Study of the Environmental Effects of Wastewater Treatment Plant of Yazd using the ENTROPY Method
Subject Areas :
Water and Environment
Farshid Saee
1
,
Sahar Rezaian
2
,
Razieh Rahimi
3
1 - PhD student, Department of Environmental, Islamic Azad University, North Tehran Branch, Tehran, Iran.
2 - Associate Professor, Department of Environmental, Shahrood Branch, Islamic Azad University, Shahrood, Iran. *(CorrespondingAuthor)
3 - Assistant Professor, Department of Environmental, Arak Branch, Islamic Azad University, Arak, Iran.
Received: 2016-08-07
Accepted : 2016-12-30
Published : 2022-11-22
Keywords:
evaluation of environmental effects,
Matrix,
Entropy,
wastewater treatment plant,
Abstract :
Background and Objective: This research studies the environmental factors that may be influenced, considering the nature of the project and the way the various stages of utilization exert their influence, and the environmental resources that may be affected by the execution of the different stages of the project. Environmental influences are various changes caused by different activities in the physical, chemical, biological, cultural, economic, and social environments, with each project having different temporal and spatial effects. That is, the consequences and effects resulting from the different stages of construction, utilization, and post-utilization of projects are different.Material and Methodology: The environmental factors considered to study the environmental effects of the wastewater treatment plant in Yazd included the physico-chemical, biological, economic, and social environments. In each of the cases mentioned above, many different parameters are selected, depending on the features of the project, to serve as indices. These indices are used as criteria for comparison of options. In environmental studies of projects, the types of effects are differentiated and employed in environmental analyses. Findings: Considering the decision-making matrix, which included 10 options, and the results obtained from the ENTROPY method, the experts selected the main indices that were the criteriaof the project. Index number 4 (water quality), index number 1 (soil quality), and index number 7 (sanitation and safety), with relative importance weights of 0.192, 0.179, and 0.152, were ranked first to third, respectively.Discussion and Conclusion: It is very necessary to control, monitor and supervise the operation and maintenance issues of a sewage treatment plant in order to produce a standard quality effluent and increase it’s efficiency during the operation.
References:
Erfani, E., E. Haghnia and Alizadeh (2012), The effect of irrigation with wastewater on the yield and quality of lettuce and some soil characteristics, Science and research of agricultural techniques and natural resources. (In Persian)
Monzavi, M.T. (2017), Wastewater treatment, Tehran University Publications. (In Persian)
Chang, A. C., J.E, Warneke, A, L., Page and L., J. Lund. (1984), Accumulation of heavy metal in sewage sludge treated soils. J. Environ. Qual
Shafieipour, Sh. And coworkers (2019), Investigating the effect of using urban sewage treatment plant sludge on agricultural soil improvement, Journal of water and sewage. (In Persian)
Soroush, F. and coworkers (2017), Effect of irrigation with different amounts of municipal wastewater treatment plant effluent on element uptake by Japanese grass cultivars, Agricultural research: water, soil and plants in agriculture, Spring 2017(1): pages 73-84. (In Persian)
Boll, R., H. Dernbach and R. Kayser. 2016. Aspects of wastewater as experienced in Germany. Water Sci. Tech
Fardad, H. and publisher (2018), Irrigation with treated wastewater with management in conservation of life and its effect on health: human, livestock and poultry, Tandis Shab Publications. (In Persian)
Hayes, A. R., C. F. Mancino and I. L. Pepper. 2010. Irrigation of turfgrass with secondary sewage effluent
Sheila, M., S. M. Ross. 2016. Toxic Metals in Soil: Plant System. John Wily & Sons Inc., New York
Momeni, M. (2010), New topics of Operation research, Tehran University Publications.
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Erfani, E., E. Haghnia and Alizadeh (2012), The effect of irrigation with wastewater on the yield and quality of lettuce and some soil characteristics, Science and research of agricultural techniques and natural resources. (In Persian)
Monzavi, M.T. (2017), Wastewater treatment, Tehran University Publications. (In Persian)
Chang, A. C., J.E, Warneke, A, L., Page and L., J. Lund. (1984), Accumulation of heavy metal in sewage sludge treated soils. J. Environ. Qual
Shafieipour, Sh. And coworkers (2019), Investigating the effect of using urban sewage treatment plant sludge on agricultural soil improvement, Journal of water and sewage. (In Persian)
Soroush, F. and coworkers (2017), Effect of irrigation with different amounts of municipal wastewater treatment plant effluent on element uptake by Japanese grass cultivars, Agricultural research: water, soil and plants in agriculture, Spring 2017(1): pages 73-84. (In Persian)
Boll, R., H. Dernbach and R. Kayser. 2016. Aspects of wastewater as experienced in Germany. Water Sci. Tech
Fardad, H. and publisher (2018), Irrigation with treated wastewater with management in conservation of life and its effect on health: human, livestock and poultry, Tandis Shab Publications. (In Persian)
Hayes, A. R., C. F. Mancino and I. L. Pepper. 2010. Irrigation of turfgrass with secondary sewage effluent
Sheila, M., S. M. Ross. 2016. Toxic Metals in Soil: Plant System. John Wily & Sons Inc., New York
Momeni, M. (2010), New topics of Operation research, Tehran University Publications.
