Commit b1732fc4 authored by Pierre Cazenave's avatar Pierre Cazenave

Add the other FVCOM examples (unmodified).

parent d4252121

Too many changes to show.

To preserve performance only 1000 of 1000+ files are displayed.

!==============================================================================!
! INPUT FILE FOR PARAMETERS CONTROLLING FVCOM SEDIMENT MODEL !
! FORMAT: !
! 1.) VARIABLE = VALUE (EQUAL SIGN MUST BE USED) !
! 2.) FLOATING POINT VARIABLES MUST CONTAIN A PERIOD "." EX: 1.3, 2.,etc !
! 3.) BLANK LINES ARE IGNORED AS ARE LINES BEGINNING WITH ! (F90 COMMENT)!
! 4.) COMMENTS CAN FOLLOW VALUES IF MARKED BY ! !
! 5.) ORDER OF VARIABLES IS NOT IMPORTANT !
! 6.) FOR MULTIPLE VALUE VARIABLES FIRST ENTRY IS NUMBER OF VARIABLES !
! TO FOLLOW (OR 0 IF NONE) !
! 7.) DO NOT USE COMMAS TO SEPARATE VARIABLES !
! 8.) DO NOT EXCEED EIGHTY CHARACTERS PER LINE !
! 9.) TRUE = T, FALSE = F !
! !
! THE PREVIOUS FORMAT OF "VARIABLE: VALUE" IS NO LONGER VALID !
! THE MORE ATTRACTIVE " = " FORMAT WAS SUGGESTED BY Hernan G. Arango !
! !
!------------------------------------------------------------------------------!
! Sediment Module Dynamics Parameters
! BEDLOAD: True of bedload is to be considered
! SUSLOAD: True of suspended load is to be considered
!------------------------------------------------------------------------------!
SED_ONED = F
SED_NUDGE = F
SED_ALPHA = 0.5
SED_RAMP = 1
SED_START = 361
BEDLOAD = F
SUSLOAD = T
SED_PTSOURCE = T
SED_HOT_START = F
!------------------------------------------------------------------------------!
! Morphodynamics (unstable - will not be activated)
! MORPHO_MODEL: F => no bathy change, T => bathy changes to follow bottom
! MORPHO_FACTOR: amount bathy is changed relative to calculated accre/depo
! = 0, no change, = 1, follows bottom exactly
! Caution, even if MORPHO_MODEL is F, MORPHO_FACTOR will still be active
! and affect the rate of sediment dep/ero and bedload flux
! MORPHO_INCR: Update the bathymetry only every morpho_incr iterations of
! internal time steps. MORPHO_INCR > 10 can allow flow to adjust
! a bit before morphing.
!------------------------------------------------------------------------------!
MORPHO_MODEL = T
MORPHO_FACTOR = 10.0
MORPHO_INCR = 1
MORPHO_STRT = 0
!------------------------------------------------------------------------------!
! Sediment Settling Parameters
! SETTLE_CFL: set the CFL number for the settling scheme [>0, 1]
! SETTLE_LIMITER: set the limiter type for the settling advection eq.
! =0: 1st order upwind
! =1: minmod limiter
! =2: Van Leer limiter
!
!------------------------------------------------------------------------------!
SETTLE_CFL = .8
SETTLE_LIMITER = 1
!------------------------------------------------------------------------------!
! Sediment Module Reporting and Archiving Control
! SED_DUMPBED: (T/F) Dump all the bed variables
! SED_DUMPBOT: (T/F) Dump all the bottom variables
!------------------------------------------------------------------------------!
N_REPORT = 50
SED_DUMPBED = F
SED_DUMPBOT = T
!------------------------------------------------------------------------------!
! Suspended Sediment Parameters
! NSED: number of suspended sediments
! MIN_SRHO: minimum sediment density [kg/m^3]
! SED_TYPE: sediment type ('cohesive' or 'non-cohesive')
! SED_NAME: sediment name
! SED_SD50: mean sediment diameter [mm ]
! SED_SRHO: sediment density [kg/m^3 ]
! SED_WSET: sediment settling velocity [mm/s ]
! SED_ERAT: surface erosion rate [kg/m2/s]
! SED_TAUE: critical shear for erosion [N/m^2 ]
! SED_TAUD: critical shear for deposition [N/m^2 ]
! SED_PORS: porosity, Vwater/(Vwater+Vsed) [NON DIM]
!------------------------------------------------------------------------------
NSED = 1
MIN_SRHO = 1050.
SED_NAME = coarse_sand
SED_TYPE = non-cohesive
SED_SD50 = 0.1
