Michael G. McDonald scite author profile

This report describes an enhanced version of the U.S. Geological Survey modular groundwater model, called MODFLOW-2000, for which the structure has been expanded to facilitate the solution of multiple related equations. The performance of the program has been tested in a variety of applications. Future applications, however, might reveal errors that were not detected in the test simulations. Users are requested to notify the U.

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A modular three-dimensional finite-difference ground-water flow model

McDonald¹,

Harbaugh²

1984

1,541

1,126

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User's documentation for MODFLOW-96, an update to the U.S. Geological Survey modular finite-difference ground-water flow model

Harbaugh¹,

McDonald²

1996

532

390

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The History of MODFLOW

McDonald¹,

Harbaugh

2003

Groundwater

139

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A method of converting no-flow cells to variable-head cells for the U. S. Geological Survey modular finite-difference ground-water flow model

McDonald¹,

Harbaugh²,

Orr³

et al. 1991

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The U.S. Geological Survey Modular GroundWater Flow Model, commonly referred to as MODFLOW, simulates groundwater flow through porous media using the finite-difference method. The region being modeled is divided into a grid of cells, and each cell is defined to be either no-flow, variable-head, or constant-head. The model calculates a value for head at all variable-head cells whereas head at constant-head cells is specified by the user. Cells are designated as no-flow cells if they contain impermeable material or are unsaturated, and accordingly the flow of water is not simulated in such cells. As originally published, MODFLOW could simulate the desaturation of variable-head model cells, which resulted in their conversion to no-flow cells, but could not simulate the resaturation of cells. That is, a no-flow cell could not be converted to variable head. However, such conversion is desirable in many situations. For example, one might wish to simulate pumping that desaturates some cells followed by the recovery of water levels after pumping is stopped. An option that allows cells to convert from noflow to variable-head has been added to the model. In this option, a cell is converted to variable head based on the head at neighboring cells. The option is written in FORTRAN 77 and is fully compatible with the existing model. This report documents the new option, including a description of the concepts, detailed input instructions, and a listing of the code. Example problems illustrate the practical applications of the option. Although solution of the modified flow equations can be difficult for the model solvers, the example problems show that it is possible to solve a variety of complex problems.

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