تعداد نشریات | 20 |
تعداد شمارهها | 1,149 |
تعداد مقالات | 10,518 |
تعداد مشاهده مقاله | 45,415,489 |
تعداد دریافت فایل اصل مقاله | 11,291,282 |
Health Risk Assessment of Occupational Exposure of Refinery Unit Site Workers to BTEX in an Oil Refinery Company | ||
Journal of Health Sciences & Surveillance System | ||
دوره 10، شماره 1، فروردین 2022، صفحه 134-141 اصل مقاله (411.24 K) | ||
نوع مقاله: Case Study | ||
شناسه دیجیتال (DOI): 10.30476/jhsss.2021.90475.1193 | ||
نویسندگان | ||
Samad Jalilian1؛ Sima Sabzalipour* 1؛ Maryam Mohammadi Rouzbahani1؛ Ebrahim Rajabzadeh Ghatrami1، 2؛ Leila Ibrahimy Ghavamabadi1 | ||
1Department of Environment, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran | ||
2Department of Fisheries, Faculty of Marine Natural Resources, Khorramshahr University of Marine Science and Technology, Khorramshahr, Iran | ||
چکیده | ||
Background: Specific improvements in the risk assessment of chemicals have been recently considered by many national and international expert groups. This study aimed to identify the highest occupational exposure levels in Abadan Oil Refining Company, Iran, to benzene, toluene, ethylbenzene, and xylene (BTEX) in 2020. Methods: This is a cross-sectional, descriptive and analytical study carried out in several units (ten units) in Abadan Oil Refining Company. Air sampling and BTEX analysis were conducted according to NIOSH method number 1501. To determine the risk of exposure to BTEX pollutants, we used the method proposed by the Department of Occupational Safety and Health of Malaysia. Then, the hazard rate, exposure rate, and health risk level caused by exposure to chemicals were determined. Spss20 software was used to analyze the data. Results: The results showed the employees studied in this research were exposed to the pollutants of BTEX during their work. Comparing total BTEX concentrations with the recommended standard level showed that BTEX concentrations in Abadan Oil Refining Company Workers’ breathing zone were lower than the TLV-TWA recommended by ACGIH; also, the findings of this risk assessment study showed benzene had the highest risk ranking in seven operating units and a low risk ranking in three other units. Moreover, toluene, ethylbenzene, and xylene had a very low risk in all operating units. Conclusion: Corrective and preventive measures should be taken to eliminate or minimize the exposure rate due to the significant effects of benzene exposure. | ||
کلیدواژهها | ||
BTEX؛ Occupational Exposure؛ Risk Assessment؛ Workers | ||
مراجع | ||
1. Eisaei HR, Dehrashid A, Shaho S, Khani MR, Hashemi SM. Assessment and control of VOCs emitted from gas stations in Tehran, Iran. Pollution. 2015;1(4):363-71.
2. Franco M, Chairez I, Poznyak T, Poznyak A. BTEX decomposition by ozone in gaseous phase. J Environ Manage.2012;95 Suppl: S55-60.
3. Kim MS, Kim JS, Kim BW Removal of gaseous toluene by using TiO2 film doped of Ru-dye/Pt in a pilot scale photoreactor. Korean Journal of Chemical Engineering. 2012; 29(5): 549-554.
4. Integrated Risk Information System (IRIS). Chemical Assessment Summary: Benzene. Availableonline: cfpub.epa.gov/ncea/iris/iris_documents/documents/subst/0276_summary.pdf (accessed on 26 February, 2020.
5. Durmusoglu, E.; Taspinar, F.; Karademir, A. Health risk assessment of BTEX emissions in the landfill environment. J. Hazard. Mater. 2010, 6, 870–877. [CrossRef]
6. Heibati, B.; Pollitt, K.J.; Karimi, A.; Yazdani Charati, J.; Ducatman, A.; Shokrzadeh, M.; Mohammadyan, M. BTEX exposure assessment and quantitative risk assessment among petroleum product distributors. Ecotoxicol. Environ. Safety 2017, 144, 445–449. [CrossRef]
7. Masekameni, M.D.; Moolla, R.; Gulumian, M.; Brouwer, D. Risk Assessment of Benzene, Toluene, Ethylbenzene, and Xylene Concentrations from the Combustion of Coal in a Controlled Laboratory Environment. Int. J. Environ. Res. Public Health 2019, 16, 95. [CrossRef]
8. U.S. Environmental Protection Agency. Assessment of Health Risks to Garment Workers and Certain Home Residents from Exposure to Formaldehyde. Washington, DC: U.S. Environmental Protection Agency, Office of Pesticides and Toxic Substances,1978.
