Adding NICFD files

Author: talbring

compressible_flow/NICFD_nozzle/NICFD_nozzle.cfg

@@ -0,0 +1,252 @@
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+%                                                                              %
+% SU2 configuration file                                                       %
+% Case description: Non-ideal compressible fluid flow in a converging-         %
+%                   diverging supersonic nozzle for siloxane fluid MDM         %
+% Author: Alberto Guardone                                                     %
+% Institution: Politecnico di Milano                                           %
+% Date: 2019.05.03                                                             %
+% File Version 6.2.0 "Falcon"                                                  %
+%                                                                              %
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+% ------------- DIRECT, ADJOINT, AND LINEARIZED PROBLEM DEFINITION ------------%
+%
+% Physical governing equations (EULER, NAVIER_STOKES,
+%                               FEM_EULER, FEM_NAVIER_STOKES, FEM_RANS, FEM_LES,
+%                               WAVE_EQUATION, HEAT_EQUATION, FEM_ELASTICITY,
+%                               POISSON_EQUATION)
+SOLVER= RANS
+%
+% Specify turbulence model (NONE, SA, SA_NEG, SST, SA_E, SA_COMP, SA_E_COMP)
+KIND_TURB_MODEL= SST
+%
+% Mathematical problem (DIRECT, CONTINUOUS_ADJOINT, DISCRETE_ADJOINT)
+MATH_PROBLEM= DIRECT
+%
+% Restart solution (NO, YES)
+RESTART_SOL= NO
+%
+% System of measurements (SI, US)
+% International system of units (SI): ( meters, kilograms, Kelvins,
+%                                       Newtons = kg m/s^2, Pascals = N/m^2,
+%                                       Density = kg/m^3, Speed = m/s,
+%                                       Equiv. Area = m^2 )
+% United States customary units (US): ( inches, slug, Rankines, lbf = slug ft/s^2,
+%                                       psf = lbf/ft^2, Density = slug/ft^3,
+%                                       Speed = ft/s, Equiv. Area = ft^2 )
+SYSTEM_MEASUREMENTS= SI
+%
+% -------------------- COMPRESSIBLE FREE-STREAM DEFINITION --------------------%
+%
+% Mach number (non-dimensional, based on the free-stream values)
+MACH_NUMBER= 1E-9
+%
+% Angle of attack (degrees, only for compressible flows)
+AOA= 0.0
+%
+% Side-slip angle (degrees, only for compressible flows)
+SIDESLIP_ANGLE= 0.0
+%
+% Init option to choose between Reynolds (default) or thermodynamics quantities
+% for initializing the solution (REYNOLDS, TD_CONDITIONS)
+INIT_OPTION= TD_CONDITIONS
+%
+% Free-stream option to choose between density and temperature (default) for
+% initializing the solution (TEMPERATURE_FS, DENSITY_FS)
+FREESTREAM_OPTION= TEMPERATURE_FS
+%
+% Free-stream pressure (101325.0 N/m^2, 2116.216 psf by default)
+FREESTREAM_PRESSURE= 904388
+%
+% Free-stream temperature (288.15 K, 518.67 R by default)
+FREESTREAM_TEMPERATURE= 542.13
+%
+% Compressible flow non-dimensionalization (DIMENSIONAL, FREESTREAM_PRESS_EQ_ONE,
+%                              FREESTREAM_VEL_EQ_MACH, FREESTREAM_VEL_EQ_ONE)
+REF_DIMENSIONALIZATION= DIMENSIONAL
+
+% ---- IDEAL GAS, POLYTROPIC, VAN DER WAALS AND PENG ROBINSON CONSTANTS -------%
+%
+% Fluid model (STANDARD_AIR, IDEAL_GAS, VW_GAS, PR_GAS,
+%              CONSTANT_DENSITY, INC_IDEAL_GAS, INC_IDEAL_GAS_POLY)
+FLUID_MODEL= PR_GAS
+%
+% Ratio of specific heats (1.4 default and the value is hardcoded
+%                          for the model STANDARD_AIR, compressible only)
+GAMMA_VALUE= 1.01767
+%
+% Specific gas constant (287.058 J/kg*K default and this value is hardcoded
+%                        for the model STANDARD_AIR, compressible only)
+GAS_CONSTANT= 35.17
+%
+% Critical Temperature (131.00 K by default)
+CRITICAL_TEMPERATURE= 565.3609
+%
+% Critical Pressure (3588550.0 N/m^2 by default)
+CRITICAL_PRESSURE= 1437500
+%
+% Acentric factor (0.035 (air))
