ارزیابی ریسکهای زیست محیطی و فنی در پروژه احداث تصفیهخانه فاضلاب غرب اهواز با استفاده از روش تصمیمگیری چند معیاره
الموضوعات :
پوریا بیژن زاده
1
,
کتایون ورشوساز
2
,
اصلان اگدرنژاد
3
1 - دانشجوی کارشناسی ارشد، گروه مهندسی عمران، واحد اهواز، دانشگاه آزاد اسلامی، اهواز، ایران.
2 - استادیار، گروه محیط زیست، واحد اهواز، دانشگاه آزاد اسلامی، اهواز، ایران. *(مسوول مکاتبات)
3 - استادیار، گروه علوم و مهندسی آب، واحد اهواز، دانشگاه آزاد اسلامی، اهواز، ایران.
تاريخ الإرسال : 16 الخميس , ربيع الثاني, 1444
تاريخ التأكيد : 24 السبت , صفر, 1445
تاريخ الإصدار : 08 السبت , ربيع الأول, 1445
الکلمات المفتاحية:
روش AHP,
تصفیهخانه,
روش EFMEA,
ارزیابی ریسک,
ملخص المقالة :
زمینه و هدف: با توجه به اینکه فاضلاب شهری و صنعتی از عوامل اصلی ورود آلودگیها به محیطزیست میباشند؛ اثرات زیستمحیطی و ریسکهای فنی و عملیاتی ناشی از آن در فاز بهرهبرداری همواره مورد توجه بوده است. لیکن اثرات و ریسکهای آن در فاز احداث نیز مهم است. از این رو، تحقیق حاضر با هدف ارزیابی ریسکهای زیستمحیطی و فنی پروژه احداث تصفیهخانه فاضلاب در غرب اهواز با روش تصمیمگیری سلسله مراتبی در سال 1400 انجام شد.
روش بررسی: پس از فاز مطالعاتی، اطلاعات مربوط به پروژه از طریق روش پیمایشی و حضور در محل تصفیه خانه گردآوری گردید و تمامی فرآیندهای اجرایی، تجهیزات و تاسیسات مورد بررسی قرار گرفت. بدین منظور از روش E-FMEA و نظرات کارشناسان فنی و زیستمحیطی برای شناسایی ریسکهای زیست محیطی و فنی استفاده شد. در ادامه، برای وزن دهی و اولویت بندی پارامترهای روش مورد استفاده، از تصمیمگیری چند معیاره (AHP)، استفاده گردید.
یافتهها: در مجموع 19 جنبه زیست محیطی و 24 ریسک فنی قابل توجه در فرآیندهای پروژه احداث تصفیه خانه غرب اهواز شناسایی شد. در دو مرحله احداث ساختمانها و نصب مخازن و تأسیسات، ریسکهای زیستمحیطی و فنی مشابه بودند. در سایر مراحل، ریسک فنی نسبت به زیستمحیطی از اهمیت بیشتری برخوردار بود. اختلاف تعداد بین دو ریسک فنی و زیستمحیطی در مراحل حفاری و گودبرداری، نصب فوندانسیون و اسکلت سازهها به ترتیب 50، 25 و 66 درصد بود.
بحث و نتیجهگیری: مقایسه کلیه ریسکها نشان داد که ریسکهای فنی نسبت به ریسکهای زیستمحیطی حدود 26 درصد بیشتر بود. به طور کلی نتایج نشان داد که اغلب ریسکهای زیستمحیطی در سطح قابل پذیرش و 8 مورد از ریسکهای فنی نیازمند رفع هرچه سریعتر قرار داشت.
المصادر:
He, Z., Weng, W. 2020. A dynamic and simulation-based method for quantitative risk assessment of the domino accident in chemical industry. Process Safety and Environmental Protection, vol. 144, 79-92.
Sousa, V., Almeida, N. M., Dias, L. A. 2014. Risk-based management of occupational safety and health in the construction industry–Part 1: Background knowledge. Safety science, vol. 66, 75-86.
Jozi S, Jafarzadeh Haghighi Fard N, Afzali Behbahani N. 2014. Hazard identification and risk assessment of high voltage power lines in residential areas using failure modes and effects analysis (FMEA). ijhe. 7 (1),55-64. (In Persian)
Merolla, P. A., Arthur, J. V., Alvarez-Icaza, R., Cassidy, A. S., Sawada, J., Akopyan, F., Modha, D. S. 2014. A million spiking-neuron integrated circuit with a scalable communication network and interface. Science, vol. 345(6197), 668-673.
