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/DEBUGGER=1
/----------------------------------------------------------------------
/ TELEMAC 3D : ESTUAIRE GIRONDE
/ *** 9 plans ***
/----------------------------------------------------------------------
/
/NUMERO DE VERSION : V8P2R1
/TITRE = 'TELEMAC 3D : ESTUAIRE GIRONDE'
/
/--------------------------------------------------
/ OPTIONS GENERALES
/--------------------------------------------------
FORTRAN FILE = 'user_fortranR45'
BOUNDARY CONDITIONS FILE = 'girgc93.cli'
GEOMETRY FILE = 'girxl_GC_MOR1808tm_93V5.slf'
HARMONIC CONSTANTS FILE = 'GRGCNEA.CL'
ASCII ATMOSPHERIC DATA FILE =
'forcage_atmos_OM.dat'
LIQUID BOUNDARIES FILE =
'forcage_FRLIQ_ST.dat'
FORMATTED DATA FILE 1 =
'BATHY_ZET_nouvelle_bathy_L93.dat'
3D RESULT FILE =
'gir3dNH_ML1_RE45_t3d-waq-gaia_20250204_3j.slf'
'gir2dNH_ML1_RE45_t3d-waq-gaia_20250204_3j.slf'
COMPUTATION CONTINUED = YES
INITIAL TIME SET TO ZERO = YES
PREVIOUS COMPUTATION FILE =
'init_gironde.slf'
NUMBER OF TIME STEPS = 8640
ORIGINAL DATE OF TIME = 2025;2;4
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VARIABLES FOR 2D GRAPHIC PRINTOUTS = U,V,B,S,W,H,X,Y,P,TA*
VARIABLES FOR 3D GRAPHIC PRINTOUTS = Z,U,V,TA* /,P1,P2
LISTING PRINTOUT PERIOD = 20
GRAPHIC PRINTOUT PERIOD = 120 /20
INFORMATION ABOUT MASS-BALANCE FOR EACH LISTING PRINTOUT = YES
MASS-BALANCE = YES
NUMBER OF PRIVATE ARRAYS = 2
/--------------------------------------------------
/ CONDITIONS AUX LIMITES / INITIALES
/--------------------------------------------------
INITIAL CONDITIONS = 'CONSTANT ELEVATION'
INITIAL ELEVATION = 3.5
MINIMAL VALUE FOR DEPTH = 0.1
PRESCRIBED FLOWRATES = 0.;1030.;500.
PRESCRIBED VELOCITIES = 0;0;0
VELOCITY PROFILES = 1;1;1
VELOCITY VERTICAL PROFILES = 2;2;2
OPTION FOR LIQUID BOUNDARIES = 2;1;1
OPTION FOR TIDAL BOUNDARY CONDITIONS = 1;0;0
TIDAL DATA BASE = 3
COEFFICIENT TO CALIBRATE SEA LEVEL = 0.35 /0.469
COEFFICIENT TO CALIBRATE TIDAL RANGE = 0.95 /0.90
TREATMENT OF FLUXES AT THE BOUNDARIES = 2;2;2
/--------------------------------------------------
/ DISCRETISATION VERTICALE
/--------------------------------------------------
NUMBER OF HORIZONTAL LEVELS = 9
MESH TRANSFORMATION = 2
/--------------------------------------------------
/ PARAMETRES PHYSIQUES
/--------------------------------------------------
/NUMBER OF BOTTOM SMOOTHINGS = 6
/TURBULENCE MODEL FOR THE BOTTOM = 3
FRICTION COEFFICIENT FOR THE BOTTOM = 60.
LAW OF BOTTOM FRICTION = 5
VERTICAL TURBULENCE MODEL = 2
/ LONG DE MELANGE AVEC JET (NOUVEAU CALCUL)
/ Ici, version Tsanis
MIXING LENGTH MODEL = 6 /1
DAMPING FUNCTION=3
HORIZONTAL TURBULENCE MODEL = 1
COEFFICIENT FOR HORIZONTAL DIFFUSION OF VELOCITIES = 1
/COEFFICIENT FOR HORIZONTAL DIFFUSION OF TRACERS = 5
/PRANDTL NUMBER=8
WIND = YES
COEFFICIENT OF WIND INFLUENCE = 1.0
OPTION FOR WIND = 2
COEFFICIENT OF WIND INFLUENCE VARYING WITH WIND SPEED = YES
THRESHOLD DEPTH FOR WIND = 1.
