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A Comparative Study on Air Quality Measurement and Spatial Distribution of Pollutants in Pars Special Economic Energy Zone (PSEEZ) | ||
Pollution | ||
دوره 8، شماره 3، مرداد 2022، صفحه 978-994 اصل مقاله (820.1 K) | ||
نوع مقاله: Original Research Paper | ||
شناسه دیجیتال (DOI): 10.22059/poll.2022.337344.1328 | ||
نویسندگان | ||
Seyed Ebrahim Hassani Ziabari1؛ Tayebeh Tabatabaei* 1؛ Fazel Amiri2؛ Bahman Ramavandi3، 4 | ||
1Department of Environment, Faculty of Engineering, Branch Bushehr, Islamic Azad University, Bushehr, Iran | ||
2Department of Environment, College of Environmental Engineering, Branch Bushehr, Islamic Azad University, Bushehr, Iran | ||
3Invited Professor, Department of Environment, Bushehr Branch, Islamic Azad University, Bushehr, Iran | ||
4Systems Environmental Health and Energy Research Center, The Persian Gulf Biomedical Sciences Research Institute, Bushehr University of Medical Sciences, Bushehr, Iran | ||
چکیده | ||
Pars special economic energy zone (PSEEZ) in Iran is the second largest energy zone in the world with more than 60,000 operational and non-operational personnel. Considering the nature of the activities being done in PSEEZ, it is rational to expect that a wide range of hazardous materials be present in the air composition of this area. It is shown in this research that Benzene-Toluene-Ethylbenzene-Xylene (BTEX) are the most challenging in PSEEZ and benzene concentration violates the standards in all sampling points. The study area is divided into three subzones of gas refineries, petrochemical complexes and non-operational areas. In the gas refineries, benzene concentration is recorded to be 480 times higher than the standard for exposure limit. The concentration of benzene in petrochemical complexes is also about 160 times higher than the standard limit. Considering the vicinity of the petrochemical complexes the cumulative impacts of BTEX will also worsen the situation regarding BTEX cancer risk. In non-operational areas, benzene concentration reaches 40 times higher than the standard limit which is a serious health challenge. Comparing the data of BTEX distribution with AQI proves that AQI solely is not an appropriate index for assessing the air quality in PSEEZ and defining local indices for air quality assessment with taking hazardous chemicals such as BTEX into account. Moreover, some other pollutants such as heavy metals and H2S are detected in the air quality in significant amounts which raise the need to a reconsideration in location of unprotected non-operational personnel. | ||
کلیدواژهها | ||
BTEX؛ Active sampling؛ AQI؛ Heavy metals؛ PSEEZ | ||
مراجع | ||
Abbasi, S., Keshavarzi, B., Moore, F., Turner, A., Kelly, F. J., Dominguez, A. O. and Jaafarzadeh, N. (2019). Distribution and potential health impacts of microplastics and microrubbers in air and street dusts from Asaluyeh County, Iran. Environ Pollut, 244, 153-164.
Andersen, I., Lundqvist, G. R., Mølhave, L., Pedersen, O. F., Proctor, D. F., Væth, M. and Wyon, D. P. (1983). Human response to controlled levels of toluene in six-hour exposures. Scand J Work Env Hea, 405-418.
Asgharnejad, H., Khorshidi Nazloo, E., Madani Larijani, M., Hajinajaf, N. and Rashidi, H. (2021). Comprehensive review of water management and wastewater treatment in food processing industries in the framework of water‐food‐environment nexus. Compr Rev Food Sci F, 20(5), 4779-4815.
Asgharnejad, H. and Sarrafzadeh, M.-H. (2020). Development of digital image processing as an innovative method for activated sludge biomass quantification. Front Microbiol, 11, 2334.
Asgharnejad, H., Sarrafzadeh, M.-H., Abhar-Shegofteh, O., Nazloo, E. K. and Oh, H.-M. (2021). Biomass quantification and 3-D topography reconstruction of microalgal biofilms using digital image processing. Algal Res, 55, 102243.
Ashournejad, Q., Amiraslani, F., Moghadam, M. K. and Toomanian, A. (2019). Assessing the changes of mangrove ecosystem services value in the Pars Special Economic Energy Zone. Ocean Coast Manage, 179, 104838.
Brauer, M., Freedman, G., Frostad, J., Van Donkelaar, A., Martin, R. V., Dentener, F., Dingenen, R. v., Estep, K., Amini, H. and Apte, J. S. (2016). Ambient air pollution exposure estimation for the global burden of disease 2013. Environ Sci Technol, 50(1), 79-88.
Breuer, D. (2012). Analytical performance issues: Flow resistance of samplers for personal monitoring in work areas and requirements for sampling pump performance. J Occup Environ Hyg, 9(2), D25-D32.