9. U.S. Environmental Protection Agency. Indoor Air Quality: 1991, Sick Building.
10. Integrated Risk Information System (IRIS). Chemical Assessment Summary: Benzene. Availableonline: cfpub.epa.gov/ncea/iris/iris_documents/documents/subst/0276_summary.pdf, 2020, (accessed on 26 February, 2020.
11. Durmusoglu, E.; Taspinar, F.; Karademir, A. Health risk assessment of BTEX emissions in the landfill environment. J. Hazard. Mater. 2010, 6, 870–877. [CrossRef]
12. Heibati, B.; Pollitt, K.J.; Karimi, A.; Yazdani Charati, J.; Ducatman, A.; Shokrzadeh, M.; Mohammadyan, M. BTEX exposure assessment and quantitative risk assessment among petroleum product distributors. Ecotoxicol. Environ. Safety 2017, 144, 445–449. [CrossRef]
13. Masekameni, M.D.; Moolla, R.; Gulumian, M.; Brouwer, D. Risk Assessment of Benzene, Toluene, Ethylbenzene, and Xylene Concentrations from the Combustion of Coal in a Controlled Laboratory Environment. Int. J. Environ. Res. Public Health 2019, 16, 95. [CrossRef]
14. Chameides, W.L.; Fehsenfeld, F.; Rodgers, M.O.; Cardellino, C.; Martinez, J.; Parrish, D.; Lonneman, W.; Lawson, D.R.; Rasmussen, R.A.; Zimmerman, P.; et al. Ozone precursor relationships in the ambient atmosphere. J. Geophys. Res. 1992, 97, 6037–6056. [CrossRef]
15. The International Agency for Research on Cancer. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans; The International Agency for Research on Cancer: Benzene, 2018, France.
16. Meek M, Chan P. Toluene: evaluation of risks to human health from environmental exposure in Canada. Journal of Environmental Science & Health Part C. 1994;12(2):507-15.
17.Calabrese G, Martini A, Sessa G, Cellini M, Bartolucci G, Marcuzzo G, et al. Otoneurological study in workers exposed to styrene in the fiberglass industry. International Archives of Occupational and Environmental Health. 1996;68(4):219-23.
18. Tunsaringkarn T, Prueksasit T, Kitwattanavong M, Siriwong W, Sematong S, Zapuang K, et al. Cancer risk analysis of benzene, formaldehyde and acetaldehyde on gasoline station workers. J Environ Eng Ecol Sci 2012; 1(1).
19. Dennison JE, Bigelow PL, Mumtaz MM, Andersen ME, Dobrev ID, Yang RS. Evaluation of potential toxicity from co-exposure to three CNS depressants (toluene, ethylbenzene, and xylene) under resting and working conditions using PBPK modeling. J Occup Environ Hyg. 2005;2(3):127-35.
20.Tunsaringkarn T, Siriwong W, Rungsiyothin A, Nopparatbundit S. Occupational exposure of gasoline station workers to BTEX compounds in Bangkok, Thailand. Int J Occup Environ Med. 2012;3(3):117-25.
21. Cho, S. I.; Damokosh, A. I.; Ryan, L. M.; Chen, D.; Hu, Y. A.; Smith, T. J.; Christiani, D. C.; Xu, X. Effects of exposure to organic solvents on menstrual cycle length. J. Occup. Environ. Med. 2001, 43 (6), 567−575.
22. Cetin, E., Odabasi, M. and Seyfioglu, R. Ambient volatile organic compound (VOC) concentrations around a petrochemical complex and a petroleum refinery. Sci. Total Environ. 2003; 312, 103112.
23. Lee, S.C., Chiu, M.Y., Ho, K.F., Zou, S.C. and Wang, X. Volatile organic compounds (VOCs) in urban atmosphere of Hong Kong. Chemosphere. 2002; 48, 375-382.
