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  • بررسی میزان آلاینده های هوای تولیدی توسط مجتمع بهره برداری نفت و گاز شماره 3 اهواز

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رقم المقالة : HE-2209-2056 (R1) زيارة : 153 الصفحة: 131 - 147

نوع المخطوط: ابحاث

بررسی میزان آلاینده های هوای تولیدی توسط مجتمع بهره برداری نفت و گاز شماره 3 اهواز

الموضوعات :

علی کاشانی صفار 1 , حسین نوروزی 2 , نسرین چوبکار 3 , لیا شوشتری کرمانشاهی 4

1 - دانشجوی دکترا، گروه محیط زیست، واحد کرمانشاه، دانشگاه آزاد اسلامی، کرمانشاه، ایران.
2 - استادیار گروه منابع طبیعی و محیط زیست، واحد کرمانشاه، دانشگاه آزاد اسلامی، کرمانشاه، ایران.
3 - دانشیار گروه منابع طبیعی و محیط زیست، واحد کرمانشاه، دانشگاه آزاد اسلامی، کرمانشاه، ایران. *(مسوول مکاتبات)
4 - گروه بیوتکنولوژی و به نژادی گیاهی، واحد کرمانشاه، دانشگاه آزاد اسلامی، کرمانشاه، ایران.

تاريخ الإرسال : 15 الأحد , صفر, 1444 تاريخ التأكيد : 15 الثلاثاء , ربيع الأول, 1444 تاريخ الإصدار : 04 الخميس , ذو الحجة, 1444

الکلمات المفتاحية: فعالیت انسانی, بهره‌برداری نفت و گاز, شاخص کیفیت هوا, آلودگی هوا,

ملخص المقالة :

زمینه و هدف: واحدهای تولید نفت و گاز به دلیل داشتن فرآیندهای احتراق و سوزاندن ضایعات نفت و گاز، مقادیر زیادی از آلاینده های هوا را منتشر کرده و باعث به خطر افتادن سلامت محیط زیست و افراد می شوند. با توجه به گستردگی فعالیت این صنعت در استان خوزستان، در مطالعه ی حاضر محدوده ی تاثیر گذاری گازهای خروجی فلرهای مجتمع بهره برداری نفت و گاز غرب اهواز (شماره 3) در زمستان 1398 مورد بررسی قرار گرفته است. روش بررسی: جهت انجام این مطالعه گازهای NO2 و CO2، SO2، O3 در چهار جهت شمال، جنوب، غرب و شرق و در فواصل 50، 100، 500، 1000، 2000 و 3000 متری توسط دستگاه های قرائت مستقیم سنجش گردید. یافته ها: گاز NO2، O3، SO2 و CO در فواصل نزدیک فلر و ذرات معلق PM2.5و PM10 بیشتر در فاصله ی 3000 متری در محدوده ی جاده ها مقادیر بالاتر از استاندارد داشتند. در خصوص ذراتPM2.5 و PM10 نتایج نشان داد که به ترتیب 16/79 درصد نقاط در وضعیت ناسالم برای گروه های حساس و ناسالم و 75 درصد نقاط در وضعیت سالم، بیش از 33/83 درصد نقاط مورد اندازه گیری در مورد دو گاز So2 و 75 درصد نقاط در گاز CO، 66/66 درصد در گاز No2 در وضعیت بسیار ناسالم قرار داشتند. بحث و نتیجه گیری: با توجه به مقادیر شاخص AQI، O3 و PM10 عموما در حالت ناسالم تا بسیار ناسالم قرار داشت و گاز SO2 و ذراتPM2.5 وضعیت بدتری در مقایسه با سایرین داشتند.

المصادر:


