A hierarchical assessment of resilience engineering indicators in petrochemical industries using AHP and TOPSIS

Shirali, Gholam Abbas; Rashnoudi, Payam; Salehi, Vahid; Ghanbari, Sahebeh

doi:10.1002/hfm.20980

Hum Ftrs & Erg Mfg Svc

2022

DOI: 10.1002/hfm.20980

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A hierarchical assessment of resilience engineering indicators in petrochemical industries using AHP and TOPSIS

Gholam Abbas Shirali

Payam Rashnoudi

Vahid Salehi

et al.

Abstract: Resilience engineering (RE) is a proactive approach that enables complex systems to deal with adverse events and improve safety management by enhancing structural and organizational capabilities. A methodological examination of RE-related studies showed that they had only focused on some major indicators so that subindicators have been mostly neglected. This study aims to present a hierarchical analysis to identify the importance degree of indicators and subindicators of RE using analytic hierarchy process (AH… Show more

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Cited by 3 publications

References 53 publications

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Analysis of Spatial and Temporal Variation in Sustainable Water Resources and Their Use Based on Improved Combination Weights

Tian,

Jiang,

Jin

et al. 2023

Water

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The sustainable use of water resources has become increasingly crucial given the present water supply and demand situation. In this study, the degree of sustainable water resource utilization in Harbin City from 2014 to 2021 was calculated using a fuzzy identification model with a combination of the “sequential relationship analysis method (G1) and coefficient of variation method (CVM)” and 18 evaluation indicators retrieved for water resources, reflecting social, economic, and ecological aspects. The study shows that (1) in terms of the research method, the combined weighting of “G1-CVM” is a feasible approach to avoid the shortcomings of single weighting and (2) in terms of the evaluation of water resources sustainable utilization, the spatial distribution of water resources in each district (county) of Harbin City has been stable over the past 8 years. The spatial distribution pattern is relatively stable, with the three regions of Binxian, Bayan, and Shuangcheng showing better sustainable water resource utilization and the three regions of Tonghe County, including the main urban area and Wuchang City, showing deteriorating sustainable water resource utilization. As a whole, the spatial distribution of sustainable water resources in the 13 districts (counties) of Harbin City from 2014 to 2021 shows a negative correlation, with the main urban area, Wuchang City, Hulan District, Bayan County, Shuangcheng District, and Yilan County showing a clustering type in the local spatial autocorrelation analysis. Based on the evaluation results, the spatial and temporal distribution characteristics of the sustainable use of water resources in Harbin are identified and found to be conducive to the timely adjustment of water resources allocation and the rational use of water resources in each district (county). Meanwhile, the research ideas and methods used in this paper can be applied to research on the sustainable use of water resources in other regions.

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Analysis of Spatial and Temporal Variation in Sustainable Water Resources and Their Use Based on Improved Combination Weights

Tian,

Jiang,

Jin

et al. 2023

Water

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Natural hazards in electricity grids: from landscape dynamics to optimal mitigation and adaptation approaches

Bouramdane

2024

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Research on Supply Chain Risk Evaluation of Furniture Manufacturing Industry

Xiao,

Chi

2024

Journal of Business and Marketing

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With the rapid development of furniture manufacturing industry, the research of supply chain risk evaluation is more and more concerned by the industry. How to evaluate supply chain risk is the focus of current research. In this paper, SCOR model is used to identify supply chain risk factors of furniture manufacturing industry from five aspects: planning, procurement, production, distribution and returns, and the supply chain risk evaluation index system is constructed. The analytic hierarchy process (AHP) is used to determine the risk index weight, and the fuzzy comprehensive evaluation is used to comprehensively evaluate the supply chain risk, and risk coping strategies with suggestions are proposed according to the evaluation results.

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A hierarchical assessment of resilience engineering indicators in petrochemical industries using AHP and TOPSIS

Cited by 3 publications

References 53 publications

Analysis of Spatial and Temporal Variation in Sustainable Water Resources and Their Use Based on Improved Combination Weights

Analysis of Spatial and Temporal Variation in Sustainable Water Resources and Their Use Based on Improved Combination Weights

Natural hazards in electricity grids: from landscape dynamics to optimal mitigation and adaptation approaches

Research on Supply Chain Risk Evaluation of Furniture Manufacturing Industry

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