24. Lin, T.Y., Sree, U., Tseng, S.H., Chiu, K.H., Wu, C.H. and Lo, J.G. Volatile organic compound concentrations in ambient air of Kaohsiung petroleum refinery in Taiwan. Atmos. Environ.2004; 25, 4111-4122.
25. Abakay, A., Atilgan, S., Abakay, O., Atalay, Y., Guven, S., Yaman, F. & Tanrikulu, A. C. Frequency of respiratory function disorders among dental laboratory technicians working under conditions of high dust concentration, European Review for Medical and Pharmacological Sciences, (2013). 17, 6, 809-814.
26. Romieu, I., Ramirez, M., Meneses, F., Ashley, D., Lemire, S., Colome, S., Fung, K. and HernandezAvila, M. Environmental exposure to volatile organic compounds among workers in Mexico City as assessed by personal monitors and blood concentrations. Environ. Health Perspect. 1999; 107, 511.
27. Samarghandi M, Mehralipour J, Shabanlo A, Rahimpoor R. The evaluation of personal exposure to BTEX compounds in the traditional restaurants in Hamadan in 2013.
28. Guo H, Lee SC, Chan LY, Li WM. Risk assessment different indoor environments. Environ Res 2004; 94(1): 57-66.
29. Divine BJ, Hartman CM. Update of a study of crude oil production workers 1946–94. Occupational and Environmental Medicine. 2000;57(6):411-7.
30. Ozdemir et al., 1995. O. Ozdemir, N. Numanoğlu, U. Gönüllü, I. Savaş, D. Alper, H. Gürses. Chronic effects of welding exposure on pulmonary function tests and respiratory symptoms.
31. Franco M, Chairez I, Poznyak T, Poznyak A. BTEX decomposition by ozone in gaseous phase. J Environ Manage.2012;95 Suppl: S55-60.
32. Kim MS, Kim JS, Kim BW Removal of gaseous toluene by using TiO2 film doped of Ru-dye/Pt in a pilot scale photoreactor. Korean Journal of Chemical Engineering. 2012; 29(5): 549-554.10. Ozdemir et al., 1995. O. Ozdemir, N. Numanoğlu, U. Gönüllü, I. Savaş, D. Alper, H. Gürses Chronic effects of welding exposure on pulmonary function tests and respiratory symptoms.
33. National Occupational Health and Safety Commission. Guidance Note for the assessment of health risks arising from the use of hazardous substances in the workplace (NOHSC: 3017). Canberra, Australian: NOHSC; 1994. Available from: http://catalogue.nla.gov.au/Record/384273.
34. Ministry of Human Resources. Assessment of the health risks arising from the use of hazardous chemicals in the workplace (A manual of recommended practice). 2nd ed. Department of Occupational Safety and Health, 2000, Ministry of Human Resources, Malaysia.
35. Occupational Health Department. Guidelines on risk assessment for occupational exposure to harmful chemicals. Singapore, Ministry of Manpower; 2002. P.3-26.
36. Det Norske Veritas Certication. Occupational Health and Safety Assessment Series (OHSAS 18001) & Should I Care. Managing Risk, DNV Certication, Inc. 16340 Park Ten Place,Houston, TX 77084; 2008. Available from:http: //coss. net/Docs/cosm/ StrategicPlanningan dProgEval/OHSAS18001Q&A.pdf.
37. World Petroleum Council. A roadmap to health risk assessment in the oil and gas industry, 2006. IPIECA Report. World Petroleum Council, London; 2006. Available from: http://www.world petroleum.org/resources/special publications/187-ipieca-reports.
38. Occupational Health Department. Guidelines on risk assessment for occupational exposure to harmful chemicals. Singapore, Ministry of Manpower; 2002. P.3-26.
39. karimi A, Jamshidi Slukoei HR, Eslamizad S. Designing SQRA as a software to semi quantitative chemical risk assessment in workplace. Journal of Occupational Hygiene Engineering 2014; 1(2):47-56.
40. Ministry of Human Resources. Assessment of the health risks arising from the use of hazardous chemicals in the workplace (A manual of recommended practice). 2nd ed. Department of Occupational Safety and Health, 2000Ministry of Human Resources, Malaysia.
