Reliability Tools and Analysis Methods for Nuclear Power …grouper.ieee.org/groups/npec/N12-02_NPEC...
Transcript of Reliability Tools and Analysis Methods for Nuclear Power …grouper.ieee.org/groups/npec/N12-02_NPEC...
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Reliability Tools and Analysis Methods for Nuclear Power Plants
Sharon Honecker, PhDResearch Scientist
ReliaSoft CorporationTucson, Arizona
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Overview
What is reliability?What methods can help me ensure reliability? Failure Mode and Effects Analysis System Modeling Life Data Analysis Failure Reporting and Corrective Action
SystemConclusions
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FMEA
What Is Reliability?
Life Data Analysis QALT
SystemReliability
Prediction
RCMReliability
GrowthFRACA
Physics of Failure
Failure Analysis
DOE
Simulation
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A Textbook Definition
Reliability is the probability that a component , subsystem, or system will perform its desired function without failure for a specified duration in a specific operating
environment with a desired confidence
Engineering
Physics
Statistics
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A Management Definition
What’s the expected life of the product?How many returns/failures are we expecting next year?How much is it going to cost us to develop and tosupport this product?Can we make it morecost-effective?
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What Methods Can Help Me Ensure Reliability?
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Design for Reliability ProcessD
FR S
TAG
E
CONCEPT PHASE
DESIGN PHASE
DEVELOPMENT PHASE
MANUFACTURING PHASE
SUPPORTPHASE
DEFINEReliability Objectives
ASSESSProposed Design
Reliability
QUANTIFYAnalyze & Improve Reliability
ASSUREReliability
SUSTAINMonitor & Control Reliability
IDENTIFY Key Reliability
Risks
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DFR
AC
TIVI
TYD
FR S
TAG
ECONCEPT
PHASEDESIGN PHASE
DEVELOPMENT PHASE
MANUFACTURING PHASE
SUPPORTPHASE
DEFINEReliability Objectives
ASSESSProposed Design
Reliability
QUANTIFYAnalyze & Improve Reliability
ASSUREReliability
SUSTAINMonitor & Control Reliability
Change Point Analysis
FMEA Robust Design
DOE Life Data Analysis
Accelerated Testing
Demonstration Testing
Supplier Control
FRACAS
Knowledge Management
IDENTIFY Key Reliability
Risks
Baseline Reliability
Degradation Analysis PFMEA System
ReliabilityPost-
Production
Stds Based Prediction Simulation Failure
Analysis Burn-In Warranty Data Analysis
Manufacturing Issues
Reliability Growth
Reliability Allocation
Physics of Failure
Man. & Process Control
Requirements& Goals
Environment & Usage
©ReliaSoft
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Failure Mode and Effects Analysis (FMEA) - ApplicationDesign or redesign of a productUse an existing product in a new wayAssess or improve product reliabilityProvides inputs for other system analyses (PRA, Fault Tree, Reliability Block Diagram, Markov Model, etc.)Central repository for reliability-related informationLearning tool for new employees
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Failure Mode and Effects Analysis - Process
Identify potential failure modes for a product (DFMEA) or process (PFMEA)Assess the risk associated with those failure modes and prioritize issues for corrective action based on Severity Probability of Occurrence Detectability
Carry out corrective actions to address the most serious concerns
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Failure Mode and Effects Analysis – Process Details
Form a cross-functional team of expertsDefine the scope and deliverablesGather supporting documentsFor every item in the FMEA scope: Functions Failures Effects – local and system level Causes
Current ControlsRecommended Actions
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Failure Mode and Effects Analysis Example
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Failure Mode and Effects Analysis - Example
Function: Convert pressure to analog signalFailure: Fail LowEffects: Makes “A” and “B” train 2/2Causes: Corrosion; Wear; Mechanical damage; Heat effectsControls: Monthly test; Comparison with redundant channel indicators; Possible immediate detection
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Failure Mode and Effects Analysis - Example
