Effect of hydrocarbonic pollutants on the stability and soil water repellency intensity: A case study in Bandar Abbas Oil Refinery, Hormozgan province, Iran

IF 1.3 Q4 ENVIRONMENTAL SCIENCES Environmental Health Engineering and Management Journal Pub Date : 2022-04-19 DOI:10.34172/ehem.2022.12
T. Asadi, P. Najafi, E. Chavoshi, M. Hoodaji
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Abstract

Background: The contamination of soil and water with hydrocarbonic pollutants is a major environmental problem. Soil water repellency will interrupt water infiltration, and may decline plant growth and potentially trigger soil erosion. The aim of this study was to investigate the effect of soil and water contamination by oil on soil water repellency, where the soil has been oil-contaminated due to mismanagement of the lands surrounding the refineries, and many of the trees in the area have dried up. Methods: Water drop penetration time test (WDPT) was performed on contaminated soils. To investigate the effect of the surface water contamination on soil, handmade soil samples were collected and successive dry/wet cycles were applied to them by contaminated and non-contaminated waters. Subsequently, soil water repellency tests, including molarity of ethanol droplet (MED), water and ethanol sorptivity were performed on soil samples. The soils were passed through a 2 mm sieve after being air-dried and the soil texture was determined by pipette method. The SWR was measured by WDPT in the area contaminated with petroleum compounds and 7 to 10 replicates were assigned to each location. In order to determine the effect of water contamination on the area soil and to measure water repellency in the laboratory, disturbed soil samples (36 samples) with a bulk density equal to 80% of the reference bulk density were prepared. Results: The results showed that soil oil-contamination causes water repellency, increased WDPT, a significant increase in water repellency index, and a significant decrease in cosθ at the level of 0.001. The effect of water contamination on the indices and cosθ were statistically significant at the 0.001 and 1% levels, respectively. Therefore, contaminated water increased the water repellency of the soil after successive dry/wet cycles. Conclusion: Significant positive correlations between organic and water repellency indices and significant negative correlations between cosθ and organic indices indicate the effect of oil-contamination of water and soil on creating and increasing the intensity of soil water repellency.
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烃类污染物对土壤稳定性和疏水强度的影响——以伊朗霍尔木兹甘省阿巴斯炼油厂为例
背景:烃类污染物对土壤和水的污染是一个主要的环境问题。土壤拒水性会中断水的渗透,并可能降低植物生长,并可能引发土壤侵蚀。这项研究的目的是调查石油对土壤和水的污染对土壤防水性的影响,因为炼油厂周围的土地管理不善,土壤受到了石油污染,该地区的许多树木已经枯干。方法:对污染土壤进行水滴渗透时间试验。为了调查地表水污染对土壤的影响,收集了手工制作的土壤样本,并通过受污染和未受污染的水对其进行连续的干/湿循环。随后,对土壤样品进行了土壤斥水性测试,包括乙醇液滴的摩尔浓度(MED)、水和乙醇吸附性。空气干燥后,将土壤通过2mm的筛子,并通过移液管法测定土壤质地。WDPT在被石油化合物污染的区域测量SWR,每个位置分配7到10个重复。为了确定水污染对区域土壤的影响,并在实验室中测量防水性,制备了体积密度等于参考体积密度80%的扰动土壤样品(36个样品)。结果:在0.001的水平上,土壤油污染引起拒水性,WDPT增加,拒水性指数显著增加,cosθ显著降低。水污染对指数和cosθ的影响分别在0.001和1%的水平上具有统计学意义。因此,在连续的干/湿循环后,受污染的水增加了土壤的拒水性。结论:有机物和拒水性指数呈正相关,cosθ和有机物指数呈负相关,说明水和土壤的油污对产生和提高土壤拒水性强度有影响。
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来源期刊
CiteScore
2.40
自引率
37.50%
发文量
17
审稿时长
12 weeks
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