Fields of type: variable --------------- Field Dim. Location Id Type flag ------------------------ ---- -------------------- ---- --------- velocity 3 cells 0 9 (intensive, variable) pressure 1 cells 1 9 (intensive, variable) k 1 cells 2 9 (intensive, variable) epsilon 1 cells 3 9 (intensive, variable) Fields of type: property --------------- Field Dim. Location Id Type flag ------------------------ ---- -------------------- ---- --------- density 1 cells 4 17 (intensive, property) boundary_density 1 boundary_faces 5 17 (intensive, property) molecular_viscosity 1 cells 6 17 (intensive, property) turbulent_viscosity 1 cells 7 17 (intensive, property) courant_number 1 cells 8 17 (intensive, property) fourier_number 1 cells 9 17 (intensive, property) total_pressure 1 cells 10 17 (intensive, property) yplus 1 boundary_faces 13 17 (intensive, property) inner_mass_flux 1 interior_faces 14 18 (extensive, property) boundary_mass_flux 1 boundary_faces 15 18 (extensive, property) Fields of type: postprocess --------------- Field Dim. Location Id Type flag ------------------------ ---- -------------------- ---- --------- boundary_forces 3 boundary_faces 12 34 (extensive, postprocess) Other fields: ------------- Field Dim. Location Id Type flag ------------------------ ---- -------------------- ---- --------- dt 1 cells 11 1 (intensive) Defined field keys: ------------------- Key Default Type Id Type flag ------------------------ ------------ ------- ---- --------- boundary_mass_flux_id -1 integer 7 0 boundary_value_id -1 integer 26 0 clipping_id -1 integer 25 8 (variable) convection_limiter_id -1 integer 27 0 coupled 0 integer 4 8 (variable) coupling_entity -1 integer 28 0 diffusivity_tensor 0 integer 17 8 (variable) drift_scalar_model 0 integer 18 0 first_moment_id -1 integer 20 0 gradient_weighting_id -1 integer 16 8 (variable) inner_mass_flux_id -1 integer 6 0 label (null) string 0 0 limiter_choice -1 integer 36 8 (variable) log 0 integer 1 0 max_scalar 1 real 34 0 max_scalar_clipping 1e+12 real 30 0 measures_set_id -1 integer 31 8 (variable) min_scalar 0 real 35 0 min_scalar_clipping -1e+12 real 29 0 moment_id -1 integer 5 96 (postprocess, accumulator) opt_interp_analysis_id -1 integer 33 8 (variable) opt_interp_id -1 integer 32 8 (variable) post_probes 0 integer 3 0 post_vis 0 integer 2 0 restart_file -1 integer 39 0 scalar_class 0 integer 19 0 scalar_density_id -1 integer 12 8 (variable) scalar_diffusivity_id -1 integer 10 8 (variable) scalar_diffusivity_ref -1e+13 real 11 8 (variable) scalar_id -1 integer 9 0 slope_test_upwind_id -1 integer 24 8 (variable) source_term_id -1 integer 23 8 (variable) source_term_prev_id -1 integer 22 8 (variable) syrthes_coupling 0 integer 21 0 turbulent_flux_id -1 integer 14 8 (variable) turbulent_flux_model 0 integer 13 8 (variable) turbulent_schmidt -1e+13 real 15 8 (variable) variable_id -1 integer 8 0 solving_info struct 38 8 (variable) var_cal_opt struct 37 8 (variable) Default values for structure keys: ---------------------------------- Key Default Description ------------------------ ------------ ----------------------------------------- var_cal_opt Printing iwarni 0 Verbosity level: 0, 1 or 2 Time stepping istat 1 Take unsteady terms into account. Convection/Diffusion iconv 1 Take convection into account. idiff 1 Take diffusion into account. idifft 1 Take turbulent diffusion into account. idften 1 Type of diffusivity: scalar (1), orthotropic (3) or symmetric tensor (6) ischcv 1 Type of convective scheme: 2nd order linear upwind (0), centered (1), SOLU (2) isstpc 1 0 for slope test, 1 for no slope test, 2 for min/max limiter and 3 for NVD/TVD scheme blencv 1 [0.;1.] (1-upwind proportion (0: upwind)) Gradients