CN115759993A - Risk management method, server and client for nuclear power engineering project - Google Patents

Abstract

The invention relates to a risk management method, a server and a client for a nuclear power engineering project, wherein the risk management method comprises the following steps: when the first user is judged to have the process initiating right according to the identity information of the first user, receiving risk management initiating information of the nuclear power engineering project input by the first user from a first client, and determining task information of each flow approval node by combining a preset flow approval rule; when the second user is judged to have task information to be processed according to the identity information of the second user, corresponding task information is sent to a second client; and receiving examination and approval information or transfer information input by a second user from a second client, and updating the task state of the corresponding transfer examination and approval node according to the examination and approval information or the transfer information. Through the technical scheme, the risk management of the electronic full flow of the engineering reconstruction project is realized, the potential risk and deviation in the reconstruction process are reduced, the human input is reduced, and the efficiency is improved.

Description

Risk management method, server and client for nuclear power engineering project

Technical Field

The invention relates to the field of nuclear power, in particular to a risk management method, a server and a client for a nuclear power engineering transformation project.

Background

At present, when engineering projects of a nuclear power plant are modified, EXCEL identification sheets are manually filled in risk management and tracking management, various levels are circulated in a paper mode to carry out signing and examination, and manually necessary risk tracking is carried out according to the risk level after examination. The whole process is long in time consumption and low in efficiency, and the control deviation is easy to occur in manual work.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a risk management method, a server and a client for a nuclear power engineering project, aiming at the defects of long time consumption, low efficiency and easy occurrence of control deviation in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a risk management method for a nuclear power engineering transformation project is constructed, and is applied to a server, and the method comprises the following steps:

step S11, receiving login information of a first user from a first client, and determining identity information of the first user according to the login information of the first user;

step S12, when the first user is judged to have the process initiation right according to the identity information of the first user, receiving risk management initiation information of the nuclear power engineering project input by the first user from the first client, and determining task information of each flow approval node by combining a preset flow approval rule, wherein the task information comprises: the system comprises task contents, task states and an approver, wherein the task states comprise to-do and done;

step S13, receiving login information of a second user from a second client, and determining identity information of the second user according to the login information of the second user;

step S14, when the second user is judged to have task information to be dealt with according to the identity information of the second user, corresponding task information is sent to the second client;

and step S15, receiving examination and approval information or transfer information input by the second user from the second client, and updating the task state of the corresponding transfer examination and approval node according to the examination and approval information or the transfer information.

Preferably, the approver of the task information of each flow approval node is determined according to the following modes:

and determining the position information of the first user according to the identity information of the first user, and determining an approver of the task information of each circulation node according to the position information of the first user.

Preferably, the method further comprises the following steps:

step S21, receiving login information of a third user from a third client, and determining identity information of the third user according to the login information of the third user;

step S22, receiving the query condition input by the third user from the third client when the third user is judged to have the query right according to the identity information of the third user;

and step S23, acquiring a corresponding query result according to the query condition, and sending the query result to the third client.

Preferably, the method further comprises the following steps:

step S24, receiving a derivation instruction input by the third user from the third client;

and S25, exporting the query result according to the export instruction.

The invention also constructs a risk management method of the nuclear power engineering project, which is applied to the first client and comprises the following steps:

step A11, receiving login information input by a first user, and sending the login information to a server so that the server determines identity information of the first user according to the login information of the first user;

step A12, when the first user has a process initiation right, receiving risk management initiation information of the nuclear power engineering project input by the first user, and sending the risk management initiation information to a server, so that the server determines task information of each flow approval node by combining a preset flow approval rule, wherein the task information comprises: the task management system comprises task content, task states and an approver, wherein the task states comprise a to-do state and an already-done state.

Preferably, the method further comprises the following steps:

step A13, receiving a query condition input by the first user, and sending the query condition to the server so that the server obtains a corresponding query result according to the query condition;

step A14; and receiving the query result from the server and outputting the query result.

Preferably, the method comprises the following steps:

step B11, receiving login information input by a second user, and sending the login information to a server so that the server can determine identity information of the second user according to the login information of the second user;

step B12, when the second user has task information to be dealt with, receiving corresponding task information from a server;

and step B13, receiving examination and approval information or transfer information input by the second user, and sending the examination and approval information or the transfer information to a server so that the server updates the task state of the corresponding flow examination and approval node according to the examination and approval information or the transfer information.

