1. Beheshti MH, FirooziChahak A, AlinaghiLangari AA, Rostami S. Semi-quantitative risk assessment of health exposure to hazardous chemical agents in a petrochemical plant. Journal of Occupational Health and Epidemiology. 2015;4(1):1-8. [
DOI:10.18869/acadpub.johe.4.1.1]
2. Sharifi A, Amini nasab As, Delavar A. Assessment of Health Risk of Exposure to Chemical Pollutants Based on Program of Respiratory Protection at a Petrochemical Company in Mahshahr. J Occup Hyg and health Promot. 2020;3(4):331-4. eng
3. Vahid AhmadiMoshiran1AliKarimi2FaridehGolbabaei2 Mohsen SadeghiYarandi1Ali AsgharSajedian1Aysa GhasemiKoozekonan.Quantitative and Semiquantitative Health Risk Assessment of Occupational Exposure to Styrene in a Petrochemical Industry. Safety and Health at Work. 2021;12(3), P:396-402 [
DOI:10.1016/j.shaw.2021.01.009] [
PMID] [
]
4. Council NR. Risk assessment in the federal government: Managing the process. Washington (DC), National Academy Press; 1983.
5. Sadeghi Yarandi M, Karimi A, Sajedian AA, Golbabaei F, Quantitative health risk assessment of respiratory exposure to 1,3 Butadiene in a petrochemical industry . Iran Occup. Health.2020 .17(61).1-16 [
DOI:10.1177/0748233720962238] [
PMID]
6. M. Mohamadyan, M. Moosazadeh, A. Borji, N. Khanjani, S.R. Moghadam.Occupational exposure to styrene and its relation with urine mandelic acid, in plastic injection workers. Environ Monitoring Asses, 2019;191(2), P: 62 [
DOI:10.1007/s10661-019-7191-z] [
PMID]
7. Jahangiri M, Motovagheh M. Health Risk Assessment of Harmful Chemicals: Case Study in a Petrochemical Industry. Iran Occup. Health j. 2011;7(4),P:1-4. eng.
8. A semi-quantitative method to assess occupational exposure to harmful chemicals. ministry of manpower occupationa safety and health division 18Havelock Road 03-03 singapore 059764.
9. Controlling Health Risks at Work: A roadmap for the Oil & Gas industry.Part II. Health Risk Assessment (HRA): A sample template
10. Sharifi A, Amini Nasab AS, Delavar A. Assessment of health risk of exposure to chemical pollutants based on program of respiratory protection at a petrochemical company in Mahshahr. J Occup Environ Hyg. 2020; 3(4): 331-4. [In Persian].
11. Nikbakht N, Dehghan-Shahreza H. Identification and Assessment of Health Risks in Order to Provide Control Measures in a Bitumen Production Process from the Vacuum Batum of Oil Refineries. Health Serv. Res. 2021: 17(3), P: 231-242 [In Persian].
12. Abouei Mehrizi AR. Laboratory study of the simultaneous effect of noise and toluene exposure on biological and immunological parameters in rabbits . Tabriz University of Medical Sciences, Faculty of Health : Aialable from: http://dspace.tbzmed.ac.ir:8080/xmlui/handle/123456789/62223; 2020. (Thesis)
13. Khavanin A, Mortazavi SB, MirzaeiI R, Imani H, Fath elahi Y, Kazemnekad A, et al. The compaision of effect of toluene , especially noise and toluene along with noise pre auditory brain stem response on rabbit Zahesan. J Res Med Sci. 2007;9(3)
14. .Basahel A M. Investigation of Work-related Musculoskeletal Disorders (MSDs) in Warehouse Workers in Saudi Arabia. Procedia Manufacturing, 2015: )3(,P: 4643-4649 [
DOI:10.1016/j.promfg.2015.07.551]
15. ghaljahi m, namrudi s. Identification and assessment of hazard risks in a flour mill by the JSA and FMEA methodology. J Health Res Commun. 2017;3(3), P:82-9.
16. Adabavaze N NM. Risk Assessment of Occupational Health Risks with COHRA Approach Using Data Envelopment Analysis. jemsc. 2020; 5(2): 171-94