Diffusivity anisotropy in a rhyolite and its relation to pore structure
Authors:
Tadashi Yokoyama and Satoru Nakashima
Affiliation:
aDepartment of Earth and Planetary Science, The University of Tokyo, Hongo, Tokyo 113-0033, Japan
bDepartment of Earth and Space Science, Osaka University, 1-1 Machikaneyama, Toyonaka, 560-0043, Osaka, Japan
Abstract:
The diffusivity anisotropy of ions through rock pore water was evaluated quantitatively by through-diffusion experiments on a rhyolite rock having anisotropic pore structure. The rhyolite has planar flow structure with elongated pore shapes to the flow direction (X–Y plane). Diffusion coefficients of K+ ions for the direction perpendicular to this flow structure (Z-direction) were about 5–9 times smaller than those for the orthogonal parallel directions (X- and Y-direction). Pore geometrical analyses on backscattered electron microscopic images indicated that the pore length ratios among the X-, Y-, and Z-direction were roughly 2 : 2 : 1. This shorter pore length for the Z-direction appears to reduce pore connectivity, causing larger tortuosity and smaller diffusivity for this direction. This diffusivity anisotropy needs to be taken into account for precise modeling of diffusion-limited geological processes such as contaminant transport and rock deformation.