Laboratory measurement of hydrodynamic saline dispersion within a micro-fracture network induced in granite

Details Laboratory measurement of hydrodynamic saline dispersion within a micro-fracture network induced in granite Laboratory measurement of hydrodynamic saline dispersion within a micro-fracture network induced in granite

Aug 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007e%26psl.260..407o&link_type=abstract

Earth and Planetary Science Letters, Volume 260, Issue 3-4, p. 407-418.

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We report the first measurements of hydrodynamic dispersion in a microfractured granite using a combination of novel techniques. A fracture network was induced in a cylindrical plug of Ailsa Craig micro-granite by thermal stressing, to produce an isotropic network of fractures with an average aperture of ˜ 0.3 μm, a density of approximately 4 × 104 fractures/mm3 and a permeability of 5.5 × 10- 17 m2. After saturating the cores with 0.01 M NaCl solution a step in the concentration profile to 1 M was advected into the plug at flow rates of 0.07 to 2.13 cm3 h- 1. The longitudinal electrical impedance of the plug was measured continuously as the solute front advected through its length until the plug was saturated with the concentrated electrolyte. Analysis of the impedance versus time relationships allows the derivation of the longitudinal dispersion coefficient, DL, and hydrodynamic retardation, RH. The Peclet number dispersion relationship for the micro-fracture network is very similar to that predicted for other, radically different, fracture networks. Thus dispersion may be more dependent on fracture connectivity and length than fracture density and display a relationship similar to that shown by particle beds and clastic sandstones. The high retardation values observed (2.2 4.9) reflect flow behaviour within a fracture network with a proportion of ‘blind’ sections, and demonstrates how such networks can slow the advance of conservative solute components.

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