Improved Z-number based fuzzy fault tree approach to analyze health and safety risks in surface mines

Surface mining is vulnerable and subject to a wide range of risks, requiring extensive risk analysis to ensure mine health and safety (MHS). Fault tree analysis (FTA) is a graphic representation tool for conducting safety and reliability analyses by modeling causal chains that lead to failures. Howe...

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Veröffentlicht in:	Resources policy 2022-06, Vol.76, p.102591, Article 102591
Hauptverfasser:	Jiskani, Izhar Mithal, Yasli, Fatma, Hosseini, Shahab, Rehman, Atta Ur, Uddin, Salah
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Schlagworte:	Blasting (explosive) Dust Elicitation Fault tree Fault tree analysis Fumes Graphical representations Mine health and safety Mining Mining industry Regulation Reliability Reliability analysis Risk analysis Risk factors Risk management Risk reduction Safety Sensitivity analysis Surface mines Surface mining Uncertainty Workplaces Z-number
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description	Surface mining is vulnerable and subject to a wide range of risks, requiring extensive risk analysis to ensure mine health and safety (MHS). Fault tree analysis (FTA) is a graphic representation tool for conducting safety and reliability analyses by modeling causal chains that lead to failures. However, conventional FTA cannot deal with uncertain and imprecise information. Therefore, in order to handle the uncertainty arising from lack of complete information and to enhance the reliability of qualitative judgment of experts, the concepts of Z-numbers and fuzzy theory are combined with FTA. The proposed approach used expert elicitation to comprehensively analyze MHS risks related to machine/equipment, environment, and workplace. Through causal inquiries of the FTA, 8 undesired events and 65 underlying basic events are explored and analyzed, taking into account the probability of occurrence of all basic events. Further, a sensitivity analysis is performed using Fussell-Vesely Importance and Risk Reduction Worth Methods to verify the model and examine how each of the basic events contributes to the occurrence of any undesirable incident. Results reveal that issues associated with blasting, dust, and explosive fumes are the most probable incidents to occur among the undesired events. The main basic events causing MHS risks result from non-implementation of regulations, staff incompetence, improper safety perimeter setting, and explosive calculations. This study assists practitioners in making risk management decisions and implementing corrective measures. The proposed approach can also be applied to investigate similar risk factors in different industries. •Fault Tree Analysis is conducted for surface mine health and safety related risks.•An improved z-number based fuzzy Fault Tree Analysis system is developed.•Eight undesired events and 65 underlying basic events are explored and analyzed.•Sensitivity analysis is performed to verify the model.•Blasting, dust, and explosives fumes are the most probably undesirable events.
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Fault tree analysis (FTA) is a graphic representation tool for conducting safety and reliability analyses by modeling causal chains that lead to failures. However, conventional FTA cannot deal with uncertain and imprecise information. Therefore, in order to handle the uncertainty arising from lack of complete information and to enhance the reliability of qualitative judgment of experts, the concepts of Z-numbers and fuzzy theory are combined with FTA. The proposed approach used expert elicitation to comprehensively analyze MHS risks related to machine/equipment, environment, and workplace. Through causal inquiries of the FTA, 8 undesired events and 65 underlying basic events are explored and analyzed, taking into account the probability of occurrence of all basic events. 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The proposed approach can also be applied to investigate similar risk factors in different industries. •Fault Tree Analysis is conducted for surface mine health and safety related risks.•An improved z-number based fuzzy Fault Tree Analysis system is developed.•Eight undesired events and 65 underlying basic events are explored and analyzed.•Sensitivity analysis is performed to verify the model.•Blasting, dust, and explosives fumes are the most probably undesirable events.</description><identifier>ISSN: 0301-4207</identifier><identifier>EISSN: 1873-7641</identifier><identifier>DOI: 10.1016/j.resourpol.2022.102591</identifier><language>eng</language><publisher>Kidlington: Elsevier Ltd</publisher><subject>Blasting (explosive) ; Dust ; Elicitation ; Fault tree ; Fault tree analysis ; Fumes ; Graphical representations ; Mine health and safety ; Mining ; Mining industry ; Regulation ; Reliability ; Reliability analysis ; Risk analysis ; Risk factors ; Risk management ; Risk reduction ; Safety ; Sensitivity analysis ; Surface mines ; Surface mining ; Uncertainty ; Workplaces ; Z-number</subject><ispartof>Resources policy, 2022-06, Vol.76, p.102591, Article 102591</ispartof><rights>2022 Elsevier Ltd</rights><rights>Copyright Elsevier Science Ltd. 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Fault tree analysis (FTA) is a graphic representation tool for conducting safety and reliability analyses by modeling causal chains that lead to failures. However, conventional FTA cannot deal with uncertain and imprecise information. Therefore, in order to handle the uncertainty arising from lack of complete information and to enhance the reliability of qualitative judgment of experts, the concepts of Z-numbers and fuzzy theory are combined with FTA. The proposed approach used expert elicitation to comprehensively analyze MHS risks related to machine/equipment, environment, and workplace. Through causal inquiries of the FTA, 8 undesired events and 65 underlying basic events are explored and analyzed, taking into account the probability of occurrence of all basic events. 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Fault tree analysis (FTA) is a graphic representation tool for conducting safety and reliability analyses by modeling causal chains that lead to failures. However, conventional FTA cannot deal with uncertain and imprecise information. Therefore, in order to handle the uncertainty arising from lack of complete information and to enhance the reliability of qualitative judgment of experts, the concepts of Z-numbers and fuzzy theory are combined with FTA. The proposed approach used expert elicitation to comprehensively analyze MHS risks related to machine/equipment, environment, and workplace. Through causal inquiries of the FTA, 8 undesired events and 65 underlying basic events are explored and analyzed, taking into account the probability of occurrence of all basic events. Further, a sensitivity analysis is performed using Fussell-Vesely Importance and Risk Reduction Worth Methods to verify the model and examine how each of the basic events contributes to the occurrence of any undesirable incident. Results reveal that issues associated with blasting, dust, and explosive fumes are the most probable incidents to occur among the undesired events. The main basic events causing MHS risks result from non-implementation of regulations, staff incompetence, improper safety perimeter setting, and explosive calculations. This study assists practitioners in making risk management decisions and implementing corrective measures. 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subjects	Blasting (explosive) Dust Elicitation Fault tree Fault tree analysis Fumes Graphical representations Mine health and safety Mining Mining industry Regulation Reliability Reliability analysis Risk analysis Risk factors Risk management Risk reduction Safety Sensitivity analysis Surface mines Surface mining Uncertainty Workplaces Z-number
title	Improved Z-number based fuzzy fault tree approach to analyze health and safety risks in surface mines
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