Difference between revisions of "Terrestrial Mo"

From CSDMS
m (changed links)
m (replaced list with automatic generated terrestrial model list)
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{{Models}}
 
{{Models}}
=== Terrestrial model descriptions===
 
 
{{Modellist}}
 
{{Modellist}}
 +
<DPL>
 +
  namespace      = Model
 +
  category      = Terrestrial 
 +
  includepage    = {Infobox Model}:type:one-line-description:developer:source
 +
  table=class    = sortable,Program,Type,Description,Developer,Source code
 +
  tablerow =align=left|<small>''%%''</small>,align=left|<small>%%</small>
 +
</DPL>
 +
 +
'''''Questionnaires still need to be filled out for the next models:'''''
 
{| {{Prettytable}} class="wikitable sortable" style="font-size:90%;"
 
{| {{Prettytable}} class="wikitable sortable" style="font-size:90%;"
|- style="font-size:110%;"
+
|- style="font-size:90%;"
 
!{{H13}}|Program
 
!{{H13}}|Program
 
!{{H13}}|Description
 
!{{H13}}|Description
 
!{{H13}}|Developer
 
!{{H13}}|Developer
 
!{{H23}} class="unsortable"|Source code
 
!{{H23}} class="unsortable"|Source code
|-
 
|[[Model:ADI-2D|ADI-2D]]
 
|''Subroutine'': Advection Diffusion Implicit (ADI) method for solving 2D diffusion equation
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=ADI-2D Download
 
tooltip=Download ADI-2D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Alpine3D|Alpine3D]]
 
|''Model'': 3D model of alpine surface processes
 
|'''Bavay''', Mathias
 
|[[image:Red1.png]]
 
|-
 
|[[Model:AquaTellUs|AquaTellUs]]
 
|''Model'': Fluvial-dominated delta sedimentation model
 
|'''Overeem''', Irina
 
|[[image:Red1.png]]
 
|-
 
|[[Model:Avulsion|Avulsion]]
 
|''Model'': Stream avulsion model
 
|'''Hutton''', Eric
 
|<linkedimage>wikipage=Model:Avulsion
 
tooltip=Download Avulsion
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:BEDLOAD|BEDLOAD]]
 
|''Subroutine'': Bedload transport model
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Bedrock Erosion Model|Bedrock Erosion Model]]
 
|''Subroutine'': Knickpoint propagation in the 2D sediment-flux-driven bedrock erosion model
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Bedrock Erosion Model
 
tooltip=Download Bedrock Erosion Model Download
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Caesar|Caesar]]
 
|''Model'': Cellular landscape evolution model
 
|'''Coulthard''', Tom
 
|[[image:Red1.png]]
 
|-
 
|[[Model:CASCADE|Cascade]]
 
|''Model'': Large scale SPM based on irregular spatial discretization
 
|'''Braun''', Jean
 
|[[image:Red1.png]]
 
|-
 
|[[Model:ChannelOscillation|ChannelOscillation]]
 
|''Subroutine'': Simulates Oscillations in arid alluvial channels
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:ChannelOscillation
 
tooltip=Download Channel-Oscillation
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:CHILD|CHILD]]
 
|''Model'': Landscape Evolution Model
 
|'''Tucker''', Greg
 
|<linkedimage>wikipage=Model:CHILD
 
tooltip=Download CHILD
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:CosmoLand|CosmoLand]]
 
|''Model'': 2-D model tracking cosmogenic nuclides and mixing in landslide terrain
 
|'''Yanites''', Brian
 
|[[image:Red1.png]]
 
|-
 
|[[Model:Coupled1D|Coupled1D]]
 
|''Subroutine'': Coupled 1D bedrock-alluvial channel evolution
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Coupled1D
 
tooltip=Download Coupled1D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:DECAL|DECAL]]
 
|''Model'': Aeolian dune landscape model
 
|'''Baas''', Andreas
 
| [[image:Red1.png]]
 
|-
 
|[[Model:Delft3D|Delft3D]]
 
|''Model'': 3D hydrodynamic and sediment transport model
 
|'''Delft3D support'''
 
|[[image:Red1.png]]
 
 
|-
 
|-
 
|DHSVM
 
|DHSVM
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|DHSVM Administrator
 
|DHSVM Administrator
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
|-
 
|[[Model:Dionisos|Dionisos]]
 
|''Model'': 3D basin-scale stratigraphic model
 
|'''Granjeon''', Didier
 
| [[image:Red1.png]]
 
