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Citation |
Aminu DR, Madzlan N, Idris O, Hamzh A. IOP Conf. Ser.: Earth Environ. Sci. 2022; 1022(1): e012011. |
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Copyright |
(Copyright © 2022, Institute of Physics) |
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DOI |
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PMID |
unavailable |
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Abstract |
Drowning or asphyxiation is one of the top five types of construction accidents on-site in the world. Few studies focus on the causes and sub-factors that contribute to drowning/asphyxiation in Malaysia's construction industry. This paper developed an Analytic Hierarchy Process (AHP) model for the factors and sub-factors for drowning/asphyxiation and determined their relative weights and priorities. Worker's unsafe actions have a maximum weight of about 80.98% for the significant factors based on the proposed AHP model, followed by hazardous site conditions with 10.89% and management factors with 8.13%. Financial constraint carries the most weight with 20.22% for the management factors, unsafe working and operating procedures in a confined space, and water bodies have the most weight with 26.97% for hazardous site conditions. Rushing to complete the job and failure to comply with standards working procedure in a confined space or water bodies have the most weight with 17.24 % each. This study can help safety practitioners understand the primary factors and sub-factors responsible for drowning and asphyxiation, how they can reduce the risk of fatal accidents on-site, and how they can make prompt safety decisions. The proposed model also provides a tool to determine the appropriate and effective drowning/asphyxiation prevention methods. |