非饱和土中氯离子扩散规律的试验研究
Experimental study on diffusion of chloride ions in unsaturated soils
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摘要: 土中污染物迁移涉及对流和扩散,低流速情况下扩散起主导作用,当前对非饱和土中渗流的研究较为成熟,但对非饱和土中污染物扩散规律的认识还不够深入,其中饱和度控制是非饱和扩散系数测试的技术瓶颈。自制非饱和对流-扩散试验装置,控制入渗过程中土的含水率恒定,以氯离子为示踪剂进行对流–扩散土柱试验,通过切片法测得氯离子浓度剖面,使用非饱和对流–扩散解析解拟合得到氯离子水动力弥散系数,进而求得非饱和有效扩散系数,通过不同含水率下的试验得出有效扩散系数随含水率的变化规律;依据3层土渗流模型计算得到非饱和渗透系数随含水率的变化规律。试验结果表明,试验过程中渗透吸力对含水率的影响可以忽略,本文试验装置含水率控制精确可靠,测得0~100 kPa基质吸力下土中氯离子的有效扩散系数在1.59×10-6~5.22×10-6 cm2/s之间,氯离子的非饱和有效扩散系数随无量纲含水率的减小而线性减小;溶质迁移的弥散度随含水率减小而增大;对数的非饱和渗透系数随含水率线性减小。Abstract: Advection and diffusion are the mechanisms involved in contaminant transport in soils. The diffusion will be the dominant process when seepage velocity is low. At present the unsaturated hydraulic conductivity has been studied intensively, however, the study on diffusion mechanism in unsaturated soils is limited. Controlling of water content in unsaturated soils is a technical bottleneck that restricts the study. Here, an advection-diffusion column test apparatus is developed for the precise control of water content during the tests. Chloride ion is selected as the tracer in the column tests and the slice method is used to get the concentration distributions in the soil column. The results are fitted by an advection-diffusion analytical solution to determine the hydraulic dynamic dispersion coefficient. The effective diffusion coefficient is then calculated, and the relationship between water content and effective diffusion coefficient is examined. The unsaturated hydraulic conductivity is obtained by considering seepage in the three-layered soils. The results show that the influences of the osmotic suction on the water content are insignificant and that the control of water content in the test is reliable. The effective diffusion coefficients corresponding to matric suctions of 0 to 100 kPa range from 1.59×10-6 to 5.22×10-6 cm2/s. The effective diffusion coefficient decreases linearly with the decreasing dimensionless water content. The dispersivity increases with the decreasing water content. The logarithmic unsaturated hydraulic conductivity decreases linearly with the decreasing dimensionless water content.