Aven, T. 2016. Risk assessment and risk management: Review of recent advances on their foundation. European Journal of Operational Research, vol. 253(1), 1-13.
Jozi, Seyed Ali and Shams Khozani, Narges, 2013, Assessment of environmental risks of the gas unit of Shahid Madhaj Thermal Power Plant, Zergan, Ahvaz, using the failure mode analysis method and its effects on the environment (EFMEA), The fifth national conference on environmental crises in Iran and Solutions to improve them, Ahvaz. (In Persian)
Al-Harbi, K. M. A. S. 2001. Application of the AHP in project management. International journal of project management, 19(1), 19-27.
Nejad Biglari, Ali and Mohammadizadeh, Mohsen, 2017, risk management evaluation of construction projects by considering the effects of risks on each other, a case study: Gol Gohar Sirjan Mining and Industrial Complex, 2nd National Conference on Civil Engineering, Architecture and Urban Development of the Islamic World Countries, Tabriz. (In Persian)
H. 2013. Safety risk assessment using analytic hierarchy process (AHP) during planning and budgeting of construction projects. Journal of safety research, vol. 46, 99-105.
Dong, Y., & Hauschild, M. Z. 2017. Indicators for environmental sustainability. Procedia Cirp, vol. 61, 697-702.
Tam, V. W., & Tam, C. M. 2016. A review on the viable technology for construction waste recycling. Resources, conservation and recycling, vol. 47(3), 209-221.
Tabesh, M., Roozbahani, A., Gadigol, F. Risk Assessment of Water Treatment Plants Using Fuzzy Fault Tree Analysis (Case Study: Jalaliyeh Water Treatment Plant). Journal of Water and Wastewater; Ab va Fazilab, 2018; 29(4): 132-144. (In Persian)
Nikoo, M. R., Kerachian, R., Khoramshekooh, N. A. 2018. Risk Analysis Model for Security Management in Water Treatment Plants, Case Study: Salman Farsi Water Treatment Plant. Iran-Water Resources Research, 14(2): 195-206. (In Persian)
Yazdani, A. 2020. Investigation of risk management in construction, operation, transfer (B.O.T) projects case study: Shahrari water treatment plant effluent transfer project to Varamin plain. Civil and Project Journal, 4(1): 29-43. (In Persian)
Kwon, Y. T., Lee, C. W. 2019. Ecological risk assessment of sediment in wastewater discharging area by means of metal speciation. Microchemical Journal, vol. 70(3), 255-264.
Sui, Y., Ding, R., Wang, H. 2020. A novel approach for occupational health and safety and environment risk assessment for wastewater power plant construction project. Journal of Cleaner Production, 258, 120945.
Alvanchi, A., Rahimi, M., Mousavi, M., Alikhani, H. 2020. Construction schedule, an influential factor on air pollution in urban infrastructure projects. Journal of Cleaner Production vol., 255, 120222.
Eswaran, H., Lal, R., Reich, P. F. 2019. Land degradation: an overview. Response to land degradation, 20-35.
Osmani, M. 2011. Construction waste. In Waste. Academic Press. 207-218
Keshavarz, H. 2019. Innovation in sustainable construction management in large drilling projects (case study: stabilization of urban deep pits and underground structures in Ahvaz city). Research in Science, Engineering and Technology, 17(5), 1-18. (In Persian)
Darwin, D., Dolan, C. W., Nilson, A. H. 2016. Design of concrete structures. New York, NY, USA: McGraw-Hill Education.vol. 2.
Tadaion, M., honarmand, H., Kalhori, M. 2010. Impact of Plasticizers on the Quality of Concrete and The Reduction of the Cement Content. Concrete Research, 3(2): 49-57. (In Persian)
Arianmehr, E., Sabzi, Z., Abbas Gohari, F., Asgari, M. 2022. Investigating Safety Promotion Guidelines in Railway Construction Projects. Occupational Hygiene and Health Promotion Journal, 6 (2) :180-193.
_||_
He, Z., Weng, W. 2020. A dynamic and simulation-based method for quantitative risk assessment of the domino accident in chemical industry. Process Safety and Environmental Protection, vol. 144, 79-92.
Sousa, V., Almeida, N. M., Dias, L. A. 2014. Risk-based management of occupational safety and health in the construction industry–Part 1: Background knowledge. Safety science, vol. 66, 75-86.