Preferably, the method further comprises the following steps:

step B14, receiving the query condition input by the second user, and sending the query condition to the server so that the server obtains a corresponding query result according to the query condition;

step B15; and receiving the query result from the server and outputting the query result.

The invention also provides a server comprising a first processor which, when executing a stored first computer program, carries out the steps of the above-described method of risk management for a nuclear power engineering project.

The invention also constructs a client comprising a second processor implementing the steps of the above-described method of risk management of a nuclear power engineering project when executing a stored second computer program.

According to the technical scheme provided by the invention, the risk management of the electronic full flow of the engineering reconstruction project is realized, the potential risk and deviation in the reconstruction process are reduced, the human input is reduced, and the efficiency is improved.

Drawings

In order to illustrate the embodiments of the invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings may be derived from them by a person skilled in the art without inventive effort. In the drawings:

FIG. 1 is a flow chart of a first embodiment of a risk management method for a nuclear power engineering project of the present invention;

FIG. 2A is a flow chart of a first embodiment of the flow approval process of the present invention;

FIG. 2B is a flowchart of a second embodiment of the flow approval process of the present invention;

FIG. 2C is a flowchart of a third embodiment of a flow approval process of the present invention;

FIG. 2D is a flowchart of a fourth embodiment of a flow approval process of the present invention;

FIG. 2E is a flow chart of a fifth embodiment of the flow approval process of the present invention;

FIG. 3 is a flowchart of a second embodiment of a risk management method for a nuclear power engineering project of the present invention;

FIG. 4 is a flowchart of a third embodiment of a risk management method for a nuclear power engineering project.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

When risk management is carried out on nuclear power engineering transformation projects, the existing paper circulation mode is long in time consumption and low in efficiency, and management and control deviation easily occurs in manual work. Aiming at the technical problem, the full-flow management of the project risk is realized by developing an electronic informatization system (comprising a server and a plurality of clients), so that the working efficiency can be improved, each project risk is timely and effectively managed and controlled, and the management and control deviation is avoided.

Fig. 1 is a flowchart of a first embodiment of a risk management method for a nuclear power engineering project according to the present invention, where the risk management method is applied to a server, and the server is in communication with a plurality of clients, and is capable of receiving and processing information from each client, and performing a corresponding response according to a request from the client. The risk management method of this embodiment includes the steps of:

step S11, receiving login information of a first user from a first client, and determining identity information of the first user according to the login information of the first user;

step S12, when the first user is judged to have the process initiation right according to the identity information of the first user, receiving risk management initiation information of the nuclear power engineering project input by the first user from the first client, and determining task information of each flow approval node by combining a preset flow approval rule, wherein the task information comprises: the system comprises task contents, task states and an approver, wherein the task states comprise to-do and done; it should be noted that the task state of each piece of task information is initially pending, and the task state is changed to pending only after approval by the corresponding approver.

Step S13, receiving login information of a second user from a second client, and determining identity information of the second user according to the login information of the second user;

step S14, when the second user is judged to have task information to be dealt with according to the identity information of the second user, corresponding task information is sent to the second client;

and step S15, receiving examination and approval information or transfer information input by the second user from the second client, and updating the task state of the corresponding transfer examination and approval node according to the examination and approval information or the transfer information.

In the technical scheme of the embodiment, the risk management of the electronic full flow of the engineering reconstruction project is realized, the potential risk and deviation in the reconstruction process are reduced, the human input is reduced, and the efficiency is improved.

With regard to the above embodiments, it is further noted that:

regarding step S11 and step S13, there are a plurality of clients, which are distributed to various types of users, where the types of users include: designers of the design organization, construction managers of the construction management support organization, daily secretaries, supervisors of a third party, system administrators, and the like. Moreover, different users have different permissions, and the permission information can be assigned or modified by a system administrator. In addition, the client can be a PC (personal computer) client, and can also be a mobile client such as a mobile phone and a PAD (PAD application program). When the user uses the risk management system, the user can log in by using information such as own account number, password and the like. The server can verify the login information of the user, and if the login information passes the verification, the client can enter the home page of the risk management system.