  1. Kumar, S.D., Dash A. 2018. Seasonal variation of air quality index and assessment, Global Journal of Environmental Science and Management. Vol. 4. pp. 483-492.
    2.
  2. Adebiyi, F.M. 2020. Paraffin wax precipitation/deposition and mitigating measures in oil and gas industry: a review, Petroleu Science and Technology 2020; https://doi.org/10.1080/10916466.2020,2904400.
    3.
  3. Lyu, X.P., Chen, N., Guo, H., Zhang, W.H., Wang, N., Wang, Y., Liu, M. Ambient volatile organic compounds and their effect on ozone production in Wuhan, central China. Science of the Total Environment. Vol. 541. pp. 200-209.
    4.
  4. Song, P., Wanga, L., Hui, Y., Li, R. 2015. PM5 Concentrations Indoors and Outdoors in Heavy Air Pollution Days in winter. Procedia Engineering. Vol. 121. pp.1902–1906.
    5.
  5. Adebiyi, F.M. Air quality and management in petroleum refining industry: A review. Environmental Chemistry and Ecotoxicology. Vol. 4. pp. 89-96.
    6.
  6. Cheng, S., Zhang, J., Wang, Y., Zhang, D., Teng, G., Chang-Chien, G.P., Huang, Q., Zhang, Y.B., Yan, P. 2019. Global research trends in health effects of volatile organic compounds during the last 16 years: a bibliometric analysis, Aerosol and Air Quality Research. Vol. 19. pp.1843-1834.
    7.
  7. Hamid, A., Akhtar, S., Atique, S.A., Huma, Z., Mohay Uddin, S.G., Asghar, S. 2019. Ambient air quality & noise level monitoring of different areas of Lahore (Pakistan) and its health impacts. Polish Journal of Environmental Studies. Vol. 28. pp.623–629.
    8.
  8. Zhang, H., Srinivasan, R.A. 2020. Systematic review of air quality sensors, guidelines, and measurement studies for indoor air quality management. Sustainability. Vol. 12. pp. 9045.
    9.
  9. 2014. Air quality index (AQI), a guide to air quality and your health. US Environmental Protection Agency Office of Air Quality Planning and Standards Outreach and Information Division Research Triangle Park, North Carolina.
    10.
  10. Dash, A.K, Dash, S.K. 2017. Atmospheric pollution load assessment through air quality index: A case study.Indian Journal of Environmental Protection. Vol. 37(9). pp. 736-741.
    11.
  11. Yousefian, F., Faridi, S., Azimi, F., Aghaei, M., Shamsipour, M., Yaghmaeian, K., Hassanvand, M.S.2020. Temporal variations of ambient air pollutants and meteorological influences on their concentrations in Tehran during 2012–2017. Scientific Reports. Vol. 10. pp. 292-303.
    12.
  12. Tong, X., Ho, J.M.W., Li, Z., Lui, K.H., Kwok, T.C.Y., Tsoi, K.K.F., Ho, K.F. 2020. Prediction model for air particulate matter levels in the households of elderly individuals in Hong Kong. Science of the Total Environment. Vol.717. pp. 135323.
    13.
  13. Aslam, A., Ibrahim, M., Shahid, I., Mahmood, A., Kashif Irshad, M., Yamin, M., Muhammad Tariq, G., Shamshiri, RR. 2020. Pollution Characteristics of Particulate Matter (PM2.5 and PM10) and Constituent Carbonaceous Aerosols in a South Asian Future Megacity. Applied Sciences. Vol. 10. pp. 8864-8874.
    14.
  14. 2005. Particulate matter air pollution: how it harms health. Fact sheet EURO/ 04/ 05 B, Copenhagen, Rome.
    15.
  15. List of air pollutant emissions (caused by man-made sources in Ahvaz metropolis, including compilation and evaluation of emission reduction scenarios). Environ Protec Organiz. (2022). (In Persian)
    16.
  16. Goudarzi, G., Omidi-Khaniabadi, Y. 2015. Application of Gaussian Model for assessment of particle matter dispersion from Doroud Cement Plant Stack, Lorestan. 3 th Nation Congress of Air and Noise Pollution Management; University of Sanati Sharif Tehran, Iran. (In Persian)
    17.
  17. Otaru, A., Odigure, J., Okafor, J., Abdulkareem, A. 2013. Model prediction of particulate dispersion from a Cement Mill Stack: Case study of a Cement Plant in Nigeria. Journal of Environmental Science, Toxicology and Food Technology. Vol. 2.pp. 97-110.
    18.
  18. Choomanee, P., Bualert, S., Thongyen, T., Salao, S., Szymanski, W.W., Rungratanaubon, T. 2020. Vertical variation of carbonaceous aerosols with in the PM2.5 fraction in Bangkok, Thailand. Aerosol and Air Quality Research. Vol. 20. pp. 43–52.
    19.
  19. Corson, S. 2006. Private Transportation Vs Mass Transit. The Environmental ASPECTS.
    20.
  20. Ideriah, T.J.K., Warmate, A.G., Alabraba, M.A.2008. Effect of Naked Lamp on levels of Air pollutants in Port Harcourt. Nigeria, Research Journal of Applied Sciences. Vol. 3(1). pp. 77-80.
    21.
  21. Heydari-Nejad, Q., Shuai, M. 2016. Investigating the effect of inter-tunnel chimney geometry on pollutant spreading in the external environment. Madras Mechinchal Engineering Journal. Vol. 17. pp. 22-13 (In Persian).
    22.
  22. Jackson, W., Lavdas, L., Pitrolo, M., Loberger, D., Kelly, D.N. 2009. Imple smoke dispersion model for prescribed and wildland fires in flat to gently rolling terrain, Help for the User Interface for Vsmoke-Gis and Vsmoke Version 2.2.1.
    23.
  23. Gurjar, B.R., Butler, T.M., Lawrence, M.G., Lelieveld, J. 2008. Evaluation of emissions and air quality in megacities. Atmospheric Environment. Vol.42. pp. 1593–1606.
    24.
  24. Khodeir, M., Shamy, M., Alghamdi, M., Zhong, M., Sun, H., Costa, M., Chen, L.C., Maciejczyk, P. 2012. Source apportionment and elemental composition of PM2.5 and PM10 in Jeddah City, Saudi Arabia. Atmosphric Pollution Research. Vol. 3. pp. 331–340.
    25.
  25. Li, C., Chen, P., Kang, S., Yan, F., Hu, Z., Qu, B., Sillanpää, M. 2016. Concentrations and light absorption characteristics of carbonaceous aerosol in PM2.5 and PM10 of Lhasa city, the Tibetan Plateau. Atmospheric Environment. Vol.127. pp.340–346.
    26.
  26. Sojinu, S.O., Ejeromedoghene, O. 2019. Environmental Challenges Associated with Processing of Heavy Crude Oils, Processing of Heavy Crude Oils - Challenges and Opportunities. Ramasamy Marappa Gounder, IntechOpen, https://doi.org/10.5772/intechopen 82605, Available from intechopen.com/chapters/64885.
    27.
  27. Al-Awadhi, J.M. 2014. Measurement of Air pollution in Kuwait City Using Passive Samplers. Atmospheric and Climate Sciences. Vol. 4. pp. 253-271.
    28.
  28. Tajuddin Mansouri, S., Zarghami, I. 2021. Explain the Human-Environment Relationship Using a Critique of the Theoretical Foundations of Space Syntax. Human and Environment. Vol. 60. pp. 159-181.
    29.