|-
 
|[[Model:DR3M|DR3M]]
 
|''Model'': Distributed Routing Rainfall-Runoff Model
 
|'''U.S. Geological Survey'''
 
|<linkedimage>wikipage=Model:DR3M
 
tooltip=Download DR3M
 
img_src=Yellow1.png</linkedimage>
 
 
|-
 
|-
 
|DRAINAL
 
|DRAINAL
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|'''Beaumont''', Chris
 
|'''Beaumont''', Chris
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
|-
 
|[[Model:ENTRAIN|ENTRAIN]]
 
|''Subroutine'': Simulates critical shear stress of median grain sizes
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:ENTRAINH|ENTRAINH]]
 
|''Subroutine'': Simulates critical shields theta for median grain sizes
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
 
|-
 
|-
 
|EPANET
 
|EPANET
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tooltip=Download EPANET
 
tooltip=Download EPANET
 
img_src=Yellow1.png</linkedimage>
 
img_src=Yellow1.png</linkedimage>
|-
 
|[[Model:Erode|Erode]]
 
|''Model'': Fluvial landscape evolution model
 
|'''Peckham''', Scott
 
|[[image:Red1.png]]
 
|-
 
|[[Model:FillinPitsFlatsDEM|FillinPitsFlatsDEM]]
 
|''Subroutine'': Filling in pits and flats in a DEM
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:FillinPitsFlatsDEM
 
tooltip=Download FillinPitsFlatsDEM
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:FLDTA|FLDTA]]
 
|''Subroutine'': Simulates flow characteristics based on gradually varied flow equation
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Flex1D|Flex1D]]
 
|''Subroutine'': Fourier filtering in 1D while solving the flexure equation
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Flex1D
 
tooltip=Download Flex1D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Flex2D|Flex2D]]
 
|''Subroutine'': Fourier filtering in 2D while solving the flexure equation
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Flex2D
 
tooltip=Download Flex2D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Flex2D-ADI|Flex2D-ADI]]
 
|''Subroutine'': Solving the flexure equation applying Advection Diffusion Implicit (ADI) method
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Flex2D-ADI
 
tooltip=Download Flex2D-ADI
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Fourier-Bessel integration|Fourier-Bessel integration]]
 
|''Subroutine'': Numerical integration of Fourier-Bessel terms
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Fourier-Bessel integration
 
tooltip=Download Fourier-Bessel integration
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:FractionalNoises1D|FractionalNoises1D]]
 
|''Subroutine'': 1D fractional-noise generation with Fourier-filtering method
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:FractionalNoises1D
 
tooltip=Download FractionalNoises1D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:FractionalNoises2D|FractionalNoises2D]]
 
|''Subroutine'': 2D Gaussian fractional-noise generation with Fourier-filtering method
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:FractionalNoises2D
 
tooltip=Download FractionalNoises2D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:FTCS1D-NonLinear|FTCS1D-NonLinear]]
 
|''Subroutine'': Forward Time Centered Space (FTCS) method for 1D nonlinear diffusion equation
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:FTCS1D-NonLinear
 
tooltip=Download FTCS1D-NonLinear
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:FTCS2D|FTCS2D]]
 
|''Subroutine'': Forward Time Centered Space (FTCS) method for 2D diffusion equation
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:FTCS2D
 
tooltip=Download FTCS2D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:FTCS2D-TerraceDiffusion|FTCS2D-TerraceDiffusion]]
 
|''Subroutine'':  Forward Time Centered Space (FTCS) method for 2D Terrace diffusion
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:FTCS2D-TerraceDiffusion
 
tooltip=Download FTCS2D-TerraceDiffusion
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Gc2d|gc2d]]
 
|''Model'': Glacier / ice sheet evolution model
 
|'''Kessler''', Mark
 
|<linkedimage>wikipage=Model:Gc2d
 
tooltip=Download gc2d
 
img_src=Green1.png</linkedimage>
 
 
|-
 
|-
 
|GEOTOP
 
|GEOTOP
 
|''Model'': A Distributed Hydrological Model with Coupled Water and Energy Budgets
 
|''Model'': A Distributed Hydrological Model with Coupled Water and Energy Budgets
 
|'''Rigon''', Riccardo
 
|'''Rigon''', Riccardo
|[[image:Red1.png]]
 
|-
 
|[[Model:GNE|GNE]]
 
|''Model'': Set of biogeochemical sub-models that predicts river export
 
|'''Seitzinger''', Sybil
 
|[[image:Red1.png]]
 
