Article ID Journal Published Year Pages File Type
4546612 Journal of Contaminant Hydrology 2014 10 Pages PDF
Abstract

•Novel approach for numerical simulation of rapid gelation process•Calibration and validation of simulation results of gelation from laboratory experiments•Density-dependent movement of viscosity-changing solute in heterogeneous porous media•Concentration dependent gelation process and continued movement of non-gelated solute

We present a novel approach for the numerical simulation of the gelation of silicate solutions under density-dependent flow conditions. The method utilizes an auxiliary, not density-dependent solute that is subject to a linear decay function to provide temporal information that is used to describe the viscosity change of the fluid. By comparing the modeling results to experimental data, we are able to simulate the behavior and the gelation process of the injected solute for three different compositions, including long-term stability of the gelated area, and non-gelation of low concentrations due to hydro-dynamic dispersion. This approach can also be used for other types of solutes with this gelling property and is useful in a variety of applications in geological, civil and environmental engineering.

Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Earth-Surface Processes
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