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Prioritization of Effective Strategic Parameters in the Removal of VOCs from the ROP System by Using AHP: A Case Study of Abadan Oil Refinery | ||
Journal of Health Sciences & Surveillance System | ||
دوره 9، شماره 3، مهر 2021، صفحه 199-205 اصل مقاله (945.31 K) | ||
نوع مقاله: Case Study | ||
شناسه دیجیتال (DOI): 10.30476/jhsss.2021.90008.1175 | ||
نویسندگان | ||
Ladan Khajeh Hoseini1؛ Reza Jalilzadeh Yengejeh* 2؛ Ali Mahmoudie3؛ Maryam Mohammadi Rouzbehani1؛ Sima Sabz Alipour1 | ||
1Department of Environment, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran | ||
2Department of Environmental Engineering, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran | ||
3Abadan Oil Refinery Environmental Officer, Ahvaz, Iran | ||
چکیده | ||
Background:The spread of urbanization and industrialization, as well as changes in lifestyle and consumption patterns in recent years, especially in developing countries, has led to the production of huge volumes of pollution in urban and industrial areas. How to plan and manage them is one of the issues and problems in the world today. And if the environment is not taken into account at the same time as the industrialization of a society, not only will economic development not be achieved, but there will be many problems so that sometimes the long-term benefits of an industry are spent on compensation. Methods: The isa descriptive-analyticalstudy. Various steps were taken, including the results of statistical analysis, Delphi questionnaires, analysis of validity and reliability of the research, and extraction of influential factors affecting the performance of the ROP unit of Abadan Oil Refinery in 2019 until 2020. Finally, the results of weighting and ranking of effective strategic parameters in decision-making, decision-making and policy-making processes of different items including factors (components), criteria, sub-criteria, and strategic plans are presented. Using Expert Choice 2000 software, we weighed the parameters, and Cronbach's alpha was determined to be 0.932. Results: The results of weighting and ranking of effective strategic parameters in the decision-making process and policymaking of various items are presented.Finally, the component of human environment around the refinery with a weight priority of 0.288 in the first rank, the component of natural environment, the HSE component of the refinery with a weight of 0.244 in the second rank, and the components of technical characteristics and conditions of the refinery with a weight of 0.112 were in the third place. Conclusion:In this case study, we found thatthe greatest need for management was specific to the human environment, such as land use and development plans around the refinery, and the state of air and soil pollution and water resources. Introduction Developing and advanced countries in their development process have faced the problem of wastewater from oil, gas, petrochemical and energy industries[1,2], which is one of the problems of their industrial development process, as one of the important sources of environmental pollution[3]. There are currently many efforts around the world to overcome this problem[4]. Given the process of industrial development of countries and the increasing use of oil and energy resources[5,6], the existence of wastewater in related industries is an inevitable phenomenon that requires proper management[7,8]. Refineries are one of the most widely used water sources in Iran which are often in the center or adjacent to large cities and even some within cities. Abadan Oil Refinery, due to its location in the city centre, causes a lot of pollution and produces unpleasant odors in the region. This affects the health of the refinery staff and the residents. In this research, to strategically manage the ROP system of Abadan Oil Refinery wastewater treatment plant, we usedAHP [9,10]. The ROP (Recovery Oil Plant) unit is the one used to purify petroleum products at the Abadan Oil Refinery. At the beginning of this unit, there is a uniform pool where the unit effluent first enters. In this pool, the flow rate decreases to a large extent and the flow alleviates, so the oil materials have a higher chance of rising due to being lighter than water [11-12,13]. They are found on the surface and the suspended solids settle in the structure. After that, the oil that has accumulated on the surface of the water enters the separating ponds with the water. AHP is one of the decision-making methods[14,15]. The term AHP stands for Analytical Hierarchy process, meaning the analysis of hierarchical process[16,17]. Selection of the criterion is the first part of AHP analysis[18,19]. Candidates are then assessed based on the identified criteria. The word options or candidates also means the word alternative or candidates and is used interchangeably. The reason for the hierarchical reading of this method is that we must first start with the goals and strategies of the organization at the top of the pyramid, and by expanding them, we can identify the criteria to reach the bottom of the pyramid. This is one of the most widely used methods for ranking and determining the importance of factors, which is used to prioritize each of the criteria using pairwise[20]comparisons. The goal of the analysis of hierarchical process technique is to select the best option based on different criteria through pairwise comparison. This technique is also used to weigh the criteria. Because increasing the number of elements in each cluster makes it difficult to compare the pairs, they usually divide the decision criteria into sub-criteria. | ||
کلیدواژهها | ||
Humans؛ Economic development؛ Industrial development؛ Urbanization؛ Water resources | ||
مراجع | ||
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