|تعداد مشاهده مقاله||107,959,738|
|تعداد دریافت فایل اصل مقاله||84,364,203|
Environmental Management of Oil Pipelines Risks in the Wetland Areas by Delphi and MCDM Techniques: Case of Shadegan International Wetland, Iran
|مقاله 1، دوره 4، شماره 2، تیر 2018، صفحه 195-210 اصل مقاله (766.45 K)|
|نوع مقاله: Original Research Paper|
|شناسه دیجیتال (DOI): 10.22059/poll.2017.239568.300|
|Farhad Golbarg1؛ Gholamreza Nabi Bidhendi* 2؛ H Hoveidi2|
|1Alborz Campus, University of Tehran, Iran|
|2Graduate Faculty of Environment, University of Tehran, P.O.Box 14155-6135, Tehran, Iran|
|The aim of this study is to assess the risk factors of pipelines and prioritize their severity in order to prevent their effects in Shadegan International wetland, Iran. Due to the participatory nature of the managerial affairs, the study employs an integrated approach that combines Analytic Hierarchy Process (AHP) and Delphi Method. Also, Likret Scale has been applied to quantify the qualitative (verbal) data, thus reducing the uncertainty of oil pipelines' risk evaluation. In order to evaluate potential risk factors, Failure Mode Effects Analysis (FMEA) method has been applied. According to the study results, in terms of the likelihood of environmental impacts on the main considered criteria of natural and man-made environments, the former's effect is a priority risk, weighing 0.670 and primarily important. On the other hand, environmental hazards caused by oil pipes of water quality in Shadegan wetland has been ranked first, with a relative weight of 0.389 to contain the highest level of risk. The risk degree for diversity and density of benthos is 12.6 and 6.3for fish, both higher than other parameters of water systems in Shadegan wetland. Considering the recognized factors that lead to probable risks of pipelines along with their most notable outcomes, the paper suggests environmental management plans on how to control and reduce the potential impacts, with an emphasis on elimination of the most likely causes.|
|AHP؛ FMEA؛ Shadegan wetland؛ Environmental ecosystems؛ Delphi method|
Achebe, E. (2012). Analysis of oil pipeline failure in the oil and gas industries in the Niger Delta area of Nigeria. Hong Kong. Proceeding of the International Multi Conference of Engineers and Computer Sciences, Hong Kong, 14-16. IAENG, 6.
Acton, M.R., Baldwin, T.R and Jager, E.E. (2002). Recent developments in the design and application of the PIPESAFE risk assessment package for gas transmission pipelines. In 4th International Pipeline Conference. American Society of Mechanical Engineers, 19: 831-839.
Ahn, B.J and Jo, Y. (2005). A method of quantitative risk assessment for transmission pipeline carrying natural gas. Journal of Hazardous Materials, 123: 1-12.
Alencar, M.H. and de Almeida, A.T. (2010). Assigning priorities to actions in a pipeline transporting hydrogen based on a Multi criteria Decision Model. International Journal of Hydrogen Energy, 35: 3610-3619.
Brito, A.J. and de Almeida, A.T. (2009). Multi-attribute risk assessment for risk ranking of natural gas pipelines. Reliability Engineering and System Safety, 94: 187-198.
Brody, S.D. Grover, H. Bernhardt, S. Tang, Z. Whitaker and B. Spence. (2006). Identifying potential conflicts associated with oil and gas exploration in Texas State Coastal Waters: A Multi criteria Spatial Analysis. Environmental Management, 38: 597-617.
Chiozza, M. L. and Ponzetti, C. (2009). FMEA: a Model for reducing medical errors. Clinica Chimica Acta, 40(4): 75-78.
Colavito, L. (2002). Wetland economic valuation using bio economic model: The case of Hail Haor, Bangladesh, paper presented at workshop on conservation and sustainable use of wetlands: Learning from the world, IUCN − The World Conservation Union, Kathmandu.
Crowl, D.A. and Jo, Y. (2008). Individual risk analysis of high pressure natural gas pipelines. Convers. Manage.,49(2): 205-211.
Culley, and J. M. (2011). Use of a computer-mediated Delphi process to validate a mass casualty conceptual model. CIN: Computers, Informatics, Nursing, 29(5): 272-279.
Davami, A. H., Moharamnejad, N., Monavari, S.M. and Shariat, M. (2014). An urban solid waste landfill site evaluation process incorporating GIS in local scale environment: A case of Ahvaz City, Pollut. Res., 112(6): 252-253.
Dawotola, A.W. Gelder, P. and Vrijling, J. (2010). Multi criteria decision analysis framework for risk management of oil and gas pipelines. In: Ale, P. and Zio, Eds., Reliability, Risk and Safety, Taylor and Francis Group, London, 36: 307-314.
