Assessment and control of VOCs emitted from gas stations in Tehran, Iran

Eisaei, Hamid Reza; Ahmadi Dehrashid, Seyed Shaho; Khani, Mohammad Reza; Hashemi, Seyed Mukhtar

doi:10.7508/pj.2015.04.002

Assessment and control of VOCs emitted from gas stations in Tehran, Iran

Document Type : Original Research Paper

Authors

¹ Department of Environmental Engineering, Graduate School of the Environment and Energy, Science and Research Branch, Islamic Azad University, Hesarak, P.O. Box 14515-775, Tehran, Iran

² Department of Environmental Health Engineering, School of the Public Health, Tehran Branch of Medical Sciences, Islamic Azad University, Tehran, Iran

³ Newcastle Institute for Research on Sustainability, NIReS, School of Civil Engineering and Geosciences, University of Newcastle Upon Tyne, NE1 7RU, UK

10.7508/pj.2015.04.002

Abstract

In this research, gasoline vapours including Benzene, Toluene, Xylene (BTX) and Total Volatile Organic Compounds (TVOCs) emitted from vent pipes of underground storage tanks (USTs) were measured at six gas stations in Tehran. Thereafter, gas station No. 29 was selected as a pilot station and equipped with a vapour control system. The vapours were measured during the summer of 2013 and winter of 2014 in two states, before and at the time of gasoline discharge from a petrol tanker to the UST. The results reveal that the average of BTX and TVOCs are 161.22, 200.81, 229 and 647.01 ppm, respectively, higher than the World Health Organisation (WHO) guidelines. The average of TVOCs and BTX in the situation in which the control system is inactive at the pilot station, are 259.13, 55.9, 73.03 and 96.88 ppm, respectively. After activating the control system at the pilot station, the VOCs were reduced by 0.01 ppm. Almost 99.99% control was obtained for this system and 87% of the people living around the pilot station were satisfied and no longer had any complaints about the bad odour of VOCs. It can be concluded that gasoline discharge from the petrol tanker to UST, is the main reason behind the overproduction of VOCs in Tehran's gas stations (P<0.001). So, the most important element is to reduce VOCs at Tehran's gas stations by installing a vapour control systems in all the stations and activating the systems at the time of gasoline discharge.

Keywords

References

Atabi, F., Moattar, F., Mansouri, N., Alesheikh, A.A. and Mirzahosseini, S.A.H. (2013). Assessment of variations in benzene concentration produced from vehicles and gas stations in Tehran using GIS. Int. J. Environ. Sci. Technol., 10(2), 283-294.
Bay Area Air Quality Management District (BAAQMD), (2011, August 31). History of Air District. Communications & Outreach Division. Retrieved February 10, 2015, from http://www.baaqmd.gov/Divisions/Communications-and-Outreach/News-Media-and-Features/History-of-Air-District-2005/1970--1975.aspx
Correa, S.M., Arbilla, G., Marques, M.R.C. and Oliveira, K.M.P.G. (2012). The impact of BTEX emissions from gas stations into the atmosphere. Atmos. Pol. Res., 3, 163-169.
Cruz-Núñez, X., Hernández-Solı́s, J.M. and Ruiz-Suárez, L.G. (2003). Evaluation of vapor recovery systems efficiency and personal exposure in service stations in Mexico City. Sci. Total Environ., 309(1-3), 59-68.
De Nevers, N. (2000). Air Pollution Control Engineering. (Columbus: McGraw-Hill Higher Education).
Franco, M., Chairez, I., Poznyak, T. and Poznyak, A. (2012). BTEX decomposition by ozone in gaseous phase. J. Environ. Manage., 95(Supplement), S55-S60.
Fung, F. and Maxwell, B. (2011) Onboard Refueling Vapor Recovery: Evaluation of the ORVR Program in the United States. Working Paper 2011-12, International Council on Clean Transportation.
Heitner, K. (1973) Control of Gasoline Vapour Losses From Station and Vehicle Filling. Status Report, California Institute of Technology.
Hess, D.E. (2002) Stage II Vapor Recovery Systems. Fact Sheet, Commonwealth of Pennsylvania.
Ion Science (2008). FIRSTCHECK+. ION SCIENCE LIMITED. Retrieved July 19, 2014, from http://www.ionscience.com/assets/files/brochures/FirstCheck+%20V3.6.pdf.
Jafari, H.R. and Ebrahimi, S. (2007). A study on risk assessment of Benzene as one of the VOCs air pollution. Int. J. Environ. Res., 1(3), 214-217.
Majumdar, D., Dutta, C., Mukherjee, A.K. and Sen, S. (2008). Source apportionment of VOCs at the petrol pumps in Kolkata, India; exposure of workers and assessment of associated health risk. Transport. Res. D-Tr. E., 13(8), 524-530.
Mohamed, M.F., Kang, D. and Aneja, V.P. (2002). Volatile organic compounds in some urban locations in United States. Chemosphere, 47, 863-882.

