Rose Ben Simon scite author profile

This paper aims to assess MODFLOW and MT3D capabilities for simulating the spread of contaminants from a river exhibiting an unusual relationship with an alluvial aquifer, with the groundwater head higher than the river head on one side and lower on the other (flow‐through stream). A series of simulation tests is conducted using a simple hypothetical model so as to characterize and quantify these limitations. Simulation results show that the expected contaminant spread could be achieved with a specific configuration composed of two sets of parameters: (1) modeled object parameters (hydraulic groundwater gradient, hydraulic conductivity values of aquifer and streambed), and (2) modeling parameters (vertical discretization of aquifer, horizontal refinement of stream modeled with River [RIV] package). The influence of these various parameters on simulation results is investigated, and potential complications and errors are identified. Contaminant spread from stream to aquifer is not always reproduced by MT3D due to the RIV package's inability to simulate lateral exchange fluxes between stream and aquifer. This paper identifies the need for a MODFLOW streamflow package allowing lateral stream‐aquifer interactions and streamflow routine calculations. Such developments could be of particular interest for modeling contaminated flow‐through streams.

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Interview with Florence Blakely Durham, NC, April 21, 1998

Simon¹

1998

NCL

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Librarians as Cultural Guardians and Information Professionals

Simon¹

1992

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Saved: The Gambold Collection of Morovian Devotional Books

Simon¹

1998

NCL

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Rose Ben Simon

Kinetic reactive transport modelling of column tests for uranium In Situ Recovery (ISR) mining

Flow‐Through Stream Modeling with MODFLOW and MT3D: Certainties and Limitations

Interview with Florence Blakely Durham, NC, April 21, 1998

Librarians as Cultural Guardians and Information Professionals

Saved: The Gambold Collection of Morovian Devotional Books

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