41. Jahangiri M. Health risk assessment of occupational exposure to harmful chemical factors in the management system of health, safety, environment. Paper presented at: The 1st National Conference on Safety Egineering & HSE Management; 2005; Tehran, Iran.
42. National Occupational Health and Safety Commission. Guidance Note for the assessment of health risks arising from the use of hazardous substances in the workplace (NOHSC: 3017). Canberra, Australian: NOHSC; 1994. Available from: http://catalogue.nla.gov.au/Record/384273.
43. Jahangiri M, Motovagheh M. Health risk assessment of harmful chemicals: case study in a petrochemical industry. Iran Occupational Health Journal 2011; 7(4):18-24.
44. Kim MS, Kim JS, Kim BW. Removal of gaseous toluene by using TiO2 film doped of Rudye/Pt in a pilot scale photoreactor. Kore J Chem Engineer. 2012;29(5):549-54.
45. World Health Organization Inter – Organization Programm for the sound management of chimicals . in world Health Organization, Editor.Prensiples for modelling dose – respons for the risk assessment of chemicals. Genava Switzerland. 2009, WHO.
46. Ministry of Human Resources. Assessment of the health risks arising from the use of hazardous chemicals in the workplace (A manual of recommended practice). 2nd ed. Department of Occupational Safety and Health, Ministry of Human Resources, Malaysia; 2000.
47. Occupational Health Department. Guidelines on risk assessment for occupational exposure to harmful chemicals. Singapore, Ministry of Manpower; 2002. P.3-26.
48. Ehsan Partovi, et, al. Risk assessment of occupational exposure to BTEX in the National Oil, Distribution Company in Iran, 2016, Chronic Diseases Journal.
49. Harati A, Shahtaheri SJ, Yousefi HA, Askari A, Abdolmohamadi N, Sayyahi Z, et al. Risk assessment of chemical pollutants in a petrochemical company. Peper presented at: The 6th Iranian Conference Energy Management and Environment; 2016 Dec 22; Tehran, Iran.
50. Ding G, Bao Y. Revisiting pesticide exposure and children’s health: focus on China. Sci Total Environ 2014; 472:289-95.
51. Jahangiri M, Parsarad M. Health risk assessment of harmful chemicals: case study in a petrochemical industry. Iran Occupational Health. 2010;7(4):18-24.
52. Jalali m, jalali s, shafii motlagh m, mardi h, negahban sar, faraji tomarkandi v, et al. Health risk assessment of occupational exposure to BTEX compounds in petrol refueling stations in Mashhad. Journal of Neyshabur University of Medical Sciences. 2014;1(1):19-27.
53.Weaver JW, Exum LR, Prieto LM. Gasoline composition regulations affecting LUST sites: US
Environmental Protective Agency, Office of Research and Development; 2010.
54. Kim MS, Kim JS, Kim BW. Removal of gaseous toluene by using TiO2 film doped of Ru dye/Pt in a pilot scale photoreactor. Kore J Chem Engineer. 2012;29(5):549-54.
55. Ogata M, Michitsuji H, Fujiki Y. Estimating amounts of toluene inhaled by workers with
protective mask using biological indicators of toluene. Toxicol Lett. 1999;108(2-3):233-9.
56. Freedman R, Ferber B, Hartstein A. Service lives of respirator cartridges versus several classes of organic vapors. Am Indust Hyg Assoc J. 1973;34(2):55-60.
57. Garber SR, Colton CE, Lucas DS. System and method for developing and/or maintaining a
workplace respiratory protection program. Google Patents; 1999.
58. Jahangiri M, Jalali M, Saeidi C, Mohammadpour H, Mardi H, Mehr Alipour J. Health risk Assessment of harmful chemicals in order to provide control guidelines: case study in a polyurethane foam industry. Occup Med Quart J. 2014;5(4):33-41. [Persian]
59. Golbabaie F, Eskandari D, Azari M, Jahangiri M, Rahimi A, Shahtaheri J. Health risk assessment of chemical pollutants in a petrochemical complex. Iran Occup Health. 2012;9(3). | ||
آمار تعداد مشاهده مقاله: 1,236 تعداد دریافت فایل اصل مقاله: 1,421 |