Jozi S, Jafarzadeh Haghighi Fard N, Afzali Behbahani N. 2014. Hazard identification and risk assessment of high voltage power lines in residential areas using failure modes and effects analysis (FMEA). ijhe. 7 (1),55-64. (In Persian)
Merolla, P. A., Arthur, J. V., Alvarez-Icaza, R., Cassidy, A. S., Sawada, J., Akopyan, F., Modha, D. S. 2014. A million spiking-neuron integrated circuit with a scalable communication network and interface. Science, vol. 345(6197), 668-673.
Aven, T. 2016. Risk assessment and risk management: Review of recent advances on their foundation. European Journal of Operational Research, vol. 253(1), 1-13.
Jozi, Seyed Ali and Shams Khozani, Narges, 2013, Assessment of environmental risks of the gas unit of Shahid Madhaj Thermal Power Plant, Zergan, Ahvaz, using the failure mode analysis method and its effects on the environment (EFMEA), The fifth national conference on environmental crises in Iran and Solutions to improve them, Ahvaz. (In Persian)
Al-Harbi, K. M. A. S. 2001. Application of the AHP in project management. International journal of project management, 19(1), 19-27.
Nejad Biglari, Ali and Mohammadizadeh, Mohsen, 2017, risk management evaluation of construction projects by considering the effects of risks on each other, a case study: Gol Gohar Sirjan Mining and Industrial Complex, 2nd National Conference on Civil Engineering, Architecture and Urban Development of the Islamic World Countries, Tabriz. (In Persian)
H. 2013. Safety risk assessment using analytic hierarchy process (AHP) during planning and budgeting of construction projects. Journal of safety research, vol. 46, 99-105.
Dong, Y., & Hauschild, M. Z. 2017. Indicators for environmental sustainability. Procedia Cirp, vol. 61, 697-702.
Tam, V. W., & Tam, C. M. 2016. A review on the viable technology for construction waste recycling. Resources, conservation and recycling, vol. 47(3), 209-221.
Tabesh, M., Roozbahani, A., Gadigol, F. Risk Assessment of Water Treatment Plants Using Fuzzy Fault Tree Analysis (Case Study: Jalaliyeh Water Treatment Plant). Journal of Water and Wastewater; Ab va Fazilab, 2018; 29(4): 132-144. (In Persian)
Nikoo, M. R., Kerachian, R., Khoramshekooh, N. A. 2018. Risk Analysis Model for Security Management in Water Treatment Plants, Case Study: Salman Farsi Water Treatment Plant. Iran-Water Resources Research, 14(2): 195-206. (In Persian)
Yazdani, A. 2020. Investigation of risk management in construction, operation, transfer (B.O.T) projects case study: Shahrari water treatment plant effluent transfer project to Varamin plain. Civil and Project Journal, 4(1): 29-43. (In Persian)
Kwon, Y. T., Lee, C. W. 2019. Ecological risk assessment of sediment in wastewater discharging area by means of metal speciation. Microchemical Journal, vol. 70(3), 255-264.
Sui, Y., Ding, R., Wang, H. 2020. A novel approach for occupational health and safety and environment risk assessment for wastewater power plant construction project. Journal of Cleaner Production, 258, 120945.
Alvanchi, A., Rahimi, M., Mousavi, M., Alikhani, H. 2020. Construction schedule, an influential factor on air pollution in urban infrastructure projects. Journal of Cleaner Production vol., 255, 120222.
Eswaran, H., Lal, R., Reich, P. F. 2019. Land degradation: an overview. Response to land degradation, 20-35.
Osmani, M. 2011. Construction waste. In Waste. Academic Press. 207-218
Keshavarz, H. 2019. Innovation in sustainable construction management in large drilling projects (case study: stabilization of urban deep pits and underground structures in Ahvaz city). Research in Science, Engineering and Technology, 17(5), 1-18. (In Persian)
Darwin, D., Dolan, C. W., Nilson, A. H. 2016. Design of concrete structures. New York, NY, USA: McGraw-Hill Education.vol. 2.
Tadaion, M., honarmand, H., Kalhori, M. 2010. Impact of Plasticizers on the Quality of Concrete and The Reduction of the Cement Content. Concrete Research, 3(2): 49-57. (In Persian)
Arianmehr, E., Sabzi, Z., Abbas Gohari, F., Asgari, M. 2022. Investigating Safety Promotion Guidelines in Railway Construction Projects. Occupational Hygiene and Health Promotion Journal, 6 (2) :180-193.