calculation imrgra 0 Reconstruction mode nswrgr 100 Number of sweeps gradient reconstruction epsrgr 1e-05 Gradient reconstruction precision extrag 0 [0.;1.] (gradients extrapolation) imligr -1 < 0, 0 or 1 (gradient limitation method) climgr 1.5 > 1 or 1 (gradient limitation coefficient) iwgrec 0 Gradient calculation: standard (0) or weighted (1) Rhs reconstruction ircflu 1 0 or 1 (flux reconstruction) nswrsm 1 Number of sweeps rhs reconstruction epsrsm 1e-07 Rhs reconstruction precision iswdyn 0 Dynamic relaxation type Iterative solvers epsilo 1e-08 Resolution precision Time-scheme thetav 1 [0.;1.] theta-scheme for the main variables (0.5 for Crank-Nicolson) ibdtso 1 Backward differential scheme in time order relaxv 1 Relaxation of variables (1 for no relaxation) Defined key values per field: ----------------------------- Key: "label", values per field ---- velocity Velocity pressure Pressure k k epsilon epsilon density Density boundary_density Boundary Density molecular_viscosity LamVisc turbulent_viscosity TurbVisc courant_number CourantNb fourier_number FourierNb total_pressure total_pressure yplus Yplus dt Local Time Step Key: "log", values per field ---- velocity 1 pressure 1 k 1 epsilon 1 density 0 boundary_density 0 molecular_viscosity 0 turbulent_viscosity 1 courant_number 1 fourier_number 1 total_pressure 1 yplus 1 Key: "post_vis", values per field ---- velocity 5 pressure 5 k 5 epsilon 5 density 0 boundary_density 0 molecular_viscosity 0 turbulent_viscosity 5 courant_number 5 fourier_number 0 total_pressure 4 yplus 5 Key: "post_probes", values per field ---- Key: "coupled", values per field ---- velocity 1 Key: "moment_id", values per field ---- Key: "inner_mass_flux_id", values per field ---- velocity 14 pressure 14 k 14 epsilon 14 Key: "boundary_mass_flux_id", values per field ---- velocity 15 pressure 15 k 15 epsilon 15 Key: "variable_id", values per field ---- velocity 1 pressure 4 k 5 epsilon 6 Key: "scalar_id", values per field ---- Key: "scalar_diffusivity_id", values per field ---- Key: "scalar_diffusivity_ref", values per field ---- Key: "scalar_density_id", values per field ---- Key: "turbulent_flux_model", values per field ---- Key: "turbulent_flux_id", values per field ---- Key: "turbulent_schmidt", values per field ---- velocity 1 pressure 1 k 1 epsilon 1 Key: "gradient_weighting_id", values per field ---- Key: "diffusivity_tensor", values per field ---- Key: "drift_scalar_model", values per field ---- Key: "scalar_class", values per field ---- Key: "first_moment_id", values per field ---- Key: "syrthes_coupling", values per field ---- Key: "source_term_prev_id", values per field ---- Key: "source_term_id", values per field ---- Key: "slope_test_upwind_id", values per field ---- Key: "clipping_id", values per field ---- Key: "boundary_value_id", values per field ---- Key: "convection_limiter_id", values per field ---- Key: "coupling_entity", values per field ---- Key: "min_scalar_clipping", values per field ---- Key: "max_scalar_clipping", values per field ---- Key: "measures_set_id", values per field ---- Key: "opt_interp_id", values per field ---- Key: "opt_interp_analysis_id", values per field ---- Key: "max_scalar", values per field ---- Key: "min_scalar", values per field ---- Key: "limiter_choice", values per field ---- Key: "var_cal_opt", values per field ---- velocity iwarni 0 iconv 1 istat 1 idiff 1 idifft 1 idften 1 iswdyn 0 ischcv 1 ibdtso 1 isstpc 0 nswrgr 100 nswrsm 1 imrgra 0 imligr -1 ircflu 1 iwgrec 0 icoupl -1 thetav 1 blencv 1 epsilo 1e-08 epsrsm 1e-07 epsrgr 1e-05 climgr 1.5 extrag 0 relaxv -999 pressure iwarni 0 iconv 0 istat 0 idiff 1 idifft 1 idften 1 iswdyn 0 ischcv 1 ibdtso 1 isstpc 0 nswrgr 100 nswrsm 