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Hydrogeology Journal

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01-06-2013 | Paper

Uncertainty in simulated groundwater-quality trends in transient flow

Authors: J. Jeffrey Starn, Amvrossios C. Bagtzoglou, Gary A. Robbins

Published in: Hydrogeology Journal | Issue 4/2013

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Abstract

In numerical modeling of groundwater flow, the result of a given solution method is affected by the way in which transient flow conditions and geologic heterogeneity are simulated. An algorithm is demonstrated that simulates breakthrough curves at a pumping well by convolution-based particle tracking in a transient flow field for several synthetic basin-scale aquifers. In comparison to grid-based (Eulerian) methods, the particle (Lagrangian) method is better able to capture multimodal breakthrough caused by changes in pumping at the well, although the particle method may be apparently nonlinear because of the discrete nature of particle arrival times. Trial-and-error choice of number of particles and release times can perhaps overcome the apparent nonlinearity. Heterogeneous aquifer properties tend to smooth the effects of transient pumping, making it difficult to separate their effects in parameter estimation. Porosity, a new parameter added for advective transport, can be accurately estimated using both grid-based and particle-based methods, but predictions can be highly uncertain, even in the simple, nonreactive case.

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Title: Uncertainty in simulated groundwater-quality trends in transient flow
Authors: J. Jeffrey Starn
Amvrossios C. Bagtzoglou
Gary A. Robbins
Publication date: 01-06-2013
Publisher: Springer-Verlag
Published in: Hydrogeology Journal / Issue 4/2013
Print ISSN: 1431-2174
Electronic ISSN: 1435-0157
DOI: https://doi.org/10.1007/s10040-013-0967-2

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