Powell, G. (2011) EPA actions to increase benzene emissions beginning in 2013. Newsletter, Powell Shale Digest Rankin, K. (2013, August 8). Stage I and Stage II Vapor Recovery. Air Bureau. Retrieved July 12, 2014, from http://www.ct.gov/deep/cwp/view.asp?A=2684&Q=322140.
Scottish Environment Protection Agency (SEPA), (2015). Stages I and Stage II explained. Pollution Prevention and Control. Retrieved February 12, 2015, from http://www.sepa.org.uk/air/process_ industry_regulation/pollution_prevention__control/petrol_stations.aspx Singh, AK., Tomer, N. and Jain, CL. (2012). Concentration of Volatile Organic Compounds (VOCs) in Urban Atmosphere of National Capital Delhi, India. Int. J. Pharmaceut. Chem. Biol. Sci., 2(2), 159-165. Retrieved July 19, 2014, from http://www.ijpcbs.com/files/v2i2(6).pdf
Srivastava, A. (2004). Source apportionment of ambient VOCs in Mumbai city. Atmos. Environ., 38(39), 6829-6843. Tehran NIOPDC, (2014). Tehran's gas stations. National Iranian Oil Products Distribution Company. Retrieved July 13, 2014, from http://tehran.niopdc.ir/HomePage.aspx?TabID=5946&Site=tehran.niopdc&Lang=en-US
United States Environmental Protection Agency (USEPA), (1990) Cancer Risk from Outdoor Exposure to Air Toxics. Final Report, Office of Air Quality Planning and Standards. Wikipedia, (2015, March 19). Tehran. The free encyclopedia. Retrieved March 22, 2015, from http://en.wikipedia.org/wiki/Tehran Johnson, K. (2013) Volatile Organic Compounds. Report to the Legislature, Wisconsin Groundwater Coordinating Council
Yimrungruang, D., Cheevaporn, V., Boonphakdee, T., Watchalayann, P. and Helander, H.F. (2008). Characterization and Health Risk Assessment of Volatile Organic Compounds in Gas Service Station Workers. Environ. Asia, 2, 21-29. Retrieved July 17, 2014, from http://www.tshe.org/ea/pdf/ vol1%20no2%20p21-29.pdf
Zhang, Y., Wang, X., Zhang, Z., Lü, S., Shao, M., Lee, F.S.C. and Yu, J. (2013). Species profiles and normalized reactivity of volatile organic compounds from gasoline evaporation in China. Atmos. Environ., 79, 110-118. Zheng, J., Zhu, T., Zhang, R., Wang, M., Chang, C.C., Shao, M. and Hu, M. (2011). Characterization of gas station emissions during the CAREBeijing 2008 field study. Atmos. Chem. Phys. Discuss., 11(5), 14719-14746.
Zink, J. (2013) Marine Vapor Emission Control Systems. Status Report, John Zink Hamworthy Combustion.

Volume 1, Issue 4 - Serial Number 4
October 2015
Pages 363-371

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Assessment and control of VOCs emitted from gas stations in Tehran, Iran

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October 2015
Pages 363-371

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Assessment and control of VOCs emitted from gas stations in Tehran, Iran

References

Volume 1, Issue 4 - Serial Number 4October 2015Pages 363-371

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Volume 1, Issue 4 - Serial Number 4
October 2015
Pages 363-371