Dey, P.K. (2010). Managing Project Risk Using Combined Analytic Hierarchy Process and Risk Map. Applied Soft Computing, 10: 990-1000.
ENSR Corporation. (2007). Pipeline Risk Assessment and Environmental Consequence Analysis. Document, 10623-004.
Galalizadeh, S. Karimi, S. Shirzadi and S. Galalizadeh, A. (2016). Analysis of site selection in the industrial zones based on environmental and economic models: a case study of Arvand industrial zone of Iran. Int. J. Environ. Pollut., 15: 154-184.
Ganoulis, J. and Simpson, I. (2006). Environmental Risk Assessment and Management: Promoting Security in the Middle East and the Mediterranean Region. Springer.
Geist, M. R. (2010). Using the Delphi method to engage stakeholders: A comparison of two studies. Evaluation and Program Planning, 33(2): 147-154.
Hassanzadeh, Ali and Kazemi, R. (2005.) An introduction to risk management in infrastructure projects, Management and Planning Organization, Iran.
Hanson, A. (2008). Wetland ecological functions assessment: An overview of approaches. Canadian Wildlife Service Technical Report Series, 16(2): 123-125.
Hosseini Alhashemi, A.M., Mohammadi Roozbahani, A. and Maktabi, P. (2013). Investigation on anthropogenic and natural share of heavy metals in surface sediments of Shadegan Wetland. Pollut. Res., 26(4): 531-535.
Hosseini Alhashemi, A. S. Karbassi, A. R. Hassanzadeh Kiabi, B. Monavari, S. M. and Nabavi, S. M. B. (2011). Accumulation and bio accessibility of trace elements in wetland sediments. Iran. Environ. Bull., 116(2): 257-266.
Jica, Doe and Moja. (2003). the Study on Integrated Management for Ecosystem Conservation of the Anzali Wetland in the Islamic Republic of Iran, Nippon Koie Co., Japan.
Kaffashi, S., Shamsudin M.N, Radam, A., Rahim, A.Kh. Rusli, M.Y. and Yazid, M. (2011). Economic valuation of Shadegan International Wetland, Iran; Notes For conservation. Regional Environmental Change 11(4): 925-934.
Karbassi, A. R., Monavari, S. M., Nabi Bidhendi, Gh. R. Nouri, J. and Nematpour, K. (2008). Metal pollution assessment of sediment and water in the Shur River. Iran. Environ. Bull., 108(1): 125-134.
Khader, Y., Abdelrahman, M., Abdo, N., Awad, S., Al-Sharif, M. and Elbetieha A. (2016). Exposure to air pollution and pregnancy outcomes in the East Mediterranean Region: a systematic review. Int. J. Pediatr, 4(1): 1255-71.
Khaleghian, M., Danehkar, A., Khorasani ,N. Jozi ,A. J. Feghhi, G. and Navabi Ghamsari, R. (2013). Environmental risk assessment of gas pipeline with method of Muhlbauer (Case Study: Lorestan Province). Iranian Gas Engineering and Development Company. Iran.
Kheirkhah Ghehi, N., Hamidreza Jafari, H. and Bahram Malekmohammadi, B. (2013). Applying Indexing Method to railway risk assessment by using AHP and Mamdani Fuzzy Algorithm in MATLAB: a case study in Iran, Qazvin-Zanjan Railway. Iran. Environ. Bull., 265(2): 189-209.
Kim, K. and Lee, D. (2011). Wetland restoration to enhance biodiversity in urban areas-A Comparative analysis. Landscape Eco Eng. 7: 27-32.
Kumar, R., Dinesh, S. and Kumar, D. (2005). Systematic failure mode effect analysis (FMEA) using fuzzy linguistic modelling, Int. J. Environ. Pollut., 19 : 209-224.
Li, N., Chen, L., He, X. and Song, L. (2015). Jingyun Sun risk analysis of sour natural gas pipeline when pigging. Chin. Geol., 76: 112-119.
Liu Gencheng, H. (2014). Risk and countermeasure when pigging natural gas pipe. China Petroleum and Chemical Industry Standards and Quality, 7.
Lu, D., Skow, J. and Keane, S. (2014). Assessing the probability of detecting crack features using ultrasonic in-line inspection tool run results and excavation data. In 10th International Pipeline Conference. American Society of Mechanical Engineers, Paper No. IPC2014-33248.
Malmasi, S., Mohammad Fam, I. and Mohebbi, N. (2010). Health, Safety and Environment risk assessment in gas pipelines. Iran. Environ. Bull., 118(2): 139-158.
