CN101894595A

CN101894595A - Fault detection method applied to nuclear power plant system

Info

Publication number: CN101894595A
Application number: CN2010102088235A
Authority: CN
Inventors: 刘瑞峡; 杨新民; 李明钢; 蒋栋; 卢宁; 刘益群; 杨浩; 况德军; 韩毅; 黄云光
Original assignee: China General Nuclear Power Corp; Daya Bay Nuclear Power Operations and Management Co Ltd
Current assignee: China General Nuclear Power Corp; Daya Bay Nuclear Power Operations and Management Co Ltd; Guangdong Nuclear Power Joint Venture Co Ltd
Priority date: 2010-06-24
Filing date: 2010-06-24
Publication date: 2010-11-24
Anticipated expiration: 2030-06-24
Also published as: CN101894595B

Abstract

The invention relates to fault detection technology, and provides a fault detection method applied to a nuclear power plant system aiming at the defects of time consumption and labor consumption existing in fault clearance schemes of the conventional nuclear power plant systems. The method comprises the following steps of: setting a root node of a fault tree as an operating node; determining a possible fault node based on a logic gate for connecting the operating node and each sub-node and fault probability; acquiring operating parameters of equipment; judging whether the fault node is a bottom node of the fault tree when judging that fault exists in the equipment corresponding to the possible fault node according to fault conditions associated with the possible fault node and the operating parameters; if so, outputting the equipment which corresponds to the possible fault node and serves as a fault point; and otherwise, setting the possible fault node as the operating node and returning to the second step. The technical scheme provided by the invention completely automatically runs during the clearance of failed equipment, and the clearance speed is high, so the method can actually save time and labor.

Description

A kind of fault detection method that is applied to nuclear power plant system

Technical field

The present invention relates to fault detection technique, more particularly, relate to a kind of fault detection method that is applied to nuclear power plant system.

Background technology

The safe operation of nuclear power plant system is most important.

In actual application, in order to guarantee the safe operation of nuclear power plant system, power management unit has taked various measures necessary, so that can in time send alarm when detecting operation troubles.Yet nuclear power plant system is very huge, even detect alarm, also needs to waste the part that careful investigation of a large amount of time goes wrong, and the investigation need of work calls numerous production divisions and together participates in.If alarm causes the power station out of service, the plenty of time that the problem of then investigating is wasted brings difficulty will inevitably for the power supply in relevant area.

Therefore, need a kind of fault detection method, can after detecting alarm, determine the equipment that breaks down in the short period of time.

Summary of the invention

The technical problem to be solved in the present invention is that the defective that takes time and effort at existing in the existing nuclear power plant system malfunction elimination scheme provides a kind of fault detection method that is applied to nuclear power plant system.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of fault detection method that is applied to nuclear power plant system, be used for after detecting indicating fault, come trouble spot in the definite kernel electric power station system based on fault tree, different nodes in each of described fault tree layer are the distinct device in the corresponding described nuclear power plant system respectively, be connected by logic gate between each node and its child node, the pairing equipment of the child node of each node is positioned among the pairing equipment of this node, and each node is associated with at least one fault condition; Described method comprises:

The root node of S1, fault tree is set to running node;

S2, determine the possible breakdown node based on the logic gate and the pairing probability of malfunction of each child node of attended operation node and each child node thereof;

S3, the operational factor of gathering the pairing equipment of this possible breakdown node;

S4, when judging that according to the associated fault condition of this possible breakdown node and this operational factor there is fault in the pairing equipment of this possible breakdown node, judge whether this possible breakdown node is the bottom layer node of fault tree, if, then export the pairing equipment of this possible breakdown node, with as described trouble spot; Otherwise this possible breakdown node is set to running node, gets back to step S2 then.

Wherein, the logic gate that connects each node and its child node be following one of them:

With door;

Or door;

Not gate;

Sheffer stroke gate;

After finding described trouble spot, described method also comprises:

Search slip-stick artist's contact details of this trouble spot correspondence, to send the alarm notification that comprises this trouble spot relevant information.