SED_CSED = 0.0
SED_SRHO = 2650.
SED_WSET = 11.
SED_ERAT = 5.e-3
SED_TAUE = .1
SED_TAUD = .1
SED_PORS = 0.5
!------------------------------------------------------------------------------
! Bed Parameters
! NBED: number of bed layers
! INF_BED: true if infinite supply of sediment is available [logical]
! INIT_BED_POROSITY: initial bed porosity (spatially constant, if required
! spatially variable, set in init_sed.F) [0-1]
! INIT_BED_THICKNESS: initial total thickness of the bed (m), can be overwritten
! in init_sed.F if non-constant is desired.
!------------------------------------------------------------------------------
NBED = 1
INF_BED = T
INIT_BED_POROSITY = 0.50
INIT_BED_THICKNESS = 10.0
INIT_BED_FRACTION = .166666 .1666666 .166666 .166666 .166666 .166666
!------------------------------------------------------------------------------
! Bedload Model Parameters (Meyer-Peter Muller Formulation)
! MPM_CS: critical shields parameter
! MPM_GM: MPM exponent
! MPM_K : MPM constant
! BEDLOAD_RATE : Bed load rate coefficient (a fudge factor?)
! BEDLOAD_SMOOTH: Filter bedload function (can improve morphodynamic stability)
!------------------------------------------------------------------------------
MPM_CS = .047 ! suggested: .047
MPM_GM = 1.5 ! suggested: 1.5
MPM_K = 8.0 ! suggested: 8.0
BEDLOAD_RATE = 1.0 !
BEDLOAD_SMOOTH = T
!------------------------------------------------------------------------------
! The Options MB_Z0BL and MB_Z0RIP should be activated concurrently. |
! !
! MB_BBL_USE ! use if Meinte Blaas BBL closure !
! MB_CALC_ZNOT ! use if computing bottom roughness internally !
! MB_CALC_UB ! use if computing bottom orbital velocity internally !
! MB_Z0BIO ! use if biogenic bedform roughness for ripples !
! MB_Z0BL ! use if bedload roughness for ripples !
! MB_Z0RIP ! use if bedform roughness for ripples !
!------------------------------------------------------------------------------
MB_BBL_USE = F
MB_CALC_ZNOT = F
MB_CALC_UB = F
MB_Z0BIO = F
MB_Z0BL = F
MB_Z0RIP = F
!------------------------------------------------------------------------------
! OPTIONS for Styles and Glenn (2000) bottom boundary layer closure: !
! !
! SG_BBL_USE ! use if Styles and Glenn (2000) BBL closure !
! SG_CALC_ZNOT ! use if computing bottom roughness internally !
! SG_CALC_UB ! use if computing bottom orbital velocity internally !
! SG_LOGINT ! use if logarithmic interpolation of (Ur,Vr) !
!------------------------------------------------------------------------------
SG_BBL_USE = F
SG_CALC_ZNOT = F
SG_CALC_UB = F
SG_LOGINT = F
!------------------------------------------------------------------------------
! OPTIONS for the Sherwood/Signell/Warner bottom boundary layer closure: !
! !
! SSW_BBL_USE ! use if Sherwood et al. BBL closure !
! SSW_CALC_ZNOT ! use if computing bottom roughness internally !
! SSW_LOGINT ! use if logarithmic interpolation of (Ur,Vr) !
! SSW_CALC_UB ! use if computing bottom orbital velocity internally !
! SSW_FORM_DRAG_COR ! use to activate form drag coefficient !
! should be activated if using maximum shear stress !
! under wave and current
! SSW_ZOBIO ! use if biogenic bedform roughness from ripples !
! SSW_ZOBL ! use if bedload roughness for ripples !
! SSW_ZORIP ! use if bedform roughness from ripples !
! ---Only one method listed below can be activated.
! SGWC ! use Styles and Glenn (1999) method !
! M94WC ! use Madson(1994) method !
! ---Only one roughness listed below can be activated !
! GM82_RIPRUF ! use Grant-Madson (1982) ripple roughness !
! N92_RIPRUF ! use Nielsen (1992) ripple roughness !
! R88_RIPRUF ! use Raudkivi (1988) ripple roughness !
!------------------------------------------------------------------------------
SSW_BBL_USE = T
SSW_CALC_ZNOT = T
SSW_LOGINT = F
SSW_CALC_UB = F
SSW_FORM_DRAG_COR = F