Functional Level: Diagram: Program: Typical PlantSystem: Typical Reactor Trip Function
See Figure A1
Report No: IEEE Std 352-2013, Annex ASubsystem: Sensor Circuit 1 Prepared By:Equipment: Date:
No Name Failure Mode CauseSymptoms and Local Effects Including Dependent Failures
Method of Detection
Inherent Compensating Provision
Effect Upon: Reactor Protection System
Remarks and Other Effects
1 Pressure transmitter PT-1
Fail low CorrosionWearMechanical damageHeat effects
Low output to alarm unit; ac relays will remain energized for channel 1
Periodic test Redundant channels,2 and 3
Both trip paths 2/2 logic
Possible immediate detection
Fail high Misadjustment High signal level to alarm unit; ac relays will deenergize for channel 1 with no trip
Periodic test Redundant channels,2 and 3
Both trip paths 1/2 logic
Partial trip alarm
2 DC power supplyPQ-1
Fail low or off
Transformer failureDiode failure
Removes operating power for transducer; alarm unit will sense low pressure; ac relay will open with no trip on channel 1
Periodic test, spurious trip alarm
Redundant channels,2 and 3
Both trip paths 1/2 logic
Spurious trip if other channel failed 1/2
Fail high Heat effectsMisadjustment
Transducer setpoint exceeds trip level; relays will remain energized for channel 1
Periodic test Redundant channels,2 and 3
Both trip paths 2/2 logic
—
3 Alarm unit, PC-1
Fail off Transformer failureOpen circuit in output sectionSetpoint drift
AC power to ac relays removed for channel 1; ac relay open when no trip on channel 1
Periodic test, spurious trip alarm light
Redundant channels,2 and 3
Both trip paths 1/2 logic
Spurious trip if other channel failed 1/2
Fail on Short in output sectionSetpoint drift
Does not remove ac power to ac relay for channel 1 trip; ac relay remains energized; both paths become 2/2 logic
Periodic test Redundant channels,2 and 3
Both trip paths 2/2 logic
—
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Failure Mode and Effects Analysis – Actions
Risk Priority Number (RPN) is assigned to each failure mode. RPN = Severity×Occurrence×Detectability
The team ranks the following using a scale of (1 to 5) or (1 to 10): Severity of Effect Probability of Occurrence of Cause Detectability of Cause
Recommended actions are assigned for the highest RPN failure modes.
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System Modeling - Application
Assess product reliability (non-repairable) or availability (repairable)Optimize preventive maintenance strategy and test intervalsProvide probabilistic inputs for Life Cycle Cost AnalysisAssign reliability goals to subsystems and components
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System Modeling - ProcessCreate a reliability-wise representation of the system Fault tree – What components must fail to
make the system fail? Reliability block diagram – What components
must operate to make the system operational?
Markov model – What are the possible system states?
Use laws of probability to determine system reliability
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System Modeling Example
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System Modeling Example
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System Modeling Example
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System Modeling - InputsAt a minimum, provide a reliability model for each component Output will be system reliability
In addition, can provide a model for repair duration for some or all components Output will be system availability
Optional inputs include information about preventive maintenance and inspection, costs of components and maintenance crews, spare parts holdings, etc.
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Life Data Analysis (LDA) -Application
Determine a reliability model for a component or a specific failure mode of a componentDemonstrate that a component meets a reliability specification Reliability at a given time at a given
confidence levelDetermine a repair model for a component
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Life Data Analysis - Process
Gather laboratory or field data about a componentFit a probability density function, pdf, to the data Common models in LDA are exponential,
Weibull, lognormalUse the model to predict reliability or probability of failure at a given time, mean life, etc.
