Title of article
Investigation of water seepage through porous media using X-ray imaging technique
Author/Authors
Sung Yong Jung، نويسنده , , Seungmin Lim، نويسنده , , Sang Joon Lee، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
7
From page
83
To page
89
Abstract
Dynamic movement of wetting front and variation of water contents through three different porous media were investigated using X-ray radiography. Water and natural sand particles were used as liquid and porous media in this study. To minimize the effects of minor X-ray attenuation and uneven illumination, the flat field correction (FFC) was applied before determining the position of wetting front. In addition, the thickness-averaged (in the direction of the X-ray penetration) water content was obtained by employing the Beer–Lambert law. The initial inertia of water droplet influences more strongly on the vertical migration, compared to the horizontal migration. The effect of initial inertia on the horizontal migration is enhanced as sand size decreases. The pattern of water transport is observed to be significantly affected by the initial water contents. As the initial water contents increases, the bulb-type transport pattern is shifted to a trapezoidal shape. With increasing surface temperature, water droplets are easily broken on the sand surface. This consequently decreases the length of the initial inertia region. Different from the wetting front migration, the water contents at the initial stage clearly exhibit a preferential flow along the vertical direction. The water transport becomes nearly uniform in all directions beyond the saturation state.
Keywords
Water seepage , X-ray imaging , Porous media
Journal title
Journal of Hydrology
Serial Year
2012
Journal title
Journal of Hydrology
Record number
1096681
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