In the fault detection method that is applied to nuclear power plant system provided by the invention, after finding described trouble spot, described method also comprises:

Search and export the solution information of this trouble spot correspondence.

In the fault detection method that is applied to nuclear power plant system provided by the invention, described bottom layer node is the equipment card, and the father node of this bottom layer node is the rack that holds this equipment card.

Implement technical scheme of the present invention, have following beneficial effect: technical scheme provided by the invention is set up logical relation between the fault by making up fault tree.When detecting alarm, can come the operational factor of the equipment that automatic collection may break down by the logical relation in the fault tree, come automatic fault location equipment with this.This shows that technical scheme provided by the invention is operation fully automatically in the process of investigation faulty equipment, and investigation speed is fast, it is time saving and energy saving really to accomplish.

Description of drawings

The invention will be further described below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the synoptic diagram according to the fault tree that is applied to nuclear power plant system of a preferred embodiment of the present invention;

Fig. 2 is the process flow diagram according to the fault detection method that is applied to nuclear power plant system of a preferred embodiment of the present invention;

Fig. 3 is the nuclear power station DCS system architecture synoptic diagram according to the use fault detection method of the present invention of a preferred embodiment of the present invention.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

The invention provides a kind of fault detection method that is applied to nuclear power plant system, set up logical relation between the fault by making up fault tree.When detecting alarm, can come the operational factor of the equipment that automatic collection may break down by the logical relation in the fault tree, come automatic fault location equipment with this.This shows that technical scheme provided by the invention is operation fully automatically in the process of investigation faulty equipment, and investigation speed is fast, it is time saving and energy saving really to accomplish.Below just come technical scheme provided by the invention is described in detail with specific embodiment in conjunction with the accompanying drawings.

Fig. 1 is the synoptic diagram according to the fault tree that is applied to nuclear power plant system 100 of a preferred embodiment of the present invention.As shown in Figure 1, fault tree 100 is a multilayer number, distinct device in the different nodes corresponding nuclear power plant systems of difference (being digitizing nuclear power station instrument control system) in its each layer, be connected by logic gate between each node and its child node, the pairing equipment of the child node of each node is positioned among the pairing equipment of this node, and each node is associated with at least one fault condition.Each of described fault tree layer topological structure corresponding to nuclear power plant system.

The foundation of fault tree is based on the nuclear power plant system topological structure of DCS system for example, and the topological structure of DCS system is the basis and the core of whole M ES system.DCS system architecture complexity, the equipment that comprises is various, is in different levels, system hierarchy for example is divided into the power station---unit---system---subsystem---POF---equipment---parts---subassembly, parts and the management of subassembly recurrence.Malfunctioning node will directly carry out related with different levels.

For example, node 1 corresponding nuclear power plant system, node 2 and node 3 be corresponding rack 1 and rack 2 respectively, the distinct device in node 4 and the corresponding rack 1 of node 5 difference, the distinct device in node 6 and the corresponding rack 2 of node 7 difference.Fault condition in the node 1 is the condition that nuclear power plant system breaks down, the condition that corresponding respectively rack 1 of fault condition in node 2 and the node 3 and rack 2 break down, the condition that distinct device breaks down in the corresponding respectively rack 1 of fault condition in node 4 and the node 5, the condition that distinct device breaks down in the corresponding respectively rack 2 of the fault condition in node 6 and the node 7.

On the whole, all nodes of whole fault tree all are faults, and the fault that child node takes place is the failure cause that father node breaks down.

Logic gate between father node and the child node can be such as but not limited to and door or door, not gate, Sheffer stroke gate or the like.For example, only be defined as when all child node corresponding equipment all break down with door, father node just can break down.Or the door be defined as when at least one child node corresponding equipment all breaks down, father node will break down.Inverter is used for expression when the child node corresponding equipment does not break down, and father node just breaks down.The function class of NOT-AND gate is similar to a kind of combination with door and not gate.Sheffer stroke gate is used for expression when one of child node does not break down at least, and father node just breaks down.

Fig. 2 is the process flow diagram according to the fault detection method that is applied to nuclear power plant system 200 of a preferred embodiment of the present invention.When nuclear power plant system breaks down, nuclear power plant system will send alarm prompt.After detecting alarm prompt, can carry out fault detect according to method shown in Figure 2.As shown in Figure 2, method 200 starts from step 202.