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Life Data Analysis – Model Selection
Models are chosen based on the expected failure rate behavior of the component Exponential: constant failure rate; useful life Weibull: decreasing, increasing, or constant
failure rate; infant mortality, useful life, or wearout
Lognormal: increasing followed by decreasing failure rate; fatigue or corrosion
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Failu
re R
ate,
(t)
Time, t
Idealized Bathtub Curve
Life Data Analysis – Model Selection
Infant Mortality
Useful Life
Wearout
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Select Failure Mechanisms
Overstress Mechanisms Wearout Mechanisms
Thermal Thermal overstress
MechanicalYield,Fracture,Interfacial de-adhesion
Dielectric breakdown,Electrical overstress, Electrostatic discharge,Second breakdown
Electrical
Radiation Single event upset
Fatigue, SDDV,Creep, Wear Mechanical
Electromigration, TDDB, Surface charge spreading, Hot electrons, Slow trapping
Electrical
RadiationRadiation hardening
Corrosion, Dendrite growth, Depolymerization, Intermetallic, Growth, Kirkendahl Voiding, Hydrogen Embrittlement, Hillock Formation
ChemicalChemical Ionic contamination
Life Data Analysis – Model Selection
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Life Data Analysis - ExampleTwenty lamps were tested in the laboratory with the following times to failure in hours:
7407 7807 4237 9677 11320 6742 5653
8916 7918 10397 6216 9336 9078 8848
5101 8549 11203 9891 10043 12238
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Life Data Analysis - Example
0
1
2
3
4
5
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Num
ber o
f Fai
lure
s
Time (103 hours)
0.00000
0.00005
0.00010
0.00015
0.00020
Prob
abili
ty
Weibull pdf
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Life Data Analysis - Example
Some possible results assuming a population of 1000 lamps are put into operation: How many will survive 5000 hours?
932 lamps What is the average life of the lamps?
8526 hours When will only 10 lamps remain?
13474 hours
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0
1
2
3
4
5
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Num
ber o
f Fai
lure
s
Time (103 hours)
0.00000
0.00005
0.00010
0.00015
0.00020
Prob
abili
ty
Life Data Analysis - Example
Exponential pdf
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Life Data Analysis - Example
Some possible results assuming a population of 1000 lamps are put into operation: How many will survive 5000 hours?
Weibull: 932 lamps What is the average life of the lamps?
Weibull: 8526 hours When will only 10 lamps remain?
Weibull: 13474 hours
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Life Data Analysis - Example
Some possible results assuming a population of 1000 lamps are put into operation: How many will survive 5000 hours?
Weibull: 932 lamps; Exponential: 427 lamps What is the average life of the lamps?
Weibull: 8526 hours When will only 10 lamps remain?
Weibull: 13474 hours
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Life Data Analysis - Example
Some possible results assuming a population of 1000 lamps are put into operation: How many will survive 5000 hours?
Weibull: 932 lamps; Exponential: 427 lamps What is the average life of the lamps?
Weibull: 8526 hours; Exponential: 5881 hours When will only 10 lamps remain?
Weibull: 13474 hours
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Life Data Analysis - Example
Some possible results assuming a population of 1000 lamps are put into operation: How many will survive 5000 hours?
Weibull: 932 lamps; Exponential: 427 lamps What is the average life of the lamps?
Weibull: 8526 hours; Exponential: 5881 hours When will only 10 lamps remain?
Weibull: 13474 hours; Exponential: 27083 hours
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Failure Reporting and Corrective Action System (FRACAS) - Application
Repository for information regarding failures and other issuesData is used to Improve product reliability Streamline maintenance activities
Used both during design / development and after item is fielded
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Failure Reporting and Corrective Action System
(FRACAS) - Process Incidents Issues / failures reported by customers,
maintenance personnel, etc. Resolved immediately by technicians to
restore system operationProblems Groups of incidents with a single cause Addressed by engineers through a
documented process, e.g., 8D, DMIAC
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Failure Reporting and Corrective Action System
(FRACAS) - Process
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Failure Reporting and Corrective Action System
(FRACAS) - Outputs Times to failure data for LDA Inputs for System Reliability Modeling Quantitative Probabilities of Occurrence for
FMEATimes to repair data for LDA Inputs for System Reliability Modeling
Field failure modes for FMEA
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Reliability Analysis – Common Pitfalls
FRACAS collects only cumulative number of failures and cumulative operating time Only exponential model can be used
FMEA is not a “living” document Redevelopment for every design wastes
resources Valuable information is lost and mistakes are
repeated
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Conclusions
Design for Reliability is a long-term process that employs a variety of tools. Proper implementation requires: Strategic vision Proper planning Sufficient organizational resource allocation Proper implementation Integration and institutionalization of reliability
into the organization