further comprising:

storing the structured protocol text data and the protocol step logic function, receiving a calling instruction, and transmitting the structured protocol text data and the protocol step logic function to the protocol man-machine interface module based on the calling instruction.

9. The method of claim 6, further comprising:

acquiring a procedure document and the procedure step logic function, identifying the procedure document by using a preset procedure template, generating the structured procedure text data, and transmitting the structured procedure text data and the procedure step logic function to the procedure database.

10. The method of claim 6, further comprising:

and storing the nuclear power plant operation state data through a nuclear power plant state database.

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