Cepeda, M., Schoufour, J., Freak-Poli, R., Koolhaas, C. M., Dhana, K., Bramer, W. M. and Franco, O. H. (2017). Levels of ambient air pollution according to mode of transport: a systematic review. The Lancet Public Health, 2(1), e23-e34.
Ghazizade, M. J., Koulivand, H., Safari, E. and Heidari, L. (2020). Petrochemical waste characterization and management at Pars Special Economic Energy Zone in the south of Iran. Waste Manage Res, 0734242X20922585.
Ghazizade, M. J., Koulivand, H., Safari, E. and Heidari, L. (2021). Petrochemical waste characterization and management at Pars Special Economic Energy Zone in the south of Iran. Waste Manage Res, 39(2), 199-208.
Gia Pham, T., Kappas, M., Van Huynh, C. and Hoang Khanh Nguyen, L. (2019). Application of ordinary kriging and regression kriging method for soil properties mapping in hilly region of Central Vietnam. ISPRS Int Geo-Inf, 8(3), 147.
Gouin, T., Harner, T., Blanchard, P. and Mackay, D. (2005). Passive and active air samplers as complementary methods for investigating persistent organic pollutants in the Great Lakes basin. Environ Sci Technol, 39(23), 9115-9122.
Han, X., Sun, T. and Feng, Q. (2019). Study on environmental pollution loss measurement model of energy consumption emits and its application in industrial parks. Sci Total Environ, 668, 1259-1266.
Heibati, B., Pollitt, K. J. G., Karimi, A., Charati, J. Y., Ducatman, A., Shokrzadeh, M. and Mohammadyan, M. (2017). BTEX exposure assessment and quantitative risk assessment among petroleum product distributors. Ecotox Environ Safe, 144, 445-449.
Heidarinejad, Z., Kavosi, A., Mousapour, H., Daryabor, M. R., Radfard, M. and Abdolshahi, A. (2018). Data on evaluation of AQI for different season in Kerman, Iran, 2015. Data in brief, 20, 1917-1923.
Hsieh, P. Y., Shearston, J. A. and Hilpert, M. (2021). Benzene emissions from gas station clusters: a new framework for estimating lifetime cancer risk. J Environ Health Sci, 1-11.
Huang, Z., Wang, Y., Yu, Q., Ma, W., Zhang, Y. and Chen, L. (2015). Source area identification with observation from limited monitor sites for air pollution episodes in industrial parks. Atmos Environ, 122, 1-9.
Huang, Z., Yu, Q., Ma, W. and Chen, L. (2019). Surveillance efficiency evaluation of air quality monitoring networks for air pollution episodes in industrial parks: Pollution detection and source identification. Atmos Environ, 215, 116874.
Jiang, L., Fang, J., Li, K., Xu, X. and Qiao, J. (2021). Lung tissue inflammatory response and pneumonocyte apoptosis of Sprague-Dawley rats after a 30-day exposure in methyl mercaptan vapor. JAPCA J Air Waste Ma, 71(5), 540-552.
Jimeno-Sáez, P., Senent-Aparicio, J., Pérez-Sánchez, J. and Pulido-Velazquez, D. (2018). A Comparison of SWAT and ANN models for daily runoff simulation in different climatic zones of peninsular Spain. Water, 10(2), 192.
Kazemi, A., Malayeri, M. and Shariati, A. (2014). Feasibility study, simulation and economical evaluation of natural gas sweetening processes–Part 1: A case study on a low capacity plant in iran. J Nat Gas Sci Eng, 20, 16-22.
Keramati, A., Nabizadeh Nodehi, R., Rezaei Kalantary, R., Nazmara, S., Zahed, A., Azari, A., Bahramifar, H. and Mahvi, A. H. (2016). TVOCs and BTEX concentrations in the air of south pars special economic energy zone. J Maz Univ Med, 25(133), 236-244.
Kermani, M., Asadgol, Z., Gholami, M., Jafari, A. J., Shahsavani, A., Goodarzi, B. and Arfaeinia, H. (2021). Occurrence, spatial distribution, seasonal variations, potential sources, and inhalation-based health risk assessment of organic/inorganic pollutants in ambient air of Tehran. Environ Geochem Hlth, 43(5), 1983-2006.
Kim, H. S., Kim, Y. J. and Seo, Y. R. (2015). An overview of carcinogenic heavy metal: molecular toxicity mechanism and prevention. J Cancer Prev, 20(4), 232.
Knecht, U., Reske, A. and Woitowitz, H.-J. (2000). Biological monitoring of standardized exposure to ethylbenzene: evaluation of a biological tolerance (BAT) value. Arch Toxicol, 73(12), 632-640.
Kumar, A. and Tyagi, S. (2006). Benzene and toluene profiles in ambient air of Delhi as determined by active sampling and GC analysis.
Landrigan, P. J. (2017). Air pollution and health. The Lancet Public Health, 2(1), e4-e5.