With respect to step S12, first, the first user may initiate a corresponding process by clicking a corresponding control, and the initiated process may include: risk identification flow, risk measure tracking flow, rectification flow, package checking flow and abnormal event rapid feedback flow, wherein the risk identification flow comprises the following steps: a risk identification process in a design stage, a risk identification process in an implementation preparation stage, and a risk identification process in an implementation stage.

Secondly, different users have different process initiation permissions, for example, designers of a design unit have the initiation permission of a risk identification process in a design stage; the construction management personnel of the construction management receiving unit has the initiating authority of the risk identification process of the implementation preparation stage; the daily secretary has the initiating authority of the risk identification process in the implementation stage; a certain third party monitoring person has the initiating authority of the rectification process; and a certain third-party monitor has the initiating authority of the package examining process.

In addition, before initiating the process, modification basic information should be input by a user or imported from a nuclear power engineering modification project system, and the modification basic information specifically includes: the modification project number, the modification project name, the unit number, the system, the specialty (electrical, instrumentation, mechanical, etc.), the implementation window (overhaul, daily), the submitter and the submission date. Moreover, different processes correspond to different risk management initiation information, for example, the risk management initiation information corresponding to the initiation risk identification process includes: the method comprises the following steps of modifying project numbering, modifying project name, risk identification item (type), risk type (design risk, implementation preparation risk, implementation risk), risk elements (human, machine, material, law, ring and measurement), risk grade (green, yellow and red), risk measures (if the risk grade is yellow and red, corresponding risk measures need to be filled), state (entering is completed, approval is in process, approval is passed and the like, and the risk grade is empty initially), submitter, submission date and the like. Moreover, when the state of the risk measure is incomplete, the risk measure tracking process needs to be triggered; when the risk type is changed from yellow and red to green, only the upgrade process is needed. The risk management initiating information corresponding to the initiating rectification process comprises: modified project number, violation object, violation scope (quality management, modification management, experience feedback), violation classification (violation rectification, task management, contract business), rectification type (e.g., notice), responsible entity, responsible person, specialty, status (in approval, validated, closed validation), submitter, date of submission; the risk management initiating information corresponding to the process of initiating the package examination comprises the following steps: a modification project number, a work ticket number, a modification project name, a state (in approval and completed), a submitter and a submission date; initiating the risk management initiating information corresponding to the abnormal event rapid feedback process comprises the following steps: number, event subject, event classification (equipment, human security, etc.), unit of responsibility, status (in approval, completed), submitter, date of submission.

Finally, different flow correspondence has different flow approval rules, for example, the flow approval rule of the risk identification flow is: as shown in fig. 2A, the responsible person (responsibility engineer) firstly performs approval, if yellow and red risks are involved, the chief deputy further performs approval, and after approval of the chief deputy, if red risks are involved, the manager finally performs approval, so that the task content and the approver of each flow approval node of the process can be determined; the circulation rule of the risk measure tracking flow is as follows: as shown in fig. 2B, the responsible person performs approval (or edition upgrading), if yellow and red risks are involved, the chief manager further performs approval (or edition upgrading), and if red risks are involved, the manager finally performs approval (or edition upgrading), so that the task content and the approver of each flow approval node of the process can be determined, and it is further illustrated that if the state of the risk measure is completed, the risk measure tracking process is ended; if the risk level is changed from yellow and red to green, a new risk measure tracking flow is generated; the flow rule of the rectification flow is as follows: as shown in fig. 2C, after the sponsor proposes an application, the chief manager/manager performs approval (application), if yes, the responsible person performs the proof of modification, the sponsor performs verification, and if yes, the chief manager/manager performs approval (closing), if yes, the process is closed, thereby determining the task content and the approver of each flow approval node of the process; the circulation rule of the package examination process is as follows: as shown in fig. 2D, after the process is started, the approval quality and the approval safety of the construction package are respectively determined, so that the task content and the approver of each flow approval node of the process can be determined; the circulation rule of the abnormal event rapid feedback process is as follows: as shown in fig. 2E, the responsibility engineer performs approval (application), if the responsibility engineer agrees, the chief manager performs approval (application), if the chief manager agrees, the action performer closes when the completion of the rectification is determined, and then the responsibility engineer performs approval (closing), and if the responsibility engineer agrees, the chief manager performs approval (closing), and thus the task to be handled and the approver of the approval process can be determined.

