An analytical solution for ground water transit time through unconfined aquifers |
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Authors: | Chesnaux R Molson J W Chapuis R P |
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Affiliation: | Ecole Plytechnique de Montréal, Department of Civil, Geological and Mining Engineering, Montreal, Quebec, Canada. romain.chesnaux@polymtl.ca |
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Abstract: | An exact, closed-form analytical solution is developed for calculating ground water transit times within Dupuit-type flow systems. The solution applies to steady-state, saturated flow through an unconfined, horizontal aquifer recharged by surface infiltration and discharging to a downgradient fixed-head boundary. The upgradient boundary can represent, using the same equation, a no-flow boundary or a fixed head. The approach is unique for calculating travel times because it makes no a priori assumptions regarding the limit of the water table rise with respect to the minimum saturated aquifer thickness. The computed travel times are verified against a numerical model, and examples are provided, which show that the predicted travel times can be on the order of nine times longer relative to existing analytical solutions. |
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