|-
 
|[[Model:GOLEM|GOLEM]]
 
|''Model'': Landscape evolution model
 
|'''Tucker''', Greg
 
|<linkedimage>wikipage=GOLEM Download
 
tooltip=Download GOLEM
 
img_src=Yellow1.png</linkedimage>
 
|-
 
|[[Model:GPM|GPM]]
 
|''Model'': Sedimentary process modeling software
 
|'''Tetzlaff''', Daniel
 
|[[image:Red1.png]]
 
|-
 
|[[Model:GSSHA|GSSHA]]
 
|''Model'': Coupled distributed engineering hydrology, sediment, contaminant fate/transport
 
|'''Ogden''', Fred
 
|[[image:Red1.png]]
 
|-
 
|[[Model:HEBEM|HEBEM]]
 
|''Model'': Hydrologically Enhanced Basin Evolution Model
 
|'''Niemann''', Jeffrey
 
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
 
|-
 
|-
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|HydroCAD Software Solutions LLC
 
|HydroCAD Software Solutions LLC
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
|-
 
|[[Model:HydroTrend|HydroTrend]]
 
|''Model'': Climate driven hydrological transport model
 
|'''Kettner''', Albert
 
|<linkedimage>wikipage=HT_Download
 
tooltip=Download HydroTrend
 
img_src=Green1.png</linkedimage>
 
 
|-
 
|-
 
|Hydrus 2D/3D
 
|Hydrus 2D/3D
Line 278: Line 53:
 
|GroundwaterSoftware
 
|GroundwaterSoftware
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
|-
 
|[[Model:Iceages|Iceages]]
 
|''Subroutine'': Stochastic-resonance subroutine of Pleistocene ice ages
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Iceages
 
tooltip=Download Iceages
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Ice-sheet / Glacier reconstruction|Ice-sheet / Glacier reconstruction]]
 
|''Subroutine'': Sandpile method for ice-sheet and glacier reconstruction
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Ice-sheet / Glacier reconstruction
 
tooltip=Download Ice-sheet / Glacier reconstruction
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:LavaFlow2D|LavaFlow2D]]
 
|''Subroutine'': 2D radially symmetric lava flow model
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:LavaFlow2D
 
tooltip=Download LavaFlow2D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:LITHFLEX1|LITHFLEX1]]
 
|''Subroutine'': Lithospheric flexure solution
 
|'''Furlong''', Kevin
 
|<linkedimage>wikipage=Model:LITHFLEX1
 
tooltip=Download Lithflex1
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:LITHFLEX2|LITHFLEX2]]
 
|''Subroutine'': Lithospheric flexure solution for a broken plate
 
|'''Furlong''', Kevin
 
|<linkedimage>wikipage=Model:LITHFLEX2
 
tooltip=Download Lithflex2
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:LOADEST|LOADEST]]
 
|''Model'': Software for estimating constituent loads in streams and rivers
 
|'''Runkel''', Robert
 
|<linkedimage>wikipage=Model:LOADEST
 
tooltip=Download LOADEST
 
img_src=Yellow1.png</linkedimage>
 
|-
 
|[[Model:LOGDIST|LOGDIST]]
 
|''Subroutine'': Logrithmic velocity distribution solution
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:LONGPRO|LONGPRO]]
 
|''Subroutine'': Dynamic evolution of longitudinal profiles
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:LONGPRO
 
tooltip=Download LongPro
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:MARSSIM|MARSSIM]]
 
|''Model'': Landform evolution model
 
|'''Howard''', Alan
 
|[[image:Red1.png]]
 
|-
 
|[[Model:MFDrouting|MFDrouting]]
 
|''Subroutine'': Multiple Flow Direction (MFD) flow routing method
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:MFDrouting
 
tooltip=Download MFDrouting
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:MFDrouting-Successive|MFDrouting-Successive]]
 
|''Subroutine'': Successive flow routing with Multiple Flow Direction (MFD) method
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:MFDrouting-Successive
 
tooltip=Download MFDrouting-Successive
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:MIDAS|MIDAS]]
 
|''Model'': Coupled flow- heterogeneous sediment routing model
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
 
|-
 
|-
 
|MIKE SHE
 
|MIKE SHE
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|'''Wilkinson''', Scott
 
|'''Wilkinson''', Scott
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
|-
 
|[[Model:SETTLE|SETTLE]]
 
|''Subroutine'': Partical settling velocity solution
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:SimClast|SimClast]]
 
|''Model'': basin-scale 3D stratigraphic model
 
|'''Dalman''', Rory
 
|[[image:Red1.png]]
 