In step S14, after the server determines the identity information of the second user, it may be determined, by combining the task information of each circulation approval node, whether the second user has a task to be handled, that is, whether the identity information of the second user is consistent with the approver of the task to be handled in the task information, and if so, the task information to be handled is sent to the second user.

In step S15, after the second user receives the task to be handled through the second client, the second user may approve and transfer the task to be handled. Moreover, the corresponding approval information may not be the same for different processes and different users. For example, for the risk identification process, the responsibility engineer may input an approval conclusion (approval or disapproval), an approval opinion (in text form, and when the approval conclusion selects "approval," the approval opinion is not necessarily filled in; when the approval conclusion selects "disapproval," the approval opinion is necessarily filled in), and then click the "submit" button. In addition, if the responsibility engineer allows the referral to others, the "referral" button may also be clicked. For another example, for the risk measure tracking process, the sponsor may enter an approval conclusion (closed or upgraded), a description (in text form), and may upload necessary accessories, and then the responsibility engineer may enter the approval conclusion (agreement or disagreement), approval opinions (in text form, and when the approval conclusion selects "agreement", the approval opinions do not have to be filled in, and when the approval conclusion selects "disagreement", the approval opinions have to be filled in), and then click the "submit" button. In addition, if the responsibility engineer allows the referral to others, the "referral" button may also be clicked.

After acquiring the examination and approval information or transfer information of the second user, the server can update the task state of the corresponding transfer examination and approval node based on the examination and approval information or the transfer information and in combination with a preset transfer examination and approval rule, for example, if the examination and approval conclusion in the examination and approval information is 'agreement', the task state of the transfer examination and approval node is changed from pending to processed; if the approval conclusion in the approval information is "disagree", the flow shall be returned to a certain (for example, the first) flow approval node, and the task state of each flow approval node behind the flow approval node is changed correspondingly.

Further, the approver of the task information of each circulation approval node is determined according to the following modes: and determining the position information of the first user according to the identity information of the first user, and determining an approver of the task information of each circulation node according to the position information of the first user. In this embodiment, since the approver is related to the initiator of the process, when the first user initiates a process, the server may automatically determine, according to the identity of the first user, the approver of the task information of each flow node of the process, for example, if the instrumentation designer of the design organization initiates the risk identification process, the approver of the task information of each flow node of the process includes: responsibility engineers, chief deputy, managers and the like of the instrument control department.

Further, in an optional embodiment, the risk management method of the present invention further comprises:

step S21, receiving login information of a third user from a third client, and determining identity information of the third user according to the login information of the third user;

step S22, receiving the query condition input by the third user from the third client when the third user is judged to have the query right according to the identity information of the third user;

and step S23, acquiring a corresponding query result according to the query condition, and sending the query result to the third client.

With respect to this embodiment, it should be noted that the third user may be a process initiator (first user), a process approver (second user), or other administrator. Moreover, the query conditions are flexibly set according to actual requirements, for example, when a risk map is queried, the query conditions may include: risk level, risk type, profession, completion date, risk measure state, submission date and the like, and a plurality of query conditions can be set simultaneously and an intersection can be taken; when querying the modification basic information, the query condition may include: NDCS numbers, reconstruction names, implementation windows, specialties, submitters, submission dates and the like, and can also set a plurality of query conditions simultaneously and take intersection; when querying is performed on the risk identification sheet, the query conditions may include: NDCS numbers, modification names, risk types, states, submitters, submission dates and the like, and a plurality of query conditions can be set simultaneously, and an intersection is taken; when querying is performed on the risk measure tracking list, the query conditions may include: NDCS numbers, transformation names, states, identification elements, submitters, submission dates and the like, and can also set a plurality of query conditions simultaneously and take intersection; when the correction sheet is queried, the query conditions may include: NDCS number, violation object (project group, individual), specialty (electrical, instrumentation and professional), violation range, classification (class A violation, violation rectification, effect evaluation, contract business), state, submitter, submission date and the like, and can also set a plurality of query conditions simultaneously and take intersection; when querying is performed on the package examination sheet, the query conditions may include: serial numbers, work ticket numbers, modification names, states, submitters, submission dates and the like, and can also set a plurality of query conditions simultaneously and take intersection; when the query is performed on the abnormal event fast feedback sheet, the query conditions may include: the number, the event theme, the event classification, the responsibility department/unit, the event feedback person, the state, the submitter, the submission date and the like, and can also set a plurality of query conditions simultaneously and take an intersection.

