Zoning the concentration of chromium and nickel contaminants in the industrial lands with emphasis on wastewater treatment process (Case study: Safa Dashte industrial city of Karaj)
Subject Areas :
soil pollution
Farideh Hamraz
1
,
Azita Behbahaninia
2
1 - M.Sc., Department of Environmental Science, Faculty of Natural Resource and the Environment, Islamic Azad University, Science and Research Branch, Tehran, Iran.
2 - Associate Professor, Department of Environment, Faculty of Agriculture and base science, Islamic Azad University, Roudehen Branch, Roudehen, Iran. *(Corresponding Author )
Received: 2019-02-25
Accepted : 2019-07-24
Published : 2022-12-22
Keywords:
nickel,
chromium,
industrial wastewater,
plating industry,
Soil pollution,
Abstract :
Background and Objective: As a result of the development of industries and the entry of waste water from industrial factories into the environment, the ecosystem around the factories and surface and underground waters are in danger of pollution. In this research, the effect of released wastewater plating industry in Safadasht Industrial Park of Karaj on the concentration of heavy metals in the area was studied in spring and summer.
Material and Methodology: Sampling was carried out at a distance of 70, 120, 220, 320 and 430 meters from the industrial complex around the discharge path. The method of digestion and atomic absorption of flame was used to measure chromium and nickel content in samples.
Findings: The average results of soil samples were 1.15 to 2.12 for chromium and 1.07 to 1.73 for nickel in spring and 1.39 to 3.46 for chromium and 1.83 to 3.13 for μg / g for nickel in summer.
Discussion and Conclusion: The results of the comparison of the levels of chromium and nickel in the soil in spring and summer, according to global standards, show that at all stations in both seasons the amount of chromium and nickel is lower than global standards. The zoning results show that the concentration of the elements in the samples increased with increasing distance from the wastewater to the environment at a distance of 430 meters. The reason for this can be the release of wastewater and its washed off by runoff during seasons from the industrial complex around the distances.
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Cachada A., Rocha-Santos T., Duarte A. C. (2018). Soil and Pollution: An Introduction to the Main Issues. In Soil Pollution.1-28
Sari G. L., Trihadiningrum Y., Ni'matuzahroh N. (2018). Petroleum Hydrocarbon Pollution in Soil and Surface Water by Public Oil Fields in Wonocolo Sub-district, Indonesia. Journal of Ecological Engineering, 19(2): 184-193
Romero-Baena A. J., González I. Galán E. (2018). Soil pollution by mining activities in Andalusia (South Spain)—the role of Mineralogy and Geochemistry in three case studies. Journal of Soils and Sediments, 18(6), 2231-2247.
Elbana T., Gaber H. M., Kishk F. M. (2018). Soil Chemical Pollution and Sustainable Agriculture. The Soils of Egypt. Springer, Cham. 187-200.
Krishna A. K., Mohan K. R. (2016). Distribution, correlation, ecological and health risk assessment of heavy metal contamination in surface soils around an industrial area, Hyderabad, India. Environmental Earth Sciences, 75(5):
Rezabeighi A., Mirhosseini M., Jafarzadegan M., Najafi M. (2013) Environmental pollution in the electroplating process and its reduction strategies, the first specialized conference on environmental engineering, Tehran University, Faculty of Environment (In Persian)
Farazmand A., Urmieh H., Tashayouie H. (2014). Investigating pollution caused by effluents containing heavy metals from electroplating units and workshops in Isfahan province. Journal of Water and Wastewater, 16(3), 69-76. (In Persian)
Hojati S., Landi A. (2015). Kinetics and thermodynamics of zinc separation from a sample of electroplating industry effluent using zeolite Firuzkoh. Journal of Environmental Studies. 40:4:901-912(In Persian)
Zhou S., Zhou C., Wang W., Tang Y., Chen J., Yan B., Zhao Y. (2013). Experimental study on the elimination of over-plating problems in industrial manufacturing of large-area acidic-textured laser-doped multi-crystalline solar cells. Solar Energy Materials and Solar Cells, 108, 44-49.
Park J. A., Kang J. K., Lee S. C., Kim S. B. (2017). Electrospun poly (acrylic acid)/poly (vinyl alcohol) nanofibrous adsorbents for Cu (II) removal from industrial plating wastewater. RSC Advances, 7(29), 18075-18084.
Yap CK, Ismail A, Tan S G, Omar H. 2002. Correlations between speciation of Cd, Cu, Pb and Zn in sediment and their concentrations in total soft tissue of green-lipped mussel Perna viridis from the west coast of Peninsular Malaysia. Environment International, 28: 117–126.
Afshari A., Khademi H., Ayoubi S. (2015). Risk Assessment of Heavy Metals Contamination in Soils and Selected Crops in Zanjan Urban and Industrial Regions. Water and Soil, 29(1): 151-163. (In Persian)
Abedi M, Najafi, P. (2003). Reuse of treated wastewater in agriculture. Publications of Iran's National Irrigation and Drainage Committee. First Edition. (In Persian)
Wingenfelder U., B. Nowak., G. Furrer and R. Schulin. (2005). Adsorbtion of Pb and Cd by amine-modified zeolite. Water Res, 39: 3287-3297.
Ayobi S, Soltan Z, Khademi H, (2018). Variability of some heavy metal concentration in various physical fractions of soil surface of Foold-e- Mobarakeh steel company, Isfahan. (2018). Journal of Soil Management and Sustainable Production, 6(4): 119-130. (In Persian)
Nasrazadani, A., Hoodaji, M. (2014). Evaluation of the Effect of an Industrial Wastewater Sample on Heavy Metals Contaminated Soil. Journal of Environmental Science and Technology, 16(1): 437-450. (In Persian)
Mozafari H, Manouchehri Kalantari K, Salari K, and Turkzadeh M. 2016. Survey of environmental pollution caused by heavy metals cadmium, lead and mercury in industrial areas (case study: some industrial areas of Kerman province)." Environmental science and technology. 9(3): 217-227. (In Persian)
Pournia M., Moosavi, M. H., Jassemi, Z. (2015). Survey of Heavy Metals Pollution in Surface Soils Around the Industrial Town of Ahvaz 2. Journal of Environmental Science and Technology. 17(4): 23-32. (In Persian)
Darivasi, S., Saeb, K., Mollashahi, M. (2015). Effects of Distance from Pollutant Sources on Heavy Metal Concentrations around Neka cement Factory Soil. Journal of Environmental Science and Technology. 17(4): 33-44. (In Persian)
Seifi, Y., Mirzaei, R. (2017). Comparison of Spatial Interpolation Methods to Mapp Heavy Metals Concentrations in Surface Soil of Aran-O-Bidgol City. Journal of Environmental Science and Technology, 19(1): 131-147. (In Persian)
Mirbagheri, S. A., Shams, A., Hashemi, S. H., Shams, H. Removal of Nickel (II) from Electroplating Wastewater through Reverse Osmosis Method. Journal of Environmental Science and Technology, 2010; 12(1): 1-12. (In Persian)