|-
 
|[[Model:SOBEK|SOBEK]]
 
|''Model'': 1D hydraulic numerical model
 
|'''SOBEK support'''
 
|[[image:Red1.png]]
 
|-
 
|[[Model:Subside|Subside]]
 
|''Model'': Flexure model
 
|'''Hutton''', Eric
 
|<linkedimage>wikipage=Model:Subside
 
tooltip=Download Subside
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:SVELA|SVELA]]
 
|''Subroutine'': Shear velocity solution associated with grain roughness
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
 
|-
 
|-
 
|SIBERIA
 
|SIBERIA
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|'''Alexander''', Richard  
 
|'''Alexander''', Richard  
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
|-
 
|[[Model:Spirals1D|Spirals1D]]
 
|''Subroutine'': 1D model of spiral troughs on Mars
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Mode:Spirals1D
 
tooltip=Download Spirals1D
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:StreamPower|StreamPower]]
 
|''Subroutine'': Modeling the development of topographic steady state in the stream-power model
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:StreamPower
 
tooltip=Download StreamPower
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:SUSP|SUSP]]
 
|''Subroutine'': Suspended load transport subroutine
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
 
|-
 
|-
 
|SWAT
 
|SWAT
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|''Model'': Storm Water Management Model
 
|''Model'': Storm Water Management Model
 
|'''Rossman''', Lewis   
 
|'''Rossman''', Lewis   
|[[image:Red1.png]]
 
|-
 
|[[Model:TreeThrow|TreeThrow]]
 
|''Subroutine'': Sediment transport by tree throw on hillslopes
 
|'''Kirwan''', Matthew
 
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
 
|-
 
|-
Line 507: Line 143:
 
|'''Butt''', Tony
 
|'''Butt''', Tony
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
|-
 
|[[Model:TopoFlow|TopoFlow]]
 
|''Model'': Hydrological model
 
|'''Peckham''', Scott
 
|<linkedimage>wikipage=Model:TopoFlow
 
tooltip=Download TopoFlow Source
 
img_src=Green1.png</linkedimage>
 
 
|-
 
|-
 
|Tremp
 
|Tremp
Line 519: Line 148:
 
|'''Clevis''', Quintijn
 
|'''Clevis''', Quintijn
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
|-
 
|[[Model:TUGS|TUGS]]
 
|''Model'': Fluvial gravel and sand transport model
 
|'''Cui''', Yantao
 
|[[image:Red1.png]]
 
|-
 
|[[Model:TURB|TURB]]
 
|''Subroutine'': Gausian distribution calculator of instantaneous shear stresses on the fluvial bed
 
|'''Slingerland''', Rudy
 
|<linkedimage>wikipage=Model:MIDAS
 
tooltip=Download Midas
 
img_src=Green1.png</linkedimage>
 
 
|-
 
|-
 
|VIC
 
|VIC
 
|''Model'': macroscale hydrologic model that solves full water and energy balances
 
|''Model'': macroscale hydrologic model that solves full water and energy balances
 
|'''Liang''', Xu  
 
|'''Liang''', Xu  
|[[image:Red1.png]]
 
|-
 
|[[Model:WASH123D|WASH123D]]
 
|''Model'': Watershed Model, River Hydraulics, Overland Flow, Subsurface Flow, Sediment Transport, Water Quality Transport
 
|'''Yeh''', Gour-Tsyh (George)
 
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
 
|-
 
|-
Line 545: Line 157:
 
|''Model'': The Water Erosion Prediction Project model
 
|''Model'': The Water Erosion Prediction Project model
 
|National Soil Erosion Research Laboratory
 
|National Soil Erosion Research Laboratory
|[[image:Red1.png]]
 
|-
 
|[[Model:Eolian Dune Model|Werner's Eolian Dune Model]]
 
|''Model'': Werner's model for eolian dune formation and evolution
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Eolian Dune Model
 
tooltip=Download Werners Eolian Dune Model
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:Eolian Dune Model-Diagonals|Werner's Eolian Dune Model - Diagonals]]
 
|''Model'': Werner's model for eolian dune formation and evolution with variable bed topography
 
|'''Pelletier''', Jon
 
|<linkedimage>wikipage=Model:Eolian Dune Model-Diagonals
 
tooltip=Download Werners Eolian Dune Model-Diagonals
 
img_src=Green1.png</linkedimage>
 
|-
 
|[[Model:WBM/WTM|WBM/WTM]]
 
