Title of article
Tracer diffusion from a horizontal fracture into the surrounding matrix: measurement by computed tomography
Author/Authors
Amir Polak، نويسنده , , Abraham S. Grader، نويسنده , , Rony Wallach، نويسنده , , Ronit Nativ، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
18
From page
95
To page
112
Abstract
The vertical diffusion of NaI solution from a horizontal fracture into and within the surrounding matrix was tracked and quantified over time using an artificially fractured chalk core (30×5 cm) and a second-generation X-ray computed tomography (CT) scanner. The different tracer-penetration distances imaged in the matrix above and below the horizontal fracture are indicative of a greater tracer mass penetrating into the lower matrix. The enhanced transport in the matrix below the fracture was related to the Rayleigh–Darcy instability induced by the density differences between the heavier tracer solution in the fracture (1.038) and the distilled water that had initially resided in the matrix. Our observations suggest that below the fracture, the tracer is propagated by an advection–diffusion process that is characterized by both higher rates and higher concentrations relative to its propagation by diffusion above the fracture. The experimental results suggest that the prediction of contaminant migration in a rock intersected by both vertical and horizontal (e.g. along bedding planes) fractures is difficult because of density effects that result in different solute-penetration rates.
Keywords
Fractured rock , chalk , CT imaging , diffusion , Density-induced instability
Journal title
Journal of Contaminant Hydrology
Serial Year
2003
Journal title
Journal of Contaminant Hydrology
Record number
693484
Link To Document