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华龙飞, 万勇, 陈之祥, 李顺群. 考虑水油分离的柴油污染土持液特性试验研究[J]. 岩土工程学报. DOI: 10.11779/CJGE20231268
引用本文: 华龙飞, 万勇, 陈之祥, 李顺群. 考虑水油分离的柴油污染土持液特性试验研究[J]. 岩土工程学报. DOI: 10.11779/CJGE20231268
Liquid-retention behaviors of diesel contaminated soil considering the separation requirement of water and diesel[J]. Chinese Journal of Geotechnical Engineering. DOI: 10.11779/CJGE20231268
Citation: Liquid-retention behaviors of diesel contaminated soil considering the separation requirement of water and diesel[J]. Chinese Journal of Geotechnical Engineering. DOI: 10.11779/CJGE20231268

考虑水油分离的柴油污染土持液特性试验研究

Liquid-retention behaviors of diesel contaminated soil considering the separation requirement of water and diesel

  • 摘要: 为探究土体对水油两相非溶混液体的吸持性能以及脱湿过程中孔隙水油分布的演化规律,采用离心机法对不同水油含量土体进行了持液特性测试,并通过对离心杯内壁界面改性及体积量测法实现了土中水油混合体的微损收集以及分离定量。在此基础上,通过对离心过程中土样收缩体变的修正,给出了离心等效吸力与含水率、含油率和油水总含量的关系,进一步分析了柴油含量对土体持液特性和孔隙演化的影响机理。结果表明:污染土的持液特性与柴油含量相关,随着柴油含量增大,土体的进气值及残余含液率均减小,持液能力减弱;经历相同离心荷载作用后,含油量高的土体收缩变形量更小,孔隙含量更大;柴油因极性弱、粘度大、表面张力小而优先填充土中大孔隙,水优先填充小孔隙;相同离心等效吸力作用下,土体的排油和排水速率均与初始柴油含量密切相关,随着吸力增大,孔隙水油比趋于达到同一状态。

     

    Abstract: To investigate the liquid retention characteristics of soil with immiscible liquid of water and diesel, and analysis the distribution and evolution of pore water-diesel during the dehumidification process, a centrifugation method was used to test the liquid retention characteristics of soils with different water-diesel contents. Additionally, the modification of the centrifuge cup’s interface and the volumetric measurement method were used to achieve the micro-loss collection and quantitative separation of the soil and diesel. On this basis, the relationship between centrifugal equivalent suction and water content, diesel content, and total liquid content were respectively analyzed considering the soil deformation during centrifugal process. Furthermore, the influence mechanism of diesel content on the soil liquid retention characteristics and the pore evolution was analyzed. The results showed that, the liquid retention characteristics of contaminated soil was related to it’s diesel content. The air entry value and residual liquid content of the soil decreased as the increase of diesel content, indicating a weakening of the soil’s liquid retention ability. The soil with high diesel content undergoes small shrinkage deformation and large pore content undergoing the same centrifugal load. The diesel is preferred to fill larger pores due to its high viscosity and low surface tension, while water is preferred to exist in smaller pores due to its strong polarity and wettability. The water diesel ratio in the pores trends to reach a constant range as the matric suction increases.

     

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