|''Model'': Water Balance/Transport Model
 
|'''Fekete''', Balazs
 
|[[image:Red1.png]]
 
|-
 
 
|[[Model:WILSIM|WILSIM]]
 
|''Model'': Landscape evolution model
 
|'''Luo''', Wei
 
|[[image:Red1.png]]
 
|-
 
|[[Model:YANG's routine|YANG's routine]]
 
|''Subroutine'': Fluvial sediment transport model
 
|'''Slingerland''', Rudy
 
 
|[[image:Red1.png]]
 
|[[image:Red1.png]]
 
|-
 
|-

Revision as of 11:23, 18 February 2009

Hydrology.png
Search & download a specific model from the overall model list, or per category (see below for direct links). The lists will have links to each of the model descriptions, and some models you can directly run from the repository in the CMT.

Template:Modellist <DPL> 

 namespace      = Model
 category       = Terrestrial  
 includepage    = {Infobox Model}:type:one-line-description:developer:source
 table=class    = sortable,Program,Type,Description,Developer,Source code
 tablerow =align=left|%%,align=left|%%

</DPL>

Questionnaires still need to be filled out for the next models:

Program Description Developer Source code
DHSVM Model: Distributed Hydrology Soil Vegetation Model DHSVM Administrator Red1.png
DRAINAL Model: Surface process model Beaumont, Chris Red1.png
EPANET model: Models the Hydraulic and Water Quality Behavior of Water Distribution Piping Systems Rossman, Lewis <linkedimage>wikipage=EPANET_Information

tooltip=Download EPANET img_src=Yellow1.png</linkedimage>

GEOTOP Model: A Distributed Hydrological Model with Coupled Water and Energy Budgets Rigon, Riccardo Red1.png
HSPF Model: Hydrological Simulation Program - FORTRAN is a comprehensive package for simulation of watershed hydrology and water quality for both conventional and toxic organic pollutants Center for Exposure Assessment Modeling (CEAM) Red1.png
HydroCAD Model: Computer Aided Design tool used for modeling stormwater runoff HydroCAD Software Solutions LLC Red1.png
Hydrus 2D/3D Model: Water Flow and Solute Transport model in Two- and Three-Dimensional Variably Saturated Media GroundwaterSoftware Red1.png
MIKE SHE Model: Advanced integrated hydrological modeling system DHI Red1.png
MODFLOW Model: A three-dimensional finite-difference groundwater flow model McDonald, Michael Red1.png
ParFlow Model: a parallel, three-dimensional, variably saturated groundwater flow model Maxwell, Reed Red1.png
PIHM Model: Penn State Integrated Hydrologic Model Duffy, Christopher Red1.png
PIHM GIS Model:Penn State Integrated Hydrologic Model incorporated into a GIS package Duffy, Christopher Red1.png
QUAL2K Model: A Modeling Framework for Simulating River and Stream Water Quality Chapra, Steve Red1.png
RASCAL Model: Ridge and Slough Cellular Automata Landscape Larsen, Laurel Red1.png
RHESSyS Model: Regional Hydro-Ecologic Simulation System Tague, Christina Red1.png
RIVMOD Model: One-dimensional hydrodynamic model Carroll, Rosemary Red1.png
SAC-SMA Model: Sacramento Soil Moisture Accounting (SAC-SMA) model Burnash, R. Red1.png
SetNet Model: Sediment river Network model Wilkinson, Scott Red1.png
SIBERIA Model: Landscape evolution model Willgoose, Garry Red1.png
SPARROW Model: Modeling of Surface-Water Quality Alexander, Richard Red1.png
SWAT Model: SWAT is a river basin scale model developed to quantify the impact of land management practices in large, complex watersheds. SWAT Development Team Red1.png
SWMM Model: Storm Water Management Model Rossman, Lewis Red1.png
tRibs Subroutine: Hydrological model Bras, Rafael Red1.png
TOPMODEL Model: Physically based, distributed watershed model that simulates hydrologic fluxes of water through a watershed Beven, Keith Red1.png
TOPOG Model: Terrain analysis-based hydrologic modelling package Butt, Tony Red1.png
Tremp Model: Eocene Tremp foreland basin model Clevis, Quintijn Red1.png
VIC Model: macroscale hydrologic model that solves full water and energy balances Liang, Xu Red1.png
WEPP Model: The Water Erosion Prediction Project model National Soil Erosion Research Laboratory Red1.png
ZScape Model: Landcape evolution model Densmore, A. & Connor, C. Red1.png
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