Analyzing Health, Safety, and Environmental Risks of Construction Projects Using the Fuzzy Analytic Hierarchy Process: A Field Study Based on a Project Management Body of Knowledge

Author:

Soltanzadeh Ahmad,Mahdinia Mohsen,Omidi Oskouei Alireza,Jafarinia Ehsan,Zarei EsmaeilORCID,Sadeghi-Yarandi MohsenORCID

Abstract

Due to their unique nature, construction projects are considered one of the world’s most hazardous and incident-prone industrial sectors. The present study aimed to analyze health, safety and environmental (HSE) risks relating to construction projects based on the project management body of knowledge (PMBOK) and sustainability approach. This study was conducted with the participation of 30 experts, using the semi-quantitative risk assessment technique, in nine areas of the project management’s body of knowledge, based on the fuzzy analytic hierarchy process. Risk, in this study, was estimated using a two-dimensional matrix of incident probability and severity, each of which has four sub-parameters. The HSE risks pertaining to each of the nine areas of PMBOK were identified. After that, the two dimensions of risk, including incident probability and severity, were measured. Thirty-seven risk sources associated with nine areas of the PMBOK were identified. Risk analysis revealed that 20 sources were at an unacceptable risk level, and 17 risks were at a tolerable risk level. Identifying HSE-related risk sources in accordance with the nine areas of PMBOK, and using FAHP to assess the risk of these hazards in construction projects, can lead to a more realistic estimate of risk in construction projects. The presented method in the current study can create a novel perspective in terms of the construction industry’s risk management and assessment.

Publisher

MDPI AG

Subject

Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction

Reference47 articles.

1. Zhou, X.-H., Shen, S.-L., Xu, Y.-S., and Zhou, A.-N. (2019). Analysis of Production Safety in the Construction Industry of China in 2018. Sustainability, 11.

2. Othman, I., Shafiq, N., and Nuruddin, M. (2017, January 8–9). Effective safety management in construction project. Proceedings of the International Conference on Architecture and Civil Engineering (ICACE 2017), Petaling Jaya, Malaysia.

3. Development of a New Technique for Safety Risk Assessment in Construction Projects Based on Fuzzy Analytic Hierarchy Process;Mahdinia;Eng. Struct.,2021

4. Trends of Fall Accidents in the U.S. Construction Industry;Kang;J. Constr. Eng. Manag.,2017

5. Key factors contributing to accident severity rate in construction industry in Iran: A regression modelling approach/Primjena regresijskog modela u analizi ključnih čimbenika koji pridonose težini nesreća u građevinskoj industriji u Iranu;Soltanzadeh;Arch. Ind. Hyg. Toxicol.,2016

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