Further, in an optional embodiment, the risk management method of the present invention further comprises:

step S24, receiving a derivation instruction input by the third user from the third client;

and S25, exporting the query result according to the export instruction.

In this embodiment, a third user may export the query results in addition to viewing the query results on their client.

Additionally, further, in an optional embodiment, the risk management method of the present invention further comprises:

step S31, receiving login information of a fourth user from a fourth client, and determining identity information of the fourth user according to the login information of the fourth user;

step S32, when it is determined that the fourth user has the right of system management/configuration management according to the identity information of the fourth user, receiving system management information/configuration management information input by the fourth user from the fourth client, where the system management information includes: authority management information/log management information/configuration management information/interface management information/process service management information/mail reminding management information; the configuration management information includes: risk category configuration information, risk level configuration information, risk factor configuration information, risk stage configuration information, and the like;

and step S33, managing/configuring the system operation according to the system management information/configuration management information.

The invention also provides a server comprising a first processor which, when executing a stored first computer program, carries out the steps of the above-described method of risk management for a nuclear power engineering project.

Fig. 3 is a flowchart of a second embodiment of the risk management method for a nuclear power engineering project according to the present invention, where the risk management method of the embodiment is applied to a first client, that is, a client of a process initiator, and specifically includes:

step A11, receiving login information input by a first user, and sending the login information to a server so that the server determines identity information of the first user according to the login information of the first user;

step A12, when the first user has a process initiating right, receiving risk management initiating information of the nuclear power engineering project input by the first user, and sending the risk management initiating information to a server, so that the server determines task information of each flow approval node by combining a preset flow approval rule, wherein the task information comprises: the task management system comprises task content, task states and an approver, wherein the task states comprise a to-do state and an already-done state.

The technical scheme of this embodiment has realized the risk management of the full flow of the electronics of engineering transformation project, reduces potential risk and deviation in the transformation process, reduces the human input, raises the efficiency.

Further, in an optional embodiment, the method further comprises:

step A13, receiving a query condition input by the first user, and sending the query condition to the server so that the server obtains a corresponding query result according to the query condition;

step A14; and receiving the query result from the server and outputting the query result.

In this embodiment, the first user may input a corresponding query condition at the client thereof according to the requirement of the first user, and request the server to query corresponding content, for example, a corresponding risk map, a corresponding risk identification sheet, a corresponding risk measure tracking sheet, a corresponding modification sheet, a corresponding audit package sheet, and a corresponding abnormal event quick feedback sheet may be queried.

Further, in an optional embodiment, the first user may export the query results in addition to viewing the query results on their client.

Fig. 4 is a flowchart of a third risk management method of a nuclear power engineering project according to the present invention, where the risk management method of the embodiment is applied to a second client, that is, a client of a process approval person, and specifically includes the following steps:

step B11, receiving login information input by a second user, and sending the login information to a server so that the server determines identity information of the second user according to the login information of the second user;

step B12, when the second user has task information to be dealt with, receiving corresponding task information from a server;

and step B13, receiving the examination and approval information or the transfer information input by the second user, and sending the examination and approval information or the transfer information to a server so that the server updates the task state of the corresponding transfer examination and approval node according to the examination and approval information or the transfer information.

The technical scheme of this embodiment has realized the risk management of the full flow of the electronics of engineering transformation project, reduces potential risk and deviation in the transformation process, reduces the human input, raises the efficiency.

Further, in an optional embodiment, the method further comprises:

step B14, receiving the query condition input by the second user, and sending the query condition to the server so that the server obtains a corresponding query result according to the query condition;

a step B15; and receiving the query result from the server and outputting the query result.

In this embodiment, the third user may input a corresponding query condition at the client side according to the requirement of the third user, and request the server to query the corresponding content, for example, may query a corresponding risk map, a corresponding risk identification sheet, a corresponding risk measure tracking sheet, a corresponding correction sheet, a corresponding audit sheet, and a corresponding abnormal event quick feedback sheet.