 

 

 

 

_||_

  1. Kumar, S.D., Dash A. 2018. Seasonal variation of air quality index and assessment, Global Journal of Environmental Science and Management. Vol. 4. pp. 483-492.
    2.
  2. Adebiyi, F.M. 2020. Paraffin wax precipitation/deposition and mitigating measures in oil and gas industry: a review, Petroleu Science and Technology 2020; https://doi.org/10.1080/10916466.2020,2904400.
    3.
  3. Lyu, X.P., Chen, N., Guo, H., Zhang, W.H., Wang, N., Wang, Y., Liu, M. Ambient volatile organic compounds and their effect on ozone production in Wuhan, central China. Science of the Total Environment. Vol. 541. pp. 200-209.
    4.
  4. Song, P., Wanga, L., Hui, Y., Li, R. 2015. PM5 Concentrations Indoors and Outdoors in Heavy Air Pollution Days in winter. Procedia Engineering. Vol. 121. pp.1902–1906.
    5.
  5. Adebiyi, F.M. Air quality and management in petroleum refining industry: A review. Environmental Chemistry and Ecotoxicology. Vol. 4. pp. 89-96.
    6.
  6. Cheng, S., Zhang, J., Wang, Y., Zhang, D., Teng, G., Chang-Chien, G.P., Huang, Q., Zhang, Y.B., Yan, P. 2019. Global research trends in health effects of volatile organic compounds during the last 16 years: a bibliometric analysis, Aerosol and Air Quality Research. Vol. 19. pp.1843-1834.
    7.
  7. Hamid, A., Akhtar, S., Atique, S.A., Huma, Z., Mohay Uddin, S.G., Asghar, S. 2019. Ambient air quality & noise level monitoring of different areas of Lahore (Pakistan) and its health impacts. Polish Journal of Environmental Studies. Vol. 28. pp.623–629.
    8.
  8. Zhang, H., Srinivasan, R.A. 2020. Systematic review of air quality sensors, guidelines, and measurement studies for indoor air quality management. Sustainability. Vol. 12. pp. 9045.
    9.
  9. 2014. Air quality index (AQI), a guide to air quality and your health. US Environmental Protection Agency Office of Air Quality Planning and Standards Outreach and Information Division Research Triangle Park, North Carolina.
    10.
  10. Dash, A.K, Dash, S.K. 2017. Atmospheric pollution load assessment through air quality index: A case study.Indian Journal of Environmental Protection. Vol. 37(9). pp. 736-741.
    11.
  11. Yousefian, F., Faridi, S., Azimi, F., Aghaei, M., Shamsipour, M., Yaghmaeian, K., Hassanvand, M.S.2020. Temporal variations of ambient air pollutants and meteorological influences on their concentrations in Tehran during 2012–2017. Scientific Reports. Vol. 10. pp. 292-303.
    12.
  12. Tong, X., Ho, J.M.W., Li, Z., Lui, K.H., Kwok, T.C.Y., Tsoi, K.K.F., Ho, K.F. 2020. Prediction model for air particulate matter levels in the households of elderly individuals in Hong Kong. Science of the Total Environment. Vol.717. pp. 135323.
    13.
  13. Aslam, A., Ibrahim, M., Shahid, I., Mahmood, A., Kashif Irshad, M., Yamin, M., Muhammad Tariq, G., Shamshiri, RR. 2020. Pollution Characteristics of Particulate Matter (PM2.5 and PM10) and Constituent Carbonaceous Aerosols in a South Asian Future Megacity. Applied Sciences. Vol. 10. pp. 8864-8874.
    14.
  14. 2005. Particulate matter air pollution: how it harms health. Fact sheet EURO/ 04/ 05 B, Copenhagen, Rome.
    15.