2 imrgra 0 imligr -1 ircflu 1 iwgrec 0 icoupl -1 thetav 1 blencv 0 epsilo 1e-08 epsrsm 1e-07 epsrgr 1e-05 climgr 1.5 extrag 0 relaxv 1 k iwarni 0 iconv 1 istat 1 idiff 1 idifft 1 idften 1 iswdyn 0 ischcv 1 ibdtso 1 isstpc 0 nswrgr 100 nswrsm 1 imrgra 0 imligr -1 ircflu 1 iwgrec 0 icoupl -1 thetav 1 blencv 0 epsilo 1e-08 epsrsm 1e-07 epsrgr 1e-05 climgr 1.5 extrag 0 relaxv 1 epsilon iwarni 0 iconv 1 istat 1 idiff 1 idifft 1 idften 1 iswdyn 0 ischcv 1 ibdtso 1 isstpc 0 nswrgr 100 nswrsm 1 imrgra 0 imligr -1 ircflu 1 iwgrec 0 icoupl -1 thetav 1 blencv 0 epsilo 1e-08 epsrsm 1e-07 epsrgr 1e-05 climgr 1.5 extrag 0 relaxv 1 Key: "solving_info", values per field ---- Key: "restart_file", values per field ---- -------------------------------------------------------------------------------- Multigrid rank merge parameters: merge rank stride: 1 mean coarse cells merge threshold: 300 total coarse cells merge threshold: 500 minimum active ranks: 1 Iterative linear solvers parallel parameters: PCG single-reduction threshold: 512 Linear solver options for fields -------------------------------- Linear solver options for "Velocity" (field id 0) Solver type: Jacobi Maximum number of iterations: 10000 Verbosity: 0 Linear solver options for "Pressure" (field id 1) Solver type: multigrid Coarsening type: algebraic, natural face traversal Max fine cells per coarse cell: 3 Maximum number of levels : 25 Minimum number of coarse cells: 30 P0/P1 relaxation parameter: 0.95 Maximum number of cycles: 100 Descent smoother: Type: Conjugate gradient Preconditioning: Jacobi Maximum number of iterations: 2 Precision multiplier: 1 Ascent smoother: Type: Conjugate gradient Preconditioning: Jacobi Maximum number of iterations: 10 Precision multiplier: 1 Coarsest level solver: Type: Conjugate gradient Preconditioning: Jacobi Maximum number of iterations: 10000 Precision multiplier: 1 Postprocess coarsening: 0 Verbosity: 0 Linear solver options for "k" (field id 2) Solver type: Jacobi Maximum number of iterations: 10000 Verbosity: 0 Linear solver options for "epsilon" (field id 3) Solver type: Jacobi Maximum number of iterations: 10000 Verbosity: 0 -------------------------------------------------------------------------------- Physical model options ---------------------- Physical properties ------------------- gravity: [ 0.00000e+00, (Gravity x component) 0.00000e+00, (Gravity y component) 0.00000e+00] (Gravity z component) icorio: 0 (Coriolis source terms) Continuous phase: ro0: 1.00000e+00 (Reference density) viscl0: 1.05263e-03 (Ref. molecular dyn. visc.) cp0: 1.00000e+00 (Ref. specific heat) icp: -1 (> 0: Variable cp (cs_user_physical_properties)) p0: 1.01325e+05 (Ref. total pressure) pred0: 0.00000e+00 (Ref. reduced pressure) t0: 1.80000e+01 (Ref. temperature) irovar: 0 (Density constant(0) or not(1)) ivivar: 0 (Molec. visc cst.(0) or not(1)) Initial reference point for pressure xyzp0: 0.00000e+00 0.00000e+00 0.00000e+00 Thermal model options --------------------- Continuous phase: itherm: 0 (0: no thermal model) (1: temperature) (2: enthalpy) (3: total energy) itpscl: 0 (0: none) (1: temperature in kelvin) (2: temperature in celsius) iscalt: -1 (thermal scalar number) Turbulence model options ------------------------ Continuous phase: iturb : 21 (Turbulence model) iwallf: 3 (wall function) (0: disabled) (1: one scale power law (forbidden for k-epsilon)) (2: one scale log law) (3: two scales log law) (4: scalable wall function) (5: two scales V. Driest) (6: two scales smooth/rough) iwallt: 0 (Exch. coeff. correlation) (0: not activated) (1: activated) ypluli: 2.38095e+00 (Limit Y+) igrhok: 0 (1: computed Grad(rho k) Linear production k-epsilon (iturb = 21) almax: -9.99000e+02 (Characteristic length) uref: 1.00000e+00 (Characteristic velocity) iclkep: 0 (k-epsilon clipping model) ikecou: 0 (k-epsilon coupling mode) igrake: 0 (Account for gravity) relaxv: 1.00000e+00 for k (Relaxation) relaxv: 1.00000e+00 for epsilon (Relaxation) Rotation/curvature correction irccor: 0 (0: desactivated) (1: activated) Constants xkappa: 4.20000e-01 (Von Karman constant) cstlog: 5.20000e+00 (U+=Log(y+)/kappa +cstlog) apow: 8.30000e+00 (U+=apow (y+)**bpow (W&W law)) bpow: 1.42857e-01 (U+=apow (y+)**bpow (W&W law)) Linear production k-epsilon (iturb = 21) ce1: 1.44000e+00 (Cepsilon 1: production coef.) ce2: 1.92000e+00 (Cepsilon 2: dissipat. coef.) sigmak: 1.00000e+00 (Prandtl relative to k) sigmae: 1.30000e+00 (Prandtl relative to epsilon ) cmu: 9.00000e-02 (Cmu constant) Time stepping options --------------------- Unsteady algorithm Time step parameters idtvar: 0 (0 cst; 1,2 var (t, t-space) iptlro: 0 (1: rho-related DT clipping) coumax: 1.00000e+00 (Maximum target CFL) foumax: 1.00000e+01 (Maximum target Fourier) varrdt: 1.00000e-01 (For var. DT, max. increase) dtmin: 5.00000e-05 (Minimum time step) dtmax: 5.00000e-01 (Maximum time step) dtref: 5.00000e-04 (Reference time step) With a non-constant time step (idtvar = 1 or 2) when the value of coumax or foumax is negative or zero, the associated time step limitation (for CFL and Fourier respectively) is ignored. Frozen velocity field iccvfg: 0 (1: Frozen velocity field) Secondary viscosity ------------------- Continuous phase: ivisse: 1 (1: accounted for) Stokes model ------------ idilat: 1 (1: without unsteady term in the continuity equation 2: with unsteady term in the continuity equation 3 : with unsteady term in the continuity equation and a thermo pressure constant in the domain 4 : with unsteady term in and the continuity equation 5 for fire modelling) iporos: 0 (0: without porous media 1: with porous media 2: with tensorial porous media 3: with intergal formulation including fluid volumes and fluid surfaces) iphydr: 0 (1: account for explicit balance between pressure gradient, gravity source terms, and head losses 2: compute a hydrostatic pressure which is balance in balance with buoyancy) icalhy: 0 (1: compute hydrostatic pressure for dirichlet conditions for pressure on outlet) iprco : 1 (1: pressure-continuity) ipucou: 0 (1: reinforced u-p coupling) nterup: 1 (n: n sweeps on navsto for velocity/pressure coupling) Continuous phase: irevmc: 0 (Velocity reconstruction mode) relaxv: 1.00000e+00 for Pressure (relaxation) arak: 1.00000e+00 (Arakawa factor) Space discretization options ---------------------------- imvisf: 0 (face interpolation 0: arithmetic 1: harmonic) imrgra: 0 (type of gradient reconstruction 0: iterative process 1: standard least squares method 2: least squares method with extended neighborhood 3: standard least squares method with reduced extended neighborhood 4: iterative process initialized by the least squares method) anomax 0.785 (non-orthogonality angle (rad) above which cells are selected for the extended neighborhood) iflxmw: 0 (method to compute inner mass flux due to mesh velocity in ALE 0: based on mesh velocity at cell centers 1: based on nodes displacement) Subdomain rotation ------------------ Global domain rotation: axis: [0, 0, 0] invariant point: [0, 0, 0] angular velocity: 0 radians/s Volume zones ------------ Zone: "cells" id: 0 location_id: 1 allow overlay Zone: "all_cells" id: 1 type: 1 (initialization) location_id: 1 allow overlay Boundary zones -------------- Zone: "boundary_faces" id: 0 location_id: 3 allow overlay Zone: "y1" id: 1 location_id: 7 selection criteria: "y1" Zone: "top" id: 2 location_id: 8 selection criteria: "y2 or z1 or z2"