Further, in an optional embodiment, a third user may export the query results in addition to viewing the query results on their client.

The invention also constructs a client comprising a second processor implementing the steps of the above-described method of risk management of a nuclear power engineering project when executing a stored second computer program.

The invention also constructs a risk management system of the nuclear power engineering project, the risk management system comprises a server and a plurality of clients, and the logical structures of the server and the clients can be referred to the above, and are not described herein again.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A risk management method of a nuclear power engineering project is applied to a server, and is characterized by comprising the following steps:

step S11, receiving login information of a first user from a first client, and determining identity information of the first user according to the login information of the first user;

step S12, when the first user is judged to have the process initiating right according to the identity information of the first user, receiving risk management initiating information of the nuclear power engineering project input by the first user from the first client, and determining task information of each flow approval node by combining a preset flow approval rule, wherein the task information comprises: task content, task state and approver, wherein the task state comprises pending task and processed task;

step S13, receiving login information of a second user from a second client, and determining identity information of the second user according to the login information of the second user;

step S14, when the second user is judged to have task information to be dealt with according to the identity information of the second user, corresponding task information is sent to the second client;

and step S15, receiving examination and approval information or transfer information input by the second user from the second client, and updating the task state of the corresponding transfer examination and approval node according to the examination and approval information or the transfer information.

2. The risk management method for the nuclear power engineering project according to claim 1, characterized in that the approver of the task information of each flow approval node is determined according to the following method:

and determining the position information of the first user according to the identity information of the first user, and determining an approver of the task information of each circulation node according to the position information of the first user.

3. The risk management method for a nuclear power engineering project according to claim 1, further comprising:

step S21, receiving login information of a third user from a third client, and determining identity information of the third user according to the login information of the third user;

step S22, receiving the query condition input by the third user from the third client when the third user is judged to have the query right according to the identity information of the third user;

and step S23, acquiring a corresponding query result according to the query condition, and sending the query result to the third client.

4. The risk management method for a nuclear power engineering project according to claim 1, further comprising:

step S24, receiving a derivation instruction input by the third user from the third client;

and S25, exporting the query result according to the export instruction.

5. A risk management method for a nuclear power engineering project is applied to a first client side, and is characterized by comprising the following steps:

step A11, receiving login information input by a first user, and sending the login information to a server so that the server determines identity information of the first user according to the login information of the first user;

step A12, when the first user has a process initiation right, receiving risk management initiation information of the nuclear power engineering project input by the first user, and sending the risk management initiation information to a server, so that the server determines task information of each flow approval node by combining a preset flow approval rule, wherein the task information comprises: the task management system comprises task content, task states and an approver, wherein the task states comprise a to-do state and an already-done state.

6. The risk management method for a nuclear power engineering project of claim 5, further comprising:

step A13, receiving a query condition input by the first user, and sending the query condition to the server so that the server obtains a corresponding query result according to the query condition;

step A14; and receiving the query result from the server and outputting the query result.

7. A risk management method of a nuclear power engineering project is applied to a second client, and is characterized by comprising the following steps:

step B11, receiving login information input by a second user, and sending the login information to a server so that the server determines identity information of the second user according to the login information of the second user;

step B12, when the second user has task information to be dealt with, receiving corresponding task information from a server;

and step B13, receiving examination and approval information or transfer information input by the second user, and sending the examination and approval information or the transfer information to a server so that the server updates the task state of the corresponding flow examination and approval node according to the examination and approval information or the transfer information.

8. The risk management method for a nuclear power engineering project of claim 7, further comprising:

step B14, receiving the query condition input by the second user, and sending the query condition to the server so that the server obtains a corresponding query result according to the query condition;

step B15; and receiving the query result from the server and outputting the query result.

9. A server comprising a first processor, characterized in that the first processor, when executing a stored first computer program, implements the steps of the risk management method of a nuclear power engineering project of any one of claims 1 to 4.

10. A client comprising a second processor, characterized in that the second processor, when executing a stored second computer program, carries out the steps of the method for risk management of a nuclear power engineering project of any of claims 5 to 6, or the steps of the method for risk management of a nuclear power engineering project of any of claims 7 to 8.

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