Property:Describe input parameters model

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Usage409

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Showing 20 pages using this property.

M

MRSAA +

Reach hydraulic parameters (e.g. slope, sediment grain size, critical shear stresses, Chezy coefficient, bed macro-roughness, sediment supply rate, length, channel width, flood intermittency factor, etc.) +

T

ThawLake1D +

Requires an input file called: radin_dailyavg.mat This specifies the daily average incoming radiation. +

E

Equilibrium Calculator +

River hydrology is described with a flow duration curve, the mean annual sand load is specified, the mean annual mud load is computed with a user-specified rating curve, characteristic sand and mud grain size, friction coefficients for the channel and for the floodplain and other model parameters described in the excel caclulator +

S

Sedflux +

River mouth characteristics (velocity, width, depth, concentration) averaged daily, or longer. Initial bathymetry. Input sediment distribution and properties of each grain type. Optionally, any of: tectonics, sea level, wave climate, and currents +

P

Plume +

River velocity, width, depth; Sediment concentrations +

M

MizuRoute +

Runoff simulations of other models +

S

SPARROW +

SPARROW modeling requires the integration of many types of geospatial data for use as explanatory variables which are considered as either constituent sources or delivery factors. Sources might include certain land types such as urban area, or known contaminant sources such as sewage treatment plants. Delivery terms can include any basin characteristic that may be associated with natural attenuation. For example, denitrification is often associated with certain soil characteristics and the spatial pattern of those soil characteristics is often related to that of constituent loads. In some cases delivery terms might also be associated with enhanced delivery. For example, high basin slope might cause more rapid flows which could increase the delivery of constituents. Delivery is also influenced by the water time of travel in streams, which can be estimated from published USGS time-of-travel studies (e.g., Reed and Stuckey, 2001). +

C

CASCADE +

SPM parameters (Kf, Kd, lf, etc) geomtrical and other parameters imposed by modifying the code +

Coastal Landscape Transect Model (CoLT) +

Sea Level Rise rate (mm/yr), upland slope (unitless), suspended sediment concentration (external supply) (mg/L), length of simulation (years) +

B

BITM +

Sea level curve; rate of lagoonal deposition; rate of overwash; initial shelf profile. The stratigraphic data are organized in a matrix of integers. Every matrix entry corresponds to a stratigraphic unit (bedrock, overwash, transitional, shoreface, aeolian and lagoonal). +

S

SEDPAK +

Sealevel, Subsidence, Start Time, End Time, Sedimentation Rates, Initial basin surface +

D

D'Alpaos model +

Sediment availability, vegetation characteristics, tidal forcing, rate of relative sea level rise, tidal network configuration and marsh topography if an actual domain is considered. +

C

Compact +

Sediment porosity, closest-packed porosity, compaction coefficient +

R

Rescal-snow +

See 'rescal_snow_inputs' in docs +

N

NearCoM +

See documentation. +

G

GeoTiff Data Component +

See documentation: https://bmi-geotiff.readthedocs.io +