Property:Describe output parameters model
From CSDMS
This is a property of type Text.
S
temporal/spatial distribution of sediment types and fluid flow conditions, stratigraphic architecture of deposit +
P
the evolution of ice extent and thickness over time, the thermal and dynamic states of the ice sheet, and the associated lithospheric response +
tidal flat elevation in time +
B
time series - such as water and sediment partitioning
spatial - such as bed elevation profiles, saved at lower time resolution (chosen by user) +
C
time-histories of shoreline positions on a sub-grid scale and the water depths over the gridded portion of the model. Time histories of the inlet cross-section and the areas of bar, channels and tidal flats in the estuary +
F
time_to_next_fire : float<br>
Updated value for the time to next fire. +
T
topographic derivatives (slope, curvature, flow accumulation, drainage basins), flow paths, chiplots, swath profiles, among others. +
M
ultiple state variables and summary data +
F
vel.*: fluid velocity, binary format, the I/O format can be found in io.F in the folder \Src.
conc.*: sediment concentration, binary format, see io.F in the folder \Src for detailed I/O information.
press.*: fluid dynamic pressure, binary format, see io.F in the folder \Src for detailed I/O information.
vel\_p.*: difference of sediment velocity from fluid velocity, output if inertia effect or hindered settling effect is considered, binary format, see io.F in the folder \Src for detailed I/O information.
DDt.*: material derivative of fluid velocity, output if inertia effect is included, binary format, see io.F in the folder \Src for detailed I/O information.
ushear.dat: time series of plane averaged bottom shear velocity, it is output every time step, ASCII format.
logfile: log of screen output to monitor the quantities such as CFL number, domain averaged concentration, bottom concentration, etc., ASCII format. +
T
volume fraction content of tracers in the deposit +
S
water depths (m), water discharges (m3/s), free surface elevation with respect to the SWL (m) +
H
M
water volume, water flux, reservoir storage, unmet water demand +
R
X
wave heights, velocities, water levels, sediment concentrations, sediment transport rates, bottom changes, bathymetry, additional model variables +
B