| Program | Description | Developer | CMT
Run Help |
|---|
| Acronym1 |
E-book: program for computing bedload transport in
gravel rivers. |
Parker, Gary |
|
| Acronym1D |
E-book: program for computing bedload transport in gravel rivers over time. |
Parker, Gary |
|
| Acronym1R |
E-book: program for computing bedload transport in gravel rivers with a Manning-Strickler relation for flow resistance. |
Parker, Gary |
|
| AgDegBW |
E-book: Calculator for aggradation and degradation of a river reach using a backwater formulation. |
Parker, Gary |
|
| AgDegNormGravMixPW |
E-book: calculator for aggradation and degradation of sediment mixtures in gravel-bed streams |
Parker, Gary |
|
| AgDegNormGravMixSubPW |
E-book: calculator for evolution of upward-concave bed profiles in rivers carrying sediment mixtures in subsiding basins. |
Parker, Gary |
|
| AgDegNormal |
E-book: illustration of calculation of aggradation and degradation of a river reach using the normal flow approximation. |
Parker, Gary |
|
| AgDegNormalFault |
E-book: Illustration of calculation of aggradation and degradation of a river reach using the normal flow approximation; with an extension for calculation of the response to a sudden fault along the reach. |
Parker, Gary |
|
| AgDegNormalGravMixHyd |
E-book: A module that calculates the evolution of a gravel bed river under an imposed cycled hydrograph. |
Parker, Gary |
|
| AgDegNormalSub |
E-book: Program to calculate the evolution of upward-concave bed profiles in rivers carrying uniform sediment in subsiding basins. |
Parker, Gary |
|
| Avulsion |
Stream avulsion model |
Hutton, Eric |
|
| BackwaterCalculator |
E-book: program for backwater calculations in open channel flow |
Parker, Gary |
|
| BackwaterWrightParker |
E-book: calculator for backwater curves in sand-bed streams, including the effects of both skin friction and form drag due to skin friction |
Parker, Gary |
|
| BedrockAlluvialTransition |
E-book: calculator for aggradation and degradation with a migrating bedrock-alluvial transition at the upstream end. |
Parker, Gary |
|
| CBOFS2 |
The Second Generation Chesapeake Bay Operational Forecast System (CBOFS2): A ROMS‐Based Modeling System |
Lanerolle, Lyon |
|
| CEM |
Coastline evolution model |
Murray, A. Brad |
|
| CHILD |
Landscape Evolution Model |
Tucker, Greg |
|
| ChesROMS |
Chesapeake Bay ROMS Community Model (ChesROMS), special case of ROMS |
Long, Wen |
|
| DeltaBW |
E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using a backwater formulation. |
Parker, Gary |
|
| DeltaNorm |
E-book: Calculator for evolution of long profile of a river ending in a 1D migrating delta, using the normal flow approximation. |
Parker, Gary |
|
| DepDistTotLoadCalc |
E-book: Illustration of calculation of depth-discharge relation, bed load transport, suspended load transport and total bed material load for a large, low-slope sand-bed river. |
Parker, Gary |
|
| DredgeSlotBW |
E-book: calculator for aggradation and degradation of sediment mixtures in gravel-bed streams subject to cyclic hydrographs. |
Parker, Gary |
|
| Erode |
Fluvial landscape evolution model |
Peckham, Scott |
|
| FallVelocity |
E-book: Particle fall velocity calculator |
Parker, Gary |
|
| GSDCalculator |
E-book: Calculator for statistical characteristics of grain size distributions. |
Parker, Gary |
|
| Gc2d |
Glacier / ice sheet evolution model |
Kessler, Mark |
|
| GravelSandTransition |
E-book: Calculator for evolution of long profile of river with a migrating gravel-sand transition and subject to subsidence or base level rise. |
Parker, Gary |
|
| HydroTrend |
Climate driven hydrological transport model |
Kettner, Albert |
|
| MARSSIM |
Landform evolution model |
Howard, Alan |
|
| ROMS |
Regional Ocean Modeling System |
Arango, Hernan G. |
|
| ROMSBuilder |
ROMSBuilder is a CCA-CSDMS Modeling Tool (CMT) compliant component that creates another CMT compliant ROMS component. The new ROMS component is build as per the C-preprocessing options that defines a particular ROMS application. |
Kallumadikal, Jisamma |
|
| RecircFeed |
E-book: calculator for approach to equilibrium in recirculating and feed flumes |
Parker, Gary |
|
| RiverWFRisingBaseLevelNormal |
E-book: Calculator for disequilibrium aggradation of a sand-bed river in response to rising base level. |
Parker, Gary |
|
| RouseVanoniEquilibrium |
E-book: Program for calculating the Rouse-Vanoni profile of suspended sediment. |
Parker, Gary |
|
| Sedflux |
Basin filling stratigraphic model |
Hutton, Eric |
|
| SteadyStateAg |
E-book: calculator for approach to equilibrium in recirculating and feed flumes |
Parker, Gary |
|
| Subside |
Flexure model |
Hutton, Eric |
|
| SubsidingFan |
E-book: calculator for evolution of profiles of fans in subsiding basins |
Parker, Gary |
|
| SuspSedDensityStrat |
E-book: Module for calculating the effect of density stratification on the vertical profiles of velocity and suspended sediment. |
Parker, Gary |
|
| TopoFlow |
Spatially-distributed, D8-based hydrologic model |
Peckham, Scott |
|
| TopoFlow-Channels-Diffusive Wave |
Diffusive Wave process component for flow routing in a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Channels-Dynamic Wave |
Dynamic Wave process component for flow routing in a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Channels-Kinematic Wave |
Kinematic Wave process component for flow routing in a D8-based, spatial hydrologic model. |
Peckham, Scott |
|
| TopoFlow-Diversions |
Diversions component for a D8-based, spatial hydrologic model. |
Peckham, Scott |
|
| TopoFlow-Evaporation-Energy Balance |
Evaporation process component (Energy Balance method) for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Evaporation-Priestley Taylor |
Evaporation process component (Priestley-Taylor method) for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Evaporation-Read File |
Evaporation process component (read from file method) for a spatially-distributed hydrologic model. |
Peckham, Scott |
|
| TopoFlow-Infiltration-Green-Ampt |
Infiltration process component (Green-Ampt method) for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Infiltration-Richards 1D |
Infiltration process component (Richards 1D method) for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Infiltration-Smith-Parlange |
Infiltration process component (Smith-Parlange method) for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Meteorology |
Meteorology process component for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Saturated Zone-Darcy Layers |
Saturated Zone process component (Darcy's law, multiple soil layers) for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Snowmelt-Degree-Day |
Snowmelt process component (Degree-Day method) for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| TopoFlow-Snowmelt-Energy Balance |
Snowmelt process component (Energy Balance method) for a D8-based, spatial hydrologic model |
Peckham, Scott |
|
| WPHydResAMBL |
E-book: Implementation of the Wright-Parker (2004) formulation for hydraulic resistance combined with the Ashida-Michiue (1972) bedload formulation. |
Parker, Gary |
|
