Comparing heat and solute transport in a discrete rock fracture of variable aperture

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NSTL
Elsevier

外文摘要：In this study, we have compared heat and solute transport in a discrete fracture using numerical modeling. Fracture aperture heterogeneity was described using geostatistical properties with fracture aperture means of up to 1000 mu m, variances of 10,000 mu m(2) and isotropic correlation lengths up to 10 m. Groundwater flow in the matrix was assumed to be negligible and flow in the fracture was set to values typical for natural groundwater conditions with velocities less than 100 m/day and associated hydraulic gradients of less than 0.05. A uniform isotropic thermal conductivity of 2 W/m ? was set for the matrix. Based on 50 realizations, three-dimensional and two-dimensional conduction in the matrix and in the fracture, respectively, play an important role in controlling the development and the shape of the thermal plume under natural flow conditions. In contrast, solute transport exhibits limited penetration depth in the matrix. The results of this research indicate that, contrary to solute transport in discrete fracture settings where channeling is sometimes a major contributor to solute migration rates, no significant thermal channeling is observed under natural groundwater flow conditions. The use of tracer experiments or the monitoring of solute transport in fractured rock will not therefore provide a reliable prediction of the migration of heat in the same setting.

外文关键词：

Fractured rockHeat transferSolute transportConductionDiffusionFracture aperture variabilitySINGLE-FRACTURETHERMAL-CONDUCTIVITYTRANSFER COEFFICIENTGROUNDWATER-FLOWTRACER TRANSPORTPOROUS-MEDIAFLUID-FLOWWATER-FLOWTRANSMISSIVITY EVOLUTIONNUMERICAL-SIMULATION

作者：

Jaoude, Issam Bou、Novakowski, Kent、Kueper, Bernard

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作者单位：

Queens Univ

出版年：

2022

DOI：

10.1016/j.jhydrol.2022.127496

Journal of Hydrology

EISCI

ISSN：0022-1694

年,卷(期)：2022.607

被引量6
参考文献量132