A Multi-Objective Genetic Algorithm for determining efficient Risk-Based Inspection programs

This paper proposes a coupling between Risk-Based Inspection (RBI) methodology and Multi-Objective Genetic Algorithm (MOGA) for defining efficient inspection programs in terms of inspection costs and risk level, which also comply with restrictions imposed by international standards and/or local gove...

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Published inReliability engineering & system safety Vol. 133; pp. 253 - 265
Main Authors Moura, Márcio das Chagas, Lins, Isis Didier, Droguett, Enrique López, Soares, Rodrigo Ferreira, Pascual, Rodrigo
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.01.2015
Elsevier
Subjects
Applied sciences
Chemical engineering
Decision theory. Utility theory
Energy
Exact sciences and technology
Failure
Fuel processing. Carbochemistry and petrochemistry
Fuels
Genetic algorithms
Genetics
Industrial metrology. Testing
Inspection
Inspection programs
Liquid petroleum product processing
Liquid-liquid and fluid-solid mechanical separations
Mechanical engineering. Machine design
Multi-Objective Genetic Algorithm
Operational research and scientific management
Operational research. Management science
Operators
Risk levels
Risk reduction
Risk-Based Inspection
Searching
Risk reduction
Inspection programs
Multi-Objective Genetic Algorithm
Risk-Based Inspection
Decision support system
Structure integrity
Multiobjective programming
Rupture
Pressure vessel
Maintenance
Risk analysis
Failures
Risk aversion
Thinning
Corrosion
Genetic algorithm
Efficiency
Phase separation
Problem solving
Risk management
Investment
Online AccessGet full text

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Abstract This paper proposes a coupling between Risk-Based Inspection (RBI) methodology and Multi-Objective Genetic Algorithm (MOGA) for defining efficient inspection programs in terms of inspection costs and risk level, which also comply with restrictions imposed by international standards and/or local government regulations. The proposed RBI+MOGA approach has the following advantages: (i) a user-defined risk target is not required; (ii) it is not necessary to estimate the consequences of failures; (iii) the inspection expenditures become more manageable, which allows assessing the impact of prevention investments on the risk level; (iv) the proposed framework directly provides, as part of the solution, the information on how the inspection budget should be efficiently spent. Then, genetic operators are tailored for solving this problem given the huge size of the search space. The ability of the proposed RBI+MOGA in providing efficient solutions is evaluated by means of two examples, one of them involving an oil and gas separator vessel subject to internal and external corrosion that cause thinning. The obtained results indicate that the proposed genetic operators significantly reduce the search space to be explored and RBI+MOGA is a valuable method to support decisions concerning the mechanical integrity of plant equipment. •This paper proposes an original RBI multi-objective-based framework.•The exhaustive evaluation of these feasible programs is impossible in practice.•Thus, the effort to accomplish the analysis is fairly reduced.•Tool to support efficient decisions related to mechanical integrity of equipment.
AbstractList This paper proposes a coupling between Risk-Based Inspection (RBI) methodology and Multi-Objective Genetic Algorithm (MOGA) for defining efficient inspection programs in terms of inspection costs and risk level, which also comply with restrictions imposed by international standards and/or local government regulations. The proposed RBI+MOGA approach has the following advantages: (i) a user-defined risk target is not required; (ii) it is not necessary to estimate the consequences of failures; (iii) the inspection expenditures become more manageable, which allows assessing the impact of prevention investments on the risk level; (iv) the proposed framework directly provides, as part of the solution, the information on how the inspection budget should be efficiently spent Then, genetic operators are tailored for solving this problem given the huge size of the search space. The ability of the proposed RBI+MOGA in providing efficient solutions is evaluated by means of two examples, one of them involving an oil and gas separator vessel subject to internal and external corrosion that cause thinning. The obtained results indicate that the proposed genetic operators significantly reduce the search space to be explored and RBI+MOGA is a valuable method to support decisions concerning the mechanical integrity of plant equipment.
This paper proposes a coupling between Risk-Based Inspection (RBI) methodology and Multi-Objective Genetic Algorithm (MOGA) for defining efficient inspection programs in terms of inspection costs and risk level, which also comply with restrictions imposed by international standards and/or local government regulations. The proposed RBI+MOGA approach has the following advantages: (i) a user-defined risk target is not required; (ii) it is not necessary to estimate the consequences of failures; (iii) the inspection expenditures become more manageable, which allows assessing the impact of prevention investments on the risk level; (iv) the proposed framework directly provides, as part of the solution, the information on how the inspection budget should be efficiently spent. Then, genetic operators are tailored for solving this problem given the huge size of the search space. The ability of the proposed RBI+MOGA in providing efficient solutions is evaluated by means of two examples, one of them involving an oil and gas separator vessel subject to internal and external corrosion that cause thinning. The obtained results indicate that the proposed genetic operators significantly reduce the search space to be explored and RBI+MOGA is a valuable method to support decisions concerning the mechanical integrity of plant equipment. •This paper proposes an original RBI multi-objective-based framework.•The exhaustive evaluation of these feasible programs is impossible in practice.•Thus, the effort to accomplish the analysis is fairly reduced.•Tool to support efficient decisions related to mechanical integrity of equipment.
Author Soares, Rodrigo Ferreira
Pascual, Rodrigo
Moura, Márcio das Chagas
Droguett, Enrique López
Lins, Isis Didier
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  organization: Physical Asset Management Lab, Department of Mining Engineering, Pontificia Universidad Católica de Chile, Santiago, Chile
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Keywords Risk reduction
Inspection programs
Multi-Objective Genetic Algorithm
Risk-Based Inspection
Decision support system
Structure integrity
Multiobjective programming
Rupture
Pressure vessel
Maintenance
Risk analysis
Failures
Risk aversion
Thinning
Corrosion
Genetic algorithm
Efficiency
Phase separation
Problem solving
Risk management
Investment
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  article-title: A new methodology for risk-based availability analysis
  publication-title: IEEE Trans Reliab
  doi: 10.1109/TR.2007.911248
– year: 1996
  ident: 10.1016/j.ress.2014.09.018_bib20
SSID ssj0004957
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Snippet This paper proposes a coupling between Risk-Based Inspection (RBI) methodology and Multi-Objective Genetic Algorithm (MOGA) for defining efficient inspection...
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SubjectTerms Applied sciences
Chemical engineering
Decision theory. Utility theory
Energy
Exact sciences and technology
Failure
Fuel processing. Carbochemistry and petrochemistry
Fuels
Genetic algorithms
Genetics
Industrial metrology. Testing
Inspection
Inspection programs
Liquid petroleum product processing
Liquid-liquid and fluid-solid mechanical separations
Mechanical engineering. Machine design
Multi-Objective Genetic Algorithm
Operational research and scientific management
Operational research. Management science
Operators
Risk levels
Risk reduction
Risk-Based Inspection
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Title A Multi-Objective Genetic Algorithm for determining efficient Risk-Based Inspection programs
URI https://dx.doi.org/10.1016/j.ress.2014.09.018
https://www.proquest.com/docview/1651420074
https://www.proquest.com/docview/1654671603
Volume 133
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