Magnetite nanoparticles for reduction of hexavalent chrome in soil of an industrial park, Cerro Colorado - Arequipa [Nanopartículas de magnetita para reducción de cromo hexavalente en suelo de un parque industrial, Cerro Colorado – Arequipa]
IF 3.9
Q2 NANOSCIENCE & NANOTECHNOLOGY
Mardelly Ruiz Marcelo, Cecilia Cermeño Castromonte, Elmer Benites Alfaro
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Abstract
One of the most important contamination problems in receiving bodies due to industrial activities is the presence of chromium (VI). One way to reduce the aggressiveness of said contaminant is its reduction to the form of chromium (III). The investigation determined the efficiency of magnetite nanoparticles in the treatment of soil contaminating with chromium (VI), to reduce it to chromium (III) of an Industrial Park at the district Cerro Colorado, province and department of Arequipa. 22 samples of 1 kg of soil were taken, then homogenized according to the extraction distances, considering at the end only 3 samples called “Shore”, “6 Meters” and “9 Meters”, whose concentrations were: 146 mg / kg, 126 mg / kg and 67 mg / kg of Cr (VI) respectively. These samples were subjected to 3 treatments (T1, T2 and T3) with 3 repetitions each using 15, Please cite this article as: Ruiz M., Cermeño C., Benites E., Magnetite nanoparticles for reduction of hexavalent chrome in soil of an industrial park, Cerro Colorado Arequipa, Journal of Nanotechnology, vol. 3, no 1, 2019, pp. 12-17. https://doi.org/10.32829/nanoj.v3i1.101 A publication of Nanoj CINCADER Centre of Research and Training for Regional Development Online at www.journals.cincader.org Journal of Nanotechnology Vol. 3, N° 1, 2019 Copyright © 2019, CINCADER. ISSN 2522-6908 DOI: https://doi.org/10.32829/nanoj.v3i1.101 13 30 and 45 grams doses of Magnetite nanoparticles for three weeks. At the end of the treatment using the EPA 3060 method, the Chrome (VI) analysis was performed. The 3 treatments “T1”, “T2” and “T3”, had significant differences for the final concentrations of Hexavalent Chromium in the soil; but it was in Treatment 3 in the soil samples "Shore", "6 Meters" and "9 Meters", where a greater effect was achieved in the reduction of Cr (VI) to Chromium (III) with an efficiency of 99.96%, 99.93% and 99.93% respectively, 45 grams of magnetite nanoparticles were used for this treatment.
在科罗拉多州塞罗-阿雷基帕工业园区土壤中还原六价铬的磁铁矿纳米颗粒[在科罗拉多州塞罗-阿雷基帕工业园区土壤中还原六价铬的磁铁矿纳米颗粒]
由于工业活动,接收体中最重要的污染问题之一是铬(VI)的存在。减少上述污染物侵袭性的一种方法是将其还原为铬(III)的形式。调查确定了磁铁矿纳米颗粒在处理铬(VI)污染土壤中的效率,将其还原为铬(III)在Cerro Colorado地区的一个工业园区。选取1 kg土壤22个样品,根据提取距离进行均质,最后只考虑“Shore”、“6 m”和“9 m”3个样品,其Cr (VI)浓度分别为:146 mg / kg、126 mg / kg和67 mg / kg。Ruiz M., Cermeño C., Benites E.,磁性纳米颗粒对工业园区土壤中六价铬的还原作用,Cerro Colorado Arequipa, Journal of Nanotechnology, vol. 3, no . 1, 2019, pp. 12-17。https://doi.org/10.32829/nanoj.v3i1.101 Nanoj CINCADER区域发展研究与培训中心在线发表于www.journals.cincader.org纳米技术杂志2019年第3卷第1期版权所有©2019,CINCADER。ISSN 2522-6908 DOI: https://doi.org/10.32829/nanoj.v3i1.101 13 30和45克剂量的磁铁矿纳米颗粒三周。在EPA 3060法处理结束时,进行铬(VI)分析。“T1”、“T2”和“T3”3个处理对土壤中六价铬的最终浓度有显著差异;但在“Shore”、“6米”和“9米”土壤样品的处理3中,使用45克磁铁矿纳米颗粒进行处理,Cr (VI)还原为Chromium (III)的效果更大,效率分别为99.96%、99.93%和99.93%。
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