  15. List of air pollutant emissions (caused by man-made sources in Ahvaz metropolis, including compilation and evaluation of emission reduction scenarios). Environ Protec Organiz. (2022). (In Persian)
    16.
  16. Goudarzi, G., Omidi-Khaniabadi, Y. 2015. Application of Gaussian Model for assessment of particle matter dispersion from Doroud Cement Plant Stack, Lorestan. 3 th Nation Congress of Air and Noise Pollution Management; University of Sanati Sharif Tehran, Iran. (In Persian)
    17.
  17. Otaru, A., Odigure, J., Okafor, J., Abdulkareem, A. 2013. Model prediction of particulate dispersion from a Cement Mill Stack: Case study of a Cement Plant in Nigeria. Journal of Environmental Science, Toxicology and Food Technology. Vol. 2.pp. 97-110.
    18.
  18. Choomanee, P., Bualert, S., Thongyen, T., Salao, S., Szymanski, W.W., Rungratanaubon, T. 2020. Vertical variation of carbonaceous aerosols with in the PM2.5 fraction in Bangkok, Thailand. Aerosol and Air Quality Research. Vol. 20. pp. 43–52.
    19.
  19. Corson, S. 2006. Private Transportation Vs Mass Transit. The Environmental ASPECTS.
    20.
  20. Ideriah, T.J.K., Warmate, A.G., Alabraba, M.A.2008. Effect of Naked Lamp on levels of Air pollutants in Port Harcourt. Nigeria, Research Journal of Applied Sciences. Vol. 3(1). pp. 77-80.
    21.
  21. Heydari-Nejad, Q., Shuai, M. 2016. Investigating the effect of inter-tunnel chimney geometry on pollutant spreading in the external environment. Madras Mechinchal Engineering Journal. Vol. 17. pp. 22-13 (In Persian).
    22.
  22. Jackson, W., Lavdas, L., Pitrolo, M., Loberger, D., Kelly, D.N. 2009. Imple smoke dispersion model for prescribed and wildland fires in flat to gently rolling terrain, Help for the User Interface for Vsmoke-Gis and Vsmoke Version 2.2.1.
    23.
  23. Gurjar, B.R., Butler, T.M., Lawrence, M.G., Lelieveld, J. 2008. Evaluation of emissions and air quality in megacities. Atmospheric Environment. Vol.42. pp. 1593–1606.
    24.
  24. Khodeir, M., Shamy, M., Alghamdi, M., Zhong, M., Sun, H., Costa, M., Chen, L.C., Maciejczyk, P. 2012. Source apportionment and elemental composition of PM2.5 and PM10 in Jeddah City, Saudi Arabia. Atmosphric Pollution Research. Vol. 3. pp. 331–340.
    25.
  25. Li, C., Chen, P., Kang, S., Yan, F., Hu, Z., Qu, B., Sillanpää, M. 2016. Concentrations and light absorption characteristics of carbonaceous aerosol in PM2.5 and PM10 of Lhasa city, the Tibetan Plateau. Atmospheric Environment. Vol.127. pp.340–346.
    26.
  26. Sojinu, S.O., Ejeromedoghene, O. 2019. Environmental Challenges Associated with Processing of Heavy Crude Oils, Processing of Heavy Crude Oils - Challenges and Opportunities. Ramasamy Marappa Gounder, IntechOpen, https://doi.org/10.5772/intechopen 82605, Available from intechopen.com/chapters/64885.
    27.
  27. Al-Awadhi, J.M. 2014. Measurement of Air pollution in Kuwait City Using Passive Samplers. Atmospheric and Climate Sciences. Vol. 4. pp. 253-271.
    28.
  28. Tajuddin Mansouri, S., Zarghami, I. 2021. Explain the Human-Environment Relationship Using a Critique of the Theoretical Foundations of Space Syntax. Human and Environment. Vol. 60. pp. 159-181.
    29.

 

 

 

 

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