Subsequently, at next step 204, the root node of fault tree is set to running node.

Subsequently, at next step 206, determine the possible breakdown node based on the logic gate and the pairing probability of malfunction of each child node of attended operation node and each child node thereof.

In the specific implementation process, can be each child node corresponding probability of malfunction (for example empirical value) is set, when breaking down with the demonstration child node, the possibility that causes father node to break down.Be understood that when father node broke down, several child nodes that its probability of malfunction is bigger were the possible breakdown node.In addition, when determining the quantity of possible breakdown node, also need with reference to the logic gate that connects father node and child node.

Subsequently, at next step 208, gather the operational factor of the pairing equipment of this possible breakdown node.

Subsequently, at next step 210, when judging that with this operational factor there is fault in the pairing equipment of this possible breakdown node according to the associated fault condition of this possible breakdown node, judge whether this possible breakdown node is the bottom layer node of fault tree, if, then forward step 214 to, otherwise forward step 212 to.

The fault condition here is exactly failure criterion, is normal under which type of situation, is unusual under which type of situation, the state when also being the pairing unit exception of node.For example suppose that a certain subset operating voltage of DCS system is 220V, do not satisfy 220V so, think that then the voltage of this subset is unusual, so just can be with localization of fault in this subset.Certainly only be example here, relatively more absolute, can fault condition be set according to different application scenarios and demand during practical operation.About operational factor, the parameter setting information when described operational factor is the corresponding device normal operation of node institute.Because each equipment all has the parameter of own normal operation, such as power, temperature or the like, if against regulation numerical value, can think and break down herein, utilize fault detection method of the present invention to go layer by layer to approach, finally find the fault rootstock node, solve fault rapidly and accurately according to the fault solution that provides.

As indicated above, if judge that in step 210 the possible breakdown node is the bottom layer node of fault tree, then forward step 214 to, export the pairing equipment of this possible breakdown node, with as the trouble spot, method 200 forwards step 216 to subsequently.

Subsequently, at next step 216, search slip-stick artist's contact details of this trouble spot correspondence, to send the alarm notification that comprises this trouble spot relevant information, method 200 forwards step 218 to subsequently.

In the specific implementation process, can adopt such as but not limited to modes such as short message, the voice mail information that the trouble spot is relevant and send to the slip-stick artist who is responsible for this trouble spot maintenance job.

Subsequently, at next step 218, search and export the solution information of this trouble spot correspondence, method 200 forwards step 220 to subsequently.

In the specific implementation process, can be in advance generate the fault solution information at each equipment, be used for that ancillary works teacher keeps in repair this equipment when this equipment becomes the trouble spot.

It should be noted that step 216 and step 218 are optional step in the specific implementation process, and can not follow the described execution sequence of Fig. 2 between these two steps that promptly these two steps can adopt other order to carry out, such as but not limited to carrying out simultaneously.

As indicated above, if judge that in step 210 the possible breakdown node is not the bottom layer node of fault tree, then forward step 212 to, this possible breakdown node is set to running node, gets back to step 206 then.

At last, method 200 ends at step 220.

In the specific implementation process, method 200 after finding the trouble spot, the risk information that fault that can also the described trouble spot of analyzing and processing causes.In step 218, the solution information of output comprises the operation information of evading described risk, and the operation instruction information of handling the fault of described trouble spot.

In the specific implementation process, in order constantly to improve fault detection method, method 200 also need be stored the fault signature and the solution information of described trouble spot, so that upgrade and replenish the fault condition of each node in time.

Detection method of the present invention can also provide the platform of training and learning for the maintainer, can set up the learning platform of fault detect and processing according to the fault signature and the solution information of described trouble spot, the maintainer can provide this learning platform to draw the experience of maintenance, promote troubleshooting capability as soon as possible, for maintainer's training provides good training material.