Mathews, G. (2013). The Ramsar Convention on Wetlands: Its history and development, Ramsar Convention Bureau, Gland, Switzerland.
Mirghafouri, H. and Ali Kousha, A. (2015). Risk assessment of water transmission pipelines with Fuzzy FMEA-AHP approach (Case study: Yazd water transmission pipeline). J. Appl. Environ. Biol. Sci., 5(4): 134-141.
Monavari, M. (2007). Environmental Impact Assessment, doe of Iran and the United Nations Development Program. Tehran, Iran.
Monavari, M. (2009). The environmental management plan for establishment of export oil reservoirs in the port of Mahshahr, Noandishan Plan Co., Tehran, Iran.
Montazer-Hojat, A., Mansouri, B. and Mojtaba Ghorbannezhad, M. (2015). Economic valuation of Shadegan Wetland, Iran. Environ. Bull., 126(1): 212-236.
Muhlbauer, W.K. (2004). Pipeline risk management manual, Gulf professional publishing, United State of America, 31: 577-584.
Muralidharan, S., Jayakumar, R. and Vishnu, G. (2004). Heavy metals in feathers of six species of birds in the district Nilgiris, India. Int. Agrophys., 25: 93-96.
Narjes, O. (2013). Bio monitoring of heavy metals in birds in Iran in relation to trophic levels. Eng. Geol., 101: 61-70.
Nasehi, F., Monavari, M., Naderi, G., Vaezi, M. and Madani, F. (2013). Investigation of heavy metals accumulation in the sediment and body of carp fish in Aras River. Iran. Environ. Bull., 124(1): 240-251.
Ramsar Convention Secretariat. (2007). Ramsar handbooks for the wise use of wetlands, 3rd. Ramsar Convention Secretariat: Gland, Switzerland.
Ramsar Convention. (2010). National wetland policies, developing and implementing national wetland policies,. Handbook 2., Ramsar Convention Secretariat, Gland, Switzerland.
Ramsar Convention Secretariat. (2013). The Ramsar Convention Manual: A guide to the Convention on Wetlands, 6th Editions, Ramsar Convention Secretariat, Gland, Switzerland.
Rezazadeh, H., (2004). Engineering, safety and risk assessment systems, Amirkabir University of Technology, Tehran, Iran.
Sardar, A., Ali Mohammadi, I., Parkhide, M. and Mirzayi, F. (2009). Assessment of risks of transmission pipeline processes, storage and loading operation of crude oil in oil terminal of Khark by FME and CA method. Third national conference of safety and management engineering. Tehran. Industrial University of Sharif, Iran.
Scott, D.A. (2007) .A Review of the Status of the Breeding Water birds in Iran in the 1970s. J. Pod. West Central Asian Ornith. 46: 315-321.
Segismundo, A., Augusto, P. and Miguel, C. (2008). Failure mode and effects analysis (FMEA) in the context of risk management in new product Development, A case study in an automotive company”. Pollut. Res., 86(3): 196-202.
Taghinia Hejabi, A., Karbassi, A. and Monavari, S. M. (2011). Heavy metal pollution in water and sediments in the Kabini River, Karnataka, India. India. Geol., 99: 51-60.
US Department of Transport. (2011). Pipeline and Hazardous Materials Safety Administration: Fact Sheet High Consequence Areas (HCA).
Venugopal, T., Giridharan, L. and Jayaprakash, M. (2009). Characterization and risk assessment studies of bed sediments of River Adyar - An application of speciation study. Int. J. Environ. Res., 4: 581-598.
Vesali Naseh, M., Karbassi, A., Ghazaban, F. and Baghvand, A. (2012). Evaluation of Heavy Metal Pollution in Anzali Wetland, Guilan, Iran. Iranian Journal of Toxicology, 5: 15-23.
Wang, Y. M., Chin, K. S., Poon, K. K. and Yang, J. B. (2009). Risk Evaluation in Failure Mode and Effects Analysis Using Fuzzy Weighted Geometric Mean, Expert Systems with Applications. Near. Surf. Geophys., 323: 533-536.
Whanda, S., Yahaya Sani,Y. and Gadiga Bulus, G. (2015). Modelling of potential pipeline impact radius and high consequence area in a wetland sub-region of Nigeria. Journal of Geo. Info. Sys. 7: 692-709.
Zare Maivan, H. (2012). Benthic fauna of Shadegan Wetland. Journal of the Persian Gulf Marine Science, 7: 37-44.
Zolfaghari. G., Esmaili-sari A., Ghasempouri SM. and Kiabi BH. (2007). Examination of Mercury Concentration in the Feather of 18 Species of Birds in Southwest Iran. J. Environ. Res., 104: 258-265.
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