Zheng Li, Min Yao, Zhenmin Luo, Xinping Wang, Tongshuang Liu, Qianrui Huang, Chang Su
BACKGROUND: With the rapid development of China's chemical industry, although researchers have developed many methods in the field of chemical safety, the situation of chemical safety in China is still not optimistic. How to prevent accidents has always been the focus of scholars' attention.
METHODS: Based on the characteristics of chemical enterprises and the Heinrich accident triangle, this paper developed the organizational-level accident triangle, which divides accidents into group-level, unit-level, and workshop-level accidents. Based on 484 accident records of a large chemical enterprise in China, the Spearman correlation coefficient was used to analyze the rationality of accident classification and the occurrence rules of accidents at different levels. In addition, this paper used TF-IDF and K-means algorithms to extract keywords and perform text clustering analysis for accidents at different levels based on accident classification. The risk factors of each accident cluster were further analyzed, and improvement measures were proposed for the sample enterprises.
RESULTS: The results show that reducing unit-level accidents can prevent group-level accidents. The accidents of the sample enterprises are mainly personal injury accidents, production accidents, environmental pollution accidents, and quality accidents. The leading causes of personal injury accidents are employees' unsafe behaviors, such as poor safety awareness, non-standard operation, illegal operation, untimely communication, etc. The leading causes of production accidents, environmental pollution accidents, and quality accidents include the unsafe state of materials, such as equipment damage, pipeline leakage, short-circuiting, excessive fluctuation of process parameters, etc. CONCLUSION: Compared with the traditional accident classification method, the accident triangle proposed in this paper based on the organizational level dramatically reduces the differences between accidents, helps enterprises quickly identify risk factors, and prevents accidents. This method can effectively prevent accidents and provide helpful guidance for the safety management of chemical enterprises.
J Pediatr Surg. 2021 Dec;56(12):2326-2332
[PMID:
33838900]
Int J Environ Res Public Health. 2022 May 19;19(10):
[PMID:
35627731]
J Hazard Mater. 2004 Jul 26;111(1-3):105-10
[PMID:
15231354]
Int J Occup Saf Ergon. 2016;22(1):131-41
[PMID:
26652772]
Int J Environ Res Public Health. 2021 May 10;18(9):
[PMID:
34068554]
J Public Health Res. 2018 Nov 08;7(2):1361
[PMID:
30581805]
J Med Syst. 2014 Nov;38(11):88
[PMID:
25265902]
Risk Anal. 2018 Apr;38(4):839-852
[PMID:
28768045]
J Hazard Mater. 2004 Jul 26;111(1-3):139-45
[PMID:
15231359]
Int J Environ Res Public Health. 2022 Jun 16;19(12):
[PMID:
35742616]
Int J Environ Res Public Health. 2022 Mar 18;19(6):
[PMID:
35329328]
Int J Environ Res Public Health. 2022 Feb 13;19(4):
[PMID:
35206297]
J Safety Res. 2002 Summer;33(2):195-208
[PMID:
12216446]
Int J Environ Res Public Health. 2021 Nov 15;18(22):
[PMID:
34831738]
Accid Anal Prev. 2010 Jul;42(4):1379-85
[PMID:
20441855]
Int J Inj Contr Saf Promot. 2018 Dec;25(4):416-426
[PMID:
29629618]
Sci Total Environ. 2007 Jun 1;378(3):269-80
[PMID:
17412398]
Accid Anal Prev. 2013 Jun;55:242-55
[PMID:
23567215]