/ Ajout de la pression pour les surcotes
AIR PRESSURE = YES
VALUE OF ATMOSPHERIC PRESSURE = 101300.
TIDAL FLATS = YES
TREATMENT OF NEGATIVE DEPTHS = 2
OPTION FOR THE TREATMENT OF TIDAL FLATS = 1
CORIOLIS=YES
CORIOLIS COEFFICIENT : 0.00010281
/--------------------------------------------------
/ PARAMETERES NUMERIQUES
/--------------------------------------------------
SCHEME FOR ADVECTION OF VELOCITIES = 1
SCHEME FOR ADVECTION OF TRACERS = 14
SCHEME OPTION FOR ADVECTION OF TRACERS = 1
/SCHEME FOR DIFFUSION OF TRACERS = 1
/SCHEME FOR ADVECTION OF K-EPSILON = 14
PRECONDITIONING FOR DIFFUSION OF TRACERS = 34 /2
/PRECONDITIONING FOR DIFFUSION OF K-EPSILON : 34
SCHEME FOR ADVECTION OF DEPTH = 5
NON-HYDROSTATIC VERSION = NO
FREE SURFACE GRADIENT COMPATIBILITY = 0.9
ACCURACY FOR DIFFUSION OF VELOCITIES = 1.E-6
ACCURACY FOR DIFFUSION OF TRACERS = 1.E-6
PRECONDITIONING FOR DIFFUSION OF VELOCITIES = 2
MAXIMUM NUMBER OF ITERATIONS FOR DIFFUSION OF VELOCITIES = 25000
MAXIMUM NUMBER OF ITERATIONS FOR PPE = 25000
MAXIMUM NUMBER OF ITERATIONS FOR PROPAGATION = 25000
INITIAL GUESS FOR DEPTH = 1
ACCURACY FOR PROPAGATION = 1.E-5
ACCURACY FOR PPE = 1.E-5
IMPLICITATION FOR DEPTH = 1.
IMPLICITATION FOR VELOCITIES = 1.
IMPLICITATION FOR DIFFUSION = 1.
MASS-LUMPING FOR DEPTH = 1
MASS-LUMPING FOR VELOCITIES = 1
MASS-LUMPING FOR DIFFUSION = 1
SOLVER FOR PROPAGATION = 1
PRECONDITIONING FOR PROPAGATION = 2
/SOLVER FOR VERTICAL VELOCITY = 7
MATRIX STORAGE = 3
MAXIMUM NUMBER OF ITERATIONS FOR ADVECTION SCHEMES = 2000
MAXIMUM NUMBER OF ITERATIONS FOR DIFFUSION OF TRACERS = 240
MAXIMUM NUMBER OF ITERATIONS FOR DIFFUSION OF VELOCITIES = 240
/HYDROSTATIC INCONSISTENCY FILTER : YES
/--------------------------------------------------
/ TRACEURS
/--------------------------------------------------
NAMES OF TRACERS =
'SALINITE G/L ';
'TEMPERATURE DEGC '
/ 3 traceurs sont ensuite implicites: O2, L, NH4
/ les 2 traceurs de GAIA COH1 et COH2 sont aussi implicites
/ mais gérés dans GAIA.cas
DENSITY LAW = 3
/ Valeurs initiales pour S,T,O2,L,NH4 >> cf. user_condi3d_trac
/ Les valeurs init. pour COH1 et COH2 sont données dans GAIA.cas
INITIAL VALUES OF TRACERS = 35.;10.;8.;0.;0.
/ frliq: OCEAN, GARONNE, DORDOGNE
/ traceurs: S,T,O2,L,NH4 (cf. FRLIQ)
/ les forçages pour COH1 et COH2 sont faits dans GAIA.cas
/PRESCRIBED TRACERS VALUES = 35.;12.;8.;0.;0.00;
/ 0. ;15.;8.;3.;0.054;
/ 0. ;15.;8.;3.;0.054
PRESCRIBED TRACERS VALUES = 0;0;0;0;0;0;0;0;0;0;0;0;0;0;0
TRACERS VERTICAL PROFILES = 1;1;1; 1;1;1; 1;1;1; 1;1;1; 1;1;1
/ Couplage WAQTEL pour module THERMIC + O2
COUPLING WITH = WAQTEL,GAIA
WAQTEL STEERING FILE = 'waq_GXL_O2.cas'
/'waq_GXL_thermic-O2-ray.cas'
WATER QUALITY PROCESS = 22 /22 = 11 (THEMIC) x 2 (O2)
GAIA STEERING FILE = 'sis2gaiaTH.cas'