Li, X., Hu, Z., Cao, J. and Xu, X. (2022). The impact of environmental accountability on air pollution: A public attention perspective. Energ Policy, 161, 112733.
Li, Y., Chiu, Y.-h. and Lu, L. C. (2018). Energy and AQI performance of 31 cities in China. Energ Policy, 122, 194-202.
Mirrezaei, M. A. and Orkomi, A. A. (2020). Gas flares contribution in total health risk assessment of BTEX in Asalouyeh, Iran. Process Saf Environ, 137, 223-237.
Mitsubayashi, K. and Hashimoto, Y. (2002). Bioelectronic nose for methyl mercaptan vapor using xenobiotic metabolizing enzyme: flavin-containing monooxygenase. Sensor Actuat B-Chem, 83(1-3), 35-40.
Mulholland, J. A., Butler, A. J., Wilkinson, J. G., Russell, A. G. and Tolbert, P. E. (1998). Temporal and spatial distributions of ozone in Atlanta: regulatory and epidemiologic implications. JAPCA J Air Waste Ma, 48(5), 418-426.
Na, K., Kim, Y. P., Moon, K.-C., Moon, I. and Fung, K. (2001). Concentrations of volatile organic compounds in an industrial area of Korea. Atmos Environ, 35(15), 2747-2756.
Nandan, A., Tauseef, S. and Siddiqui, N. (2017). Assessment of Ambient Air Quality Parameters in Various Industries of Uttarakhand, India. In (Mohan, R., Srinikethan, G., Meikap, B. (Eds.), Materials, Energy and Environment Engineering (pp. 279-290). Springer.
Ni, J.-Q., Chai, L., Chen, L., Bogan, B. W., Wang, K., Cortus, E. L., Heber, A. J., Lim, T.-T. and Diehl, C. A. (2012). Characteristics of ammonia, hydrogen sulfide, carbon dioxide, and particulate matter concentrations in high-rise and manure-belt layer hen houses. Atmos Environ, 57, 165-174.
Rai, P. K., Panda, L. L., Chutia, B. M. and Singh, M. M. (2013). Comparative assessment of air pollution tolerance index (APTI) in the industrial (Rourkela) and non industrial area (Aizawl) of India: An ecomanagement approach. AJEST, 7(10), 944-948.
Rostami, S., Abessi, O. and Amini-Rad, H. (2019). Assessment of the toxicity, origin, biodegradation and weathering extent of petroleum hydrocarbons in surface sediments of Pars Special Economic Energy Zone, Persian Gulf. Mar Pollut Bull, 138, 302-311.
Salocks, C. and Kaley, K. B. (2003). Sodium hydroxide. Tech Support Doc Toxicol Clandest Drug Labs Methamphetamine, 1, 1-9.
Sarkheil, H., Azimi, Y. and Rahbari, S. (2018). Modeling environmental air quality assessment using fuzzy logic in the Pars Special Economic Energy Zone (Case study: Assaluyeh, Bidkhon and Shirino regions). J Environ Sci Technol, 20(4), 1-16.
Sima, M., Rossnerova, A., Simova, Z. and Rossner, P. (2021). The impact of air pollution exposure on the MicroRNA machinery and lung cancer development. J Pers Med, 11(1), 60.
Tsai, W.-T. and Lin, Y.-Q. (2021). Trend analysis of air quality index (AQI) and greenhouse gas (GHG) emissions in Taiwan and their regulatory countermeasures. Environments, 8(4), 29.
Varatharajan, R., Manogaran, G., Priyan, M., Balaş, V. E. and Barna, C. (2018). Visual analysis of geospatial habitat suitability model based on inverse distance weighting with paired comparison analysis. Multimed Tools Appl, 77(14), 17573-17593.
Villacañas, F., Pereira, M. F. R., Órfão, J. J. and Figueiredo, J. L. (2006). Adsorption of simple aromatic compounds on activated carbons. J Colloid Interf Sci, 293(1), 128-136.
WHO. (2021). Air Pollution.
Wu, X., Huang, W., Zhang, Y., Zheng, C., Jiang, X., Gao, X. and Cen, K. (2015). Characteristics and uncertainty of industrial VOCs emissions in China. Aerosol Air Qual Res, 15(3), 1045-1058.
Zheng, S., Cao, C.-X. and Singh, R. P. (2014). Comparison of ground based indices (API and AQI) with satellite based aerosol products. Sci Total Environ, 488, 398-412.
Ziabari, S. E. H., Tabatabaie, T., Amiri, F. and Ramavandi, B. (2022). Spatial distribution of BTEX emission and health risk assessment in the ambient air of pars special economic energy zone (PSEEZ) using passive sampling. Environ Monit Assess, 194(2), 1-18.
Ziyarati, M. T., Bahramifar, N., Baghmisheh, G. and Younesi, H. (2019). Greenhouse gas emission estimation of flaring in a gas processing plant: Technique development. Process Saf Environ, 123, 289-298. | ||
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