The use of numerical flow and transport models in environmental analyses
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Publication date
2014-05-24
Editors
Geraldes Teixeira, W.
Bacis Ceddia, M.
Vasconcelos Ottoni, M.
Kangussu Donnagema, G.
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Abstract
This chapter provides an overview of alternative approaches for modeling water flow and contaminant transport problems in soils and groundwater. Special focus is on flow and transport processes in the variably saturated vadose zone between the soil surface and the groundwater table. The governing flow and transport equations are discussed for both equilibrium and nonequilibrium flow conditions, followed by three examples. The first example shows how one-dimensional root-zone modeling can be used to estimate short- and long-term recharge rates, including contaminant transport through the vadose zone. A second example illustrates a two-dimensional application involving drip irrigation, while the third example deals with two-dimensional nonequilibrium transport of a pesticide in a tile-drained field soil. Also discussed are alternative pore-scale modeling approaches that may provide a better understanding of the basic physical and geochemical processes affecting fluid flow and contaminant transport in saturated and variably saturated media.
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van Genuchten, M T, Naveira-Cotta, C, Skaggs, T H, Raoof, A & Pontedeiro, E M 2014, The use of numerical flow and transport models in environmental analyses. in W Geraldes Teixeira, M Bacis Ceddia, M Vasconcelos Ottoni & G Kangussu Donnagema (eds), Application of soil physics in environmental analyses : Measuring, modelling and data integration. Progress in Soil Science, Springer, pp. 349-376. https://doi.org/10.1007/978-3-319-06013-2_15