ANALYSIS OF THE PERCOLATION BEHAVIOR OF PETROLEUM DERIVATIVES IN SANDYSOIL OF THE ALAGOAS COAST

Brazilian Journal of Petroleum and Gas Pub Date : 2023-05-12 DOI:10.5419/bjpg2023-0002

T. D. Silva, R. J. Brandão, S. H. V. Carvalho

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Abstract

Oil and its derivatives are applied in different ways in society and their commercialization, handling, and disposal raise concerns regarding the potential for contamination of soils and groundwater in cases of spillage. The present work aims to evaluate the behavior of the percolation of petroleum derivatives in sandy areas of the Alagoan coast. This analysis used automotive lubricating oil spill tests to evaluate the effect of viscosity (0w20 – 47.6 cSt, 5w30 – 64 cSt and 20w50 – 134.7cSt) and granulometry in sandy media (Praia do Saco – 3.06 μm in diameter, Cruz das Almas – 5.06 μm in diameter, and Barra de Sao Miguel – 5.47 μm in diameter). While verifying the influence of physicochemical characteristics of the soils, values of the average Sauter diameter, distribution of the sizes of the sediments, and the values of the total saturation (100%) of water were determined for all conditions analyzed. Thus, results show that, after determining the physicochemical characteristics of the soils and the oils applied in the bench tests, the viscosity of the oils and the values of the particle diameters of the sandy soils influence the percolation behavior. This influence was determined by the percolation behavior of the oils in sandy media, because for the analysis in a soil with a diameter of 3.06, the radial percolation was more significant for the oil with higher viscosity (20w50 - 134.7cSt) and in the axial percolation the behavior was more present for the lower viscosity oil (0w20 - 47.6 cSt). That is, in a sandy soil of the same diameter, radial flow increases with increasing viscosity and axial flow with the lowest viscosity. In addition, the radial flow is more expressive in smaller granulometries and the axial flow in larger granulometries for the same viscosity condition. However, it is of fundamental importance to evaluate the front of advance of the contaminants and, thus, to know the extent of the damage, so that the measures of environmental remediation are adopted.

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石油衍生物在阿拉戈斯海岸砂质土壤中的渗透行为分析

石油及其衍生物在社会上以不同的方式应用，它们的商业化、处理和处置引起了人们对泄漏情况下污染土壤和地下水的可能性的关注。本研究旨在评价阿拉戈斯海岸砂质地区石油衍生物的渗流行为。该分析使用汽车润滑油溢出试验来评估粘度(0w20 - 47.6 cSt, 5w30 - 64 cSt和20w50 - 134.7cSt)和粒度在沙质介质(Praia do Saco -直径3.06 μm, Cruz das Almas -直径5.06 μm, Barra de Sao Miguel -直径5.47 μm)中的影响。在验证土壤物理化学特性的影响时，确定了所有分析条件下的平均索德直径值、沉积物大小分布和总饱和度(100%)的值。结果表明，在确定了试验台试验中土壤和油类的理化特性后，油类的粘度和砂质土的粒径值对渗流行为有影响。这种影响是由砂质介质中油的渗流行为决定的，因为对于直径为3.06的土壤的分析，高粘度的油(20w50 - 134.7cSt)的径向渗流更为显著，而低粘度的油(0w20 - 47.6 cSt)的轴向渗流行为更为明显。即在相同直径的砂土中，径向流随黏度的增加而增加，轴向流随黏度的降低而增加。此外，在相同粘度条件下，小颗粒的径向流更具有表现力，而大颗粒的轴向流更具有表现力。然而，评估污染物的前进前沿，从而了解其破坏程度，从而采取环境修复措施是至关重要的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Brazilian Journal of Petroleum and Gas

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