1 /------------------------------------------------------------------/
2 / COMPUTATION_ENVIRONMENT
3 /------------------------------------------------------------------/
4 TITLE : 'TELEMAC 2D : CRUE GARONNE'
5 INITIAL CONDITIONS : 'ZERO ELEVATION'
6 GEOMETRY FILE FORMAT : 'MED'
8 '/home/J23973/HYDRO_garonne_1F_Z-KS-Hin.med'
10 BOUNDARY CONDITIONS FILE :
11 '/home/J23973/condlim.bcd'
12 CHECKING THE MESH : NO
13 COMPUTATION CONTINUED : NO
14 INITIAL TIME SET TO ZERO : NO
15 NUMBER OF FIRST TIME STEP FOR GRAPHIC PRINTOUTS : 1
16 GRAPHIC PRINTOUT PERIOD : 200
17 VARIABLES FOR GRAPHIC PRINTOUTS : 'U,V,H,B,S,F,W,L,Q,I,J'
18 NUMBER OF PRIVATE ARRAYS : 0
19 RESULTS FILE FORMAT : 'MED'
21 '/home/J23973/ResultatGaronne.med'
22 LISTING PRINTOUT PERIOD : 50
23 LISTING PRINTOUT : YES
25 /------------------------------------------------------------------/
27 /------------------------------------------------------------------/
28 VELOCITY PROFILES : 1;1
29 LIQUID BOUNDARIES FILE :
30 '/home/J23973/init.lqd'
31 ELEMENTS MASKED BY USER : NO
32 MAXIMUM NUMBER OF FRICTION DOMAINS : 10
33 LAW OF BOTTOM FRICTION : 3
34 FRICTION COEFFICIENT : 50.0
35 MANNING DEFAULT VALUE FOR COLEBROOK-WHITE LAW : 0.02
36 DEPTH IN FRICTION TERMS : 1
37 NON-SUBMERGED VEGETATION FRICTION : NO
38 LAW OF FRICTION ON LATERAL BOUNDARIES : 0
39 DEFINITION OF ZONES : NO
40 EQUATIONS : 'SAINT-VENANT FE'
41 TREATMENT OF THE LINEAR SYSTEM : 1
42 /------------------------------------------------------------------/
44 /------------------------------------------------------------------/
48 ORIGINAL DATE OF TIME : 1900;1;1
49 ORIGINAL HOUR OF TIME : 0;0;0
50 STOP IF A STEADY STATE IS REACHED : NO
51 CONTROL OF LIMITS : NO
52 VARIABLE TIME-STEP : NO
53 ORIGIN COORDINATES : 0;0
54 SPHERICAL COORDINATES : NO
55 LONGITUDE OF ORIGIN POINT : 0.0
56 SPATIAL PROJECTION TYPE : 1
57 /------------------------------------------------------------------/
58 / NUMERICAL_PARAMETERS
59 /------------------------------------------------------------------/
62 SOLVER ACCURACY : 1e-05
63 MAXIMUM NUMBER OF ITERATIONS FOR SOLVER : 100
64 CONTINUITY CORRECTION : NO
66 C-U PRECONDITIONING : YES
67 IMPLICITATION FOR DEPTH : 0.6
68 IMPLICITATION FOR VELOCITY : 0.6
69 DISCRETIZATIONS IN SPACE : 12;11;11;11
71 MEAN DEPTH FOR LINEARIZATION : 0.0
72 INITIAL GUESS FOR U : 1
73 INITIAL GUESS FOR H : 1
74 LINEARIZED PROPAGATION : NO
77 SCHEME FOR ADVECTION OF VELOCITIES : 1
78 OPTION FOR CHARACTERISTICS : 1
80 MASS-LUMPING FOR WEAK CHARACTERISTICS : 0.0
81 MAXIMUM NUMBER OF ITERATIONS FOR ADVECTION SCHEMES : 10
82 UPWIND COEFFICIENTS : 1.0;1.0;1.0;1.0
83 MASS-LUMPING ON H : 1.0
84 MASS-LUMPING ON VELOCITY : 0.0
85 FREE SURFACE GRADIENT COMPATIBILITY : 1.0
86 NUMBER OF SUB-ITERATIONS FOR NON-LINEARITIES : 1
87 TREATMENT OF FLUXES AT THE BOUNDARIES : 1;1
88 DIFFUSION OF VELOCITY : YES
89 IMPLICITATION FOR DIFFUSION OF VELOCITY : 1.0
90 OPTION FOR THE DIFFUSION OF VELOCITIES : 1
91 AD NUMBER OF DERIVATIVES : 0
93 MATRIX-VECTOR PRODUCT : 1
94 NEWMARK TIME INTEGRATION COEFFICIENT : 1.0
95 /------------------------------------------------------------------/
97 /------------------------------------------------------------------/
98 VELOCITY DIFFUSIVITY : 1.0
100 SOLVER FOR K-EPSILON MODEL : 1
101 OPTION FOR THE SOLVER FOR K-EPSILON MODEL : 2
102 PRECONDITIONING FOR K-EPSILON MODEL : 2
103 INFORMATION ABOUT K-EPSILON MODEL : YES
104 ADVECTION OF K AND EPSILON : YES
105 ACCURACY OF K : 1e-09
106 ACCURACY OF EPSILON : 1e-09
107 MAXIMUM NUMBER OF ITERATIONS FOR K AND EPSILON : 50
108 /------------------------------------------------------------------/
110 /------------------------------------------------------------------/
112 OPTION FOR THE TREATMENT OF TIDAL FLATS : 1
113 TREATMENT OF NEGATIVE DEPTHS : 1
114 THRESHOLD FOR NEGATIVE DEPTHS : 0.0
115 THRESHOLD DEPTH FOR RECEDING PROCEDURE : 0.0
117 MINIMUM VALUE OF DEPTH : 0.001
