// --- inlet velocity U0 280.0; // mean veocity in the inlet R0 71.21168497; TH0 6.35818616; // boundary layer such that 1/4*R0/TH0 = 2.8 (Lesieur) STR0 0.0; // Stroual number FRS 0.0; // forcing scale THD no; // aximutal forcing? no is axial FLS 0.0; // fluctuation scale // --- inlet TI 1600.0; ASHM4 0.0; ASHM3 0.0; ASHM2 0.0; ASHM1 0.0; ASH0 0.0; ASH1 0.0; ASH2 0.0; ASH3 0.0; ASH4 0.0; FINE0 0.95; H2O0 0.05; AIR0 0.0; RA 191.11; RW 461.0; CVA 808.89; TCA 460.0; nuCA 0.35; CVW 1491.0; CVS 900.0; HRHOM4 2247.242; HRHOM3 2307.7; HRHOM2 2361.5; HRHOM1 2415.4; HRHO0 2469.2; HRHO1 2523.1; HRHO2 2576.9; HRHO3 2630.8; HRHO4 2684.6; HRHOF 2646.29650112; K0 1e-04; // initial kinetic energy // --- ATMOTYPE meteo; // choose barotropic-meteo PSTD0 8991210.0; // evaluated by using rho0=p1/R/T1 // --- barotropic atmo (not needed if meteo) TSTD0 727.106; // --- meteo atmo (not needed if barotropic) XF 30000; // domain radius for 1D radial cut // --- G0 -8.87; // gravity mG0 8.87; // gravity VISCO Sutherland; // choose const-Sutherland S_TYPE moin; // choose laminar-sma-dynSma-wale-oneEqEddy-dynOneEqEddy // --- STRT_AV 1300; // initial averaging time DEC_MTH hierarchical; // choose decomposition method simple-scotch NPROC 2352; // - use this just for the simple method NX 14; NY 14; NZ 12; // - DDTSC backward; SCM BLEND; // choose discretization linear-filt-limlin-blend NNORTH 2; // number of non-orthogonal corrector loop ISO_Q 0.003; // with U = 150 m/s and Dx = 27/8 m it is 0.05 // - sponge H1 0; H2 79200.0; RS 79200.0; mRS -79200.0; RSDwW 118800.0; mRSUpW -39600.0; // What cannot be modified from here? // The mesh, the controlDict, the fields in the funcionObject