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BC-TGV.prm
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50 lines (50 loc) · 2.15 KB
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#
# INCOMPACT 3D parameters - 3D Taylor-Green vortices problem
#
81 #nx, ny, nz
1 #nphi
0 #p_row
0 #p_col
#
# INCOMPACT 3D Flow parameters
#
1. #xlx, yly, zlz over pi # (Adimensional size in every)
5000. #re # Reynolds number
0.00 #ri
0.00 #noise # Intensity for initial condition (0.01=1%,1=100%) (t=0) (for lock and temporal)
0.0005 #dt # Time step
#
# INCOMPACT3D Flow configuration
#
1 #iscalar
0 #cont_phi
1 #jLES #LES Model (0:DNS, 1:iLES, 2:Explicit Simple Smagorinsky, 3:Explicit Wall-Adaptive LES, 4: Explicit Dynamic Smagorinsky LES)
1 #iin # Initial condition (0: empty, 1: prescribed)
1 #ifirst # First iteration
40 #000 #ilast # Last iteration
2 #nscheme # Temporal scheme (1:AB2, 2:AB3, 3: RK3, 4:KN+AB3 (-DIMPLICIT flag required))
#velocity
1 #nclx1 #Boundary condition in x=0 (0: Periodic, 1:Free-slip, 2: Dirichlet)
1 #nclxn #Boundary condition in x=Lx (0: Periodic, 1:Free-slip, 2: Dirichlet)
1 #ncly1 #Boundary condition in y=0 (0: Periodic, 1:Free-slip, 2: Dirichlet)
1 #nclyn #Boundary condition in y=Ly (0: Periodic, 1:Free-slip, 2: Dirichlet)
1 #nclz1 #Boundary condition in z=0 (0: Periodic, 1:Free-slip, 2: Dirichlet)
1 #nclzn #Boundary condition in z=Lz (0: Periodic, 1:Free-slip, 2: Dirichlet)
#scalar
1 #nclxS1 #Boundary condition in x=0 (0: Periodic, 1:No-flux, 2: Dirichlet)
1 #nclxSn #Boundary condition in x=Lx (0: Periodic, 1:No-flux, 2: Dirichlet)
1 #nclyS1 #Boundary condition in y=0 (0: Periodic, 1:No-flux, 2: Dirichlet)
1 #nclySn #Boundary condition in y=Ly (0: Periodic, 1:No-flux, 2: Dirichlet)
1 #nclzS1 #Boundary condition in z=0 (0: Periodic, 1:No-flux, 2: Dirichlet)
1 #nclzSn #Boundary condition in z=Lz (0: Periodic, 1:No-flux, 2: Dirichlet)
#
# INCOMPACT 3D File parameters
#
0 # ilit # Read initial flow field? (0:no, 1:yes)
50000 # isave # Frequency for writing backup file (sauve.dat)
500 # imodulo # Frequency for visualization for VISU_INSTA
100 # imodulo2 #
#
# NUMERICAL DISSIPATION
#
63. # npi2