In the specific implementation process, the primary element in general each equipment of corresponding nuclear power plant system of bottom layer node.When these primary elements break down, will cause chain-react, the node that is associated with this primary element in the nodes promptly at different levels all will break down, and cause root node also to break down the most at last.Therefore, when nuclear power plant system self sends alarm prompt (root node breaks down), can be according to the method for describing among Fig. 2 suspected fault reason successively, until finding the bottom layer node that breaks down.

Because in actual application, upper layer node is sent alarm prompt may mean that there is the fault possibility in a plurality of nodes of a plurality of lower floors that are subordinated to this upper layer node, therefore generally can be provided with the fault probability of happening of lower level node according to experience.So, in the investigation process, just can at first gather the operational factor of the higher node of fault probability of happening, judge with this whether it breaks down.Be understood that operation can be simplified workflow greatly like this.

By method 200 as can be known, warning can be reported to the police by a plurality of sons and be caused, and the father report to the police with the son warning between be connected with child warning criterion, the superiors are warning messages, at the bottom is the basic reason of initiating failure, and the centre all is the criterion information that comprises different levels, and its hierarchical structure may have the progression that how much differs according to system complex degree difference.When the father reported to the police generation, the criterion of reporting to the police according to which son under it was triggered, and just knew it is this son warning generation, goed deep into layer by layer, until the basic reason that navigates to fault.

In addition, in the specific implementation process, probability of malfunction and fault condition can be set according to concrete needs.

For example, if a plurality of racks of preliminary judgement among one of break down, then can the alarm lamp state on the rack lintel be detected, promptly gather the operational factor of rack lintel alarm lamp.If this alarm lamp is bright, then explanation is that this rack breaks down.Next, can judge the state of the child node of this rack, i.e. the state of the inner installed device of this rack.For example, based on logic gate between rack and its child node and the pairing probability of malfunction of each child node,, then can further detect the state of equipment card alarm lamp in the rack if the equipment card that the preliminary judgement fault goes out in rack is drawn out of.If this alarm lamp is bright, then explanation is that in a plurality of equipment cards at least one is drawn out of.In like manner, next can be further being determined to the end according to the state of each layer alarm lamp in the rack is that the equipment card of which layer is drawn out of, thereby finally determines bottom layer node, the equipment card that promptly is drawn out of.

The present invention can gather failure message in real time and can locate apace and handling failure, and this is far-reaching for nuclear power plant system.Fast effective solution of fault can be avoided unnecessary loss for nuclear power station, and adopt detection method of the present invention that the platform of training and learning can also be provided for the maintainer, can also provide good training material according to the continuous renewal of Breakdown Maintenance experience of reality and the criterion in the additional fault testing method for new staffs training.

Fig. 3 is the nuclear power station DCS system architecture synoptic diagram according to the use fault detection method of the present invention of a preferred embodiment of the present invention.DCS system shown in Fig. 3 comprises operating terminal 1, operating terminal 2, processing unit, service unit, engineer station, diagnosis server, a plurality of subset (

subset

1,2,3,4).A plurality of operating terminals are connected by second network service with processing unit, service unit etc., and processing unit, service unit etc. is connected by first network service with a plurality of subsets; Examination and repair system is connected with second network service in the described DCS system by the 3rd network, is used for after detecting indicating fault positioning and to provide the fault solution information based on fault tree to the trouble spot of described DCS system.Wherein, distinct device in the corresponding respectively described DCS of different nodes in each of the described fault tree layer system, be connected by logic gate between each node and its child node, the pairing equipment of the child node of each node is positioned among the pairing equipment of this node, and each node is associated with at least one fault condition.Particular content is described in detail in Fig. 1-2.

Wherein, second network is such as but not limited to the TCP-IP link, and first network is such as but not limited to the industrial data net, and the 3rd network is such as but not limited to external network (any network that communicates to connect of can realizing all can use, for example LAN (Local Area Network) or wide area network).The type of network is not limited herein, all be fine as long as can guarantee the network of nuclear power station DCS system normal operation.Examination and repair system is connected to second network by for example gateway 3 and fire wall, only is example here, also can use other connected mode according to actual needs.

