Solute Transport

Illangasekare, H. and P. Doll, 1989. A Discrete Kernel – Method of Characteristics Groundwater Solute Transport Model, Water Reso. Research, 25(5), 857867.
Wildenschild, D., K.H. Jensen, K. Villholth and H. Illangasekare A laboratory analysis of the effect of macrospores on solute transport, Groundwater, 32(3), 1994, 381-389
Illangasekare, H. J.H. Brannon and B. Amadei, 1994. Three-dimensional aquifer flow and transport by integral transforms, J. of Hydrology, 161, pp 109-131.
Nachabe, M.H. and H. Illangasekare Analytical solutions for water flow and solute transport in the unsaturated zone, Models for Assessing and Monitoring Groundwater Quality, IAHS Publication No. 22, Ed. B.J. Wagner, T.H. Illangasekare and K.H. Jensen. pp 125-132.
Chao, H-C, H. Rajaram and H. Illangasekare (2000). Intermediate scale experiments and numerical simulations of transport under radial flow in two-dimensional heterogeneous porous medium, Water Res. Resh,36(10), 2869-2878.
Barth, G. R., H. Illangasekare, M. C. Hill, and H. Rajaram, 2001. A new tracer-density criterion for heterogeneous porous media, Water Resources Research, 37(1), 21-31.
Barth, G.R., M.C. Hill, H. Illangasekare and H. Rajaram, 2001, Predictive modeling of flow and transport in a two-dimensional intermediate-scale, heterogeneous porous medium, Water Resources Research, 37(10), 2503-2512.
Fernandez-Garcia, D., X. Sanchez-Villa and H. Illangasekare, 2002, Convergent-flow tracer tests in heterogeneous media: combined experimental-numerical analysis for determination of equivalent parameters, J. of Contaminant Hydrology, 57, 129-145.
Fernando-Garcia, D., H. Illangasekare and H. Rajaram, 2004. Conservative and Sorptive Forced-Gradient and Uniform Flow Tracer Tests in a Three-Dimensional Laboratory Test Aquifer, Water Res. Resh. 40 (10), W10103.
Fernando-Garcia, D., H. Illangasekare and H. Rajaram, 2004. Conservative and Sorptive Forced-Gradient and Uniform Flow Tracer Tests in a Three-Dimensional Laboratory Test Aquifer, Water Res. Resh. 40(10, W101013, 17 pages.
Fernàndez-Garcia D., H. Illangasekare, H. Rajaram, 2005. Differences in the scale dependence of dispersivity and retardation factors estimated from forced-gradient and uniform flow tracer tests in three-dimensional physically and chemically heterogeneous porous media, Water Resour. Res., 41, W03012, doi:10.1029/2004WR003125.
Fernàndez-Garcia D., H. Rajaram, H. Illangasekare, 2005b. Assessment of the predictive capabilities of stochastic theories in a three-dimensional laboratory test aquifer: Effective hydraulic conductivity and temporal moments of breakthrough curves, Water Resour. Res., 41, W04002, doi:10.1029/2004WR003523
Fernàndez-Garcia, D., Illangasekare, T. H., Rajaram, H. (2005), Differences in the scale-dependence of dispersivity estimated from temporal and spatial moments in physically and chemically heterogeneous porous media. Advances in Water Resources (ISSN 0309-1708), VOL. 28, 745-759.
Frippiat, C.C., H. Illangasekare, G. A. Zyvoloski, (2008). Anisotropic eﬀective medium solutions of head and velocity variance to quantify ﬂow connectivity, Advances in Water Resources v. 32, iss. 2, p. 239-249
Sakaki, T., C. C. Frippiat, M. Komatsu, and T. H. Illangasekare (2009), On the value of lithofacies data for improving groundwater flow model accuracy in a three-dimensional laboratory-scale synthetic aquifer, Water Resour. Res., 45, W11404, doi:10.1029/2008WR007229.
Frippiat, C.C., T. H. Illangasekare, G. A. Zyvoloski, (2009). Anisotropic eﬀective medium solutions of head and velocity variance to quantify ﬂow connectivity, Advances in Water Resources Advances in Water Resources, v. 32, iss. 2, p. 239-249.

Solute Transport

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