ParFlow
Introduction
History
Papers
ParFlow Questionnaire
Contact Information
Model:
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ParFlow
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Contact person:
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Reed Maxwell (Project manager)
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Institute:
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International Groundwater Modeling Center, Colorado School of Mines
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City:
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Golden, CO
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Country:
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USA
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Email:
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rmaxwell@mines.edu
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2nd person involved:
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Steven Smith (Model developer)
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3rd person involved:
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Stefan Kollet (Technical contact)
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Model Description
Model type:
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Modular model for the terrestrial domain.
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Description:
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ParFlow is an open-source, object-oriented, parallel watershed flow model. It includes fully-integrated overland flow, the ability to simulate complex topography, geology and heterogeneity and coupled land-surface processes including the land-energy budget, biogeochemistry and snow (via CLM). It is multi-platform and runs with a common I/O structure from laptop to supercomputer. ParFlow is the result of a long, multi-institutional development history and is now a collaborative effort between CSM, LLNL, UniBonn and UCB. ParFlow has been coupled to the mesoscale, meteorological code ARPS and the NCAR code WRF.
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Technical information
Supported platforms:
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UNIX, Linux, Mac OSX
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Programming language:
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Fortran90, C
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Model development started at:
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1994 and development still takes place.
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To what degree will the model become available:
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Source code, as executable & teaching tool
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Current license type:
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LGPL
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Memory requirements:
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depends on problem size
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Typical run time:
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depends on problem size
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Input / Output description
Input parameters:
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TCL script, many physical and numerical parameters needed.
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Input format:
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ASCII, Binary
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Output parameters:
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Many: pressure, saturation, temperature, energy fluxes, flow, etc.
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Output format:
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ASCII, Binary
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Post-processing software (if needed):
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Yes, ParFlow comes with a robust, integrated toolkit (pftools) that provides a wide range of postprocessing options.
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Visualization software (if needed):
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Yes, Matlab & Visit
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Process description
Processes represented by model:
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- Saturated subsurface flow.
- Variably-saturated subsurface flow.
- Integrated overland flow.
- Land-energy budget.
- Shallow heat transport.
- Bio-geochemistry (plant/water interactions).
- Correlated, Gaussian random field generators.
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Key physical parameters & equations:
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Fully described in manual.
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Length scale & resolution constraints:
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Depends upon application.
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Time scale & resolution constraints:
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Depends upon application.
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Numerical limitations and issues :
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Depends only on computer resources.
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Testing
Available calibration data sets:
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ParFlow contains a directory of test cases that may be automated as a check of the code.
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Available test data sets:
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ParFlow contains a directory of test cases that may be automated as a check of the code
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Ideal data for testing:
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--
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User groups
Currently or plans for collaborating with:
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Yes, many already in progress.
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Documentation
Key papers of the model:
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- Ashby S.F. and R.D. Falgout, Nuclear Science and Engineering 124:145-159, 1996
- Jones, J.E. and C.S. Woodward, Advances in Water Resources 24:763-774, 2001
- Kollet, S.J. and R.M. Maxwell, Advances in Water Resources 29:945-958, 2006
- Maxwell, R.M. and N.L. Miller, Journal of Hydrometeorology 6(3):233-247, 2005
- Kollet, S.J. and R.M. Maxwell, Water Resources Research 44:W02402, 2008
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Is there a manual available:
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Yes
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Model website if any:
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http://inside.mines.edu/~rmaxwell/maxwell_software.shtml
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Issues
Help
Input Files
Output Files
Download
http://inside.mines.edu/~rmaxwell/maxwell_software.shtml
Source
http://inside.mines.edu/~rmaxwell/maxwell_software.shtml