Here, subset is divided into ground floor level 1, processing unit, service unit, engineer station, diagnosis server etc. are divided into second layer level 2, the number of plies of the fault tree that relates among Fig. 2-3 can be understood as level 1, level 2 here.Certainly, but about the also refinement of division of the concrete number of plies of fault tree, specific to a certain parts of a certain subset.Here only be example.

Subset is such as but not limited to the nuclear power station genset, also can be employed other the special equipment of nuclear power station, subset can be directly connected on the communication network or by gateway and be connected to network, for

example subset

1 and 2 is directly connected to first network, and

subset

3 and 4 is connected to first network by gateway 1 and 2.When subset or parts wherein break down, just can report layer by layer, last DCS system can provide indicating fault, and this indicating fault can be provided by the diagnosis server in the DCS system, also can be provided by other unshowned equipment.After detection system (MES) detects indicating fault, will position and provide the fault solution to corresponding slip-stick artist to the trouble spot in the described DCS system according to fault tree, the slip-stick artist can carry out respective handling according to the fault solution the engineer station or at operating terminal.

Service unit among the figure or processing unit are the equipment that guarantees subset and the normal operation of DCS system, or the equipment of DCS system needs.Should be understood that the terminal shown in Figure 3 or the number of equipment only are example, not as limitation of the present invention.

DCS system and examination and repair system among Fig. 3 communicate to connect, examination and repair system use the present invention for example the fault detection method among Fig. 1-2 the DCS system is carried out localization of fault and suitable fault solution is provided.Use fault detection method of the present invention, can accurately locate a certain rack or the parts that break down in the nuclear power station DCS system fast, and localization of fault can be shown in visual in image mode and be presented at (not shown) on the network topological diagram of DCS.For example zone 1 warning of breaking down, then examination and repair system will highlight regional 1 icon, according to above-mentioned fault detection method fault location equipment, thereby in layer goes forward one by one, after finally navigating to trouble unit, the trouble unit icon is highlighted (such as but not limited to red display).Examination and repair system also can provide manual criterion except human machine interface graphics sign and automatic fault location are provided, combine automatically and manually, makes that the localization of fault of DCS equipment is more accurate.

Provide the concrete troubleshooting process example of nuclear power station maintainer operation below:

1, event of failure explanation

* * * * * month * * day, * * divides master control the RGL001KA/RGL001AA warning to occur during * *, and field observation finds that the RDL1 plate sign of DB009 position in the L3RGL302AR cabinet shows fault.

2, venture analysis and measure

The RDL1 plate is that the position processing of RGL rod is relevant, because it transfers to signal two subsystems of AU simultaneously, will lose SA2/H8 on the KIC after the fault, SC/E5, and SD1/G7, the measurement rod position of SD2/J5, master control will be remembered second group of I0.In the processing procedure, will produce RGL001KA, RGL0006KA (insert and monitor), RGL008KA (room warning), RGL035KA (open alarm), also have the relevant warning SA rod of rod position step-out: RGL031KS, RGL032KS, RGL034KS, RGL0016KA SC rod: RGL041KS, RGL042KS, RGL044KS, RGL018KA SD rod: RGL046KS, RGL047KS, RGL049KS, RGL022KA.

3, work order (being the fault solution information)

1) discusses risk and measure with the related personnel.

2) and operation person risk is discussed, the checkout facility label is correct, should make again and polishing the label breakage.

3) work order, work permit are examined in strictness before the work, the field apparatus three is in full accord and carry out the signature affirmation.

Groundwork point: * * * *

Work responsible official signature: work guardian signature:

4) on-the-spot affirmation RDL1 plate fault, second group of I0 remembered in the notification operator master control; Do you how to confirm?

5) confirm that CCS-SU starts, otherwise with its startup.

6) land SU-client in the computer house, confirm not have this system in that other are unusual, otherwise report the higher level, propose the ticket processing.

7) take the corresponding label hurdle apart, put on the electrostatic prevention bracelet.

8) pull down the fault plate, more renew plate, please confirm consistent with plate comparison wire jumper and the switch changed.

9) confirm that plate installed fasteningly, go back to dress label hurdle.

10) wait for about 2 minutes, confirm that fault disappears.

11) on SIC4, remove warning.

12) the notice master control operator recovers, and eliminates second group of I0.

13) land SU-client in the computer house, confirming does not have other faults.

14) check result is fed back to the person in charge and coordinate.

15) site clearing, power cut-off.

16) read the instruction signature before the guardian works:

17) guardian's signature of completing:

By above-mentioned treatment step as can be known, handle the operation instruction information of the fault of described trouble spot, also being the slip-stick artist comprises affirmation step again (confirming whether to also have other fault) after the operation steps of slip-stick artist's handling failure, the report step of processing procedure (report and coordinate with other related personnel to the higher level), fault are eliminated for the command information of eliminating this fault and need carrying out.

Should be understood that above-mentioned character string that relates to or code name are virtual hypothesis, only be the usefulness of explanation, not as limitation of the present invention.For example RGL001KA/RGL001AA only is a code name of reporting to the police, and can use the method for any convenient sign that the indication of reporting to the police is distinguished.Other are also similar.SA2/H8, SC/E5, SD1/G7, SD2/J5 are the signs of measuring the rod position, are the code names of the physical unit in the nuclear power station DCS rod control system.This example only is an example, so that better understand the solution of the present invention.

The above only is preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims

1. fault detection method that is applied to nuclear power plant system, be used for after detecting indicating fault, come trouble spot in the definite kernel electric power station system based on fault tree, it is characterized in that, different nodes in each of described fault tree layer are the distinct device in the corresponding described nuclear power plant system respectively, be connected by logic gate between each node and its child node, the pairing equipment of the child node of each node is positioned among the pairing equipment of this node, and each node is associated with at least one fault condition; Described method comprises:

The root node of S1, fault tree is set to running node;

The logic gate that wherein connects each node and its child node be following one of them: with door; Or door; Not gate; Sheffer stroke gate;

After finding described trouble spot, described method also comprises:

Search and export the solution information of this trouble spot correspondence.

2. the fault detection method that is applied to nuclear power plant system according to claim 1 is characterized in that, after finding described trouble spot, described method also comprises:

3. the fault detection method that is applied to nuclear power plant system according to claim 1 is characterized in that, described bottom layer node is the equipment card, and the father node of this bottom layer node is the rack that holds this equipment card.

4. according to each described fault detection method that is applied to nuclear power plant system of claim 1～3, it is characterized in that each of described fault tree layer topological structure corresponding to nuclear power plant system.

5. according to each described fault detection method that is applied to nuclear power plant system of claim 1～3, it is characterized in that the state when described fault condition is the pairing unit exception of node.

6. according to each described fault detection method that is applied to nuclear power plant system of claim 1～3, it is characterized in that the parameter setting information when described operational factor is the corresponding device normal operation of node institute.

7. the fault detection method that is applied to nuclear power plant system according to claim 2 is characterized in that, the solution information of described trouble spot correspondence is used in reference to and connects the fault that the slip-stick artist who receives alarm notification handles described trouble spot.

8. the fault detection method that is applied to nuclear power plant system according to claim 2 is characterized in that, described method also comprises:

The risk information that causes in the failure process of the described trouble spot of analyzing and processing.

9. the fault detection method that is applied to nuclear power plant system according to claim 8 is characterized in that described solution information comprises the operation information of evading described risk.

10. the fault detection method that is applied to nuclear power plant system according to claim 4 is characterized in that described solution information comprises the operation instruction information of the fault of handling described trouble spot.

11. the fault detection method that is applied to nuclear power plant system according to claim 10, it is characterized in that the operation instruction information of handling the fault of described trouble spot comprises the affirmation step again after report step, the fault of the operation steps of slip-stick artist's handling failure, processing procedure are eliminated.

12. the fault detection method that is applied to nuclear power plant system according to claim 2 is characterized in that, described method also comprises:

Store the fault signature and the solution information of described trouble spot, so that upgrade and replenish the fault condition of each node in time.

13. the fault detection method that is applied to nuclear power plant system according to claim 2 is characterized in that, described method also comprises:

Fault signature and solution information according to described trouble spot are set up the learning platform of fault detect and processing.