+ACENTRIC_FACTOR= 0.524
+
+% --------------------------- VISCOSITY MODEL ---------------------------------%
+%
+% Viscosity model (SUTHERLAND, CONSTANT_VISCOSITY, POLYNOMIAL_VISCOSITY).
+VISCOSITY_MODEL= CONSTANT_VISCOSITY
+%
+% Molecular Viscosity that would be constant (1.716E-5 by default)
+MU_CONSTANT= 1.21409E-05
+
+% --------------------------- THERMAL CONDUCTIVITY MODEL ----------------------%
+%
+% Laminar Conductivity model (CONSTANT_CONDUCTIVITY, CONSTANT_PRANDTL,
+% POLYNOMIAL_CONDUCTIVITY).
+CONDUCTIVITY_MODEL= CONSTANT_CONDUCTIVITY
+%
+% Molecular Thermal Conductivity that would be constant (0.0257 by default)
+KT_CONSTANT= 0.030542828
+
+% -------------------- BOUNDARY CONDITION DEFINITION --------------------------%
+%
+% Navier-Stokes (no-slip), constant heat flux wall  marker(s) (NONE = no marker)
+% Format: ( marker name, constant heat flux (J/m^2), ... )
+MARKER_HEATFLUX= ( WALL, 0.0 )
+%
+% Symmetry boundary marker(s) (NONE = no marker)
+MARKER_SYM= ( SYMMETRY )
+%
+% Riemann boundary marker(s) (NONE = no marker)
+% Format: (marker, data kind flag, list of data)
+MARKER_RIEMANN= ( INFLOW, TOTAL_CONDITIONS_PT, 904388, 542.13, 1.0, 0.0, 0.0, OUTFLOW, STATIC_PRESSURE, 200000.0, 0.0, 0.0, 0.0, 0.0 )
+
+% ------------- COMMON PARAMETERS DEFINING THE NUMERICAL METHOD ---------------%
+%
+% Numerical method for spatial gradients (GREEN_GAUSS, WEIGHTED_LEAST_SQUARES)
+NUM_METHOD_GRAD= GREEN_GAUSS
+%
+% CFL number (initial value for the adaptive CFL number)
+CFL_NUMBER= 10.0
+%
+% Adaptive CFL number (NO, YES)
+CFL_ADAPT= YES
+%
+% Parameters of the adaptive CFL number (factor down, factor up, CFL min value,
+%                                        CFL max value )
+CFL_ADAPT_PARAM= ( 0.1, 2.0, 10.0, 1000.0 )
+%
+% Maximum Delta Time in local time stepping simulations
+MAX_DELTA_TIME= 1E6
+
+% ----------- SLOPE LIMITER AND DISSIPATION SENSOR DEFINITION -----------------%
+%
+% Monotonic Upwind Scheme for Conservation Laws (TVD) in the flow equations.
+%           Required for 2nd order upwind schemes (NO, YES)
+MUSCL_FLOW= YES
+%
+% Slope limiter (NONE, VENKATAKRISHNAN, VENKATAKRISHNAN_WANG,
+%                BARTH_JESPERSEN, VAN_ALBADA_EDGE)
+SLOPE_LIMITER_FLOW= NONE
+%
+% Monotonic Upwind Scheme for Conservation Laws (TVD) in the turbulence equations.
+%           Required for 2nd order upwind schemes (NO, YES)
+MUSCL_TURB= NO
+
+% ------------------------ LINEAR SOLVER DEFINITION ---------------------------%
+%
+% Linear solver or smoother for implicit formulations (BCGSTAB, FGMRES, SMOOTHER_JACOBI,
+%                                                      SMOOTHER_ILU, SMOOTHER_LUSGS,
+%                                                      SMOOTHER_LINELET)
+LINEAR_SOLVER= FGMRES
+%
+% Preconditioner of the Krylov linear solver (ILU, LU_SGS, LINELET, JACOBI)
+LINEAR_SOLVER_PREC= ILU
+%
+% Linael solver ILU preconditioner fill-in level (0 by default)
+LINEAR_SOLVER_ILU_FILL_IN= 0
+%
+% Minimum error of the linear solver for implicit formulations
+LINEAR_SOLVER_ERROR= 1E-6
+%
+% Max number of iterations of the linear solver for the implicit formulation
+LINEAR_SOLVER_ITER= 10
+
+% -------------------------- MULTIGRID PARAMETERS -----------------------------%
+%
+% Multi-grid levels (0 = no multi-grid)
+MGLEVEL= 0
+
+% -------------------- FLOW NUMERICAL METHOD DEFINITION -----------------------%
+%
+% Convective numerical method (JST, LAX-FRIEDRICH, CUSP, ROE, AUSM, AUSMPLUSUP, AUSMPLUSUP2, HLLC,
+%                              TURKEL_PREC, MSW, FDS)
+CONV_NUM_METHOD_FLOW= ROE
+%
+% Entropy fix coefficient (0.0 implies no entropy fixing, 1.0 implies scalar
+%                          artificial dissipation)
+ENTROPY_FIX_COEFF= 0.1
+%
+% Time discretization (RUNGE-KUTTA_EXPLICIT, EULER_IMPLICIT, EULER_EXPLICIT)
+TIME_DISCRE_FLOW= EULER_IMPLICIT
+
+% -------------------- TURBULENT NUMERICAL METHOD DEFINITION ------------------%
+%
+% Convective numerical method (SCALAR_UPWIND)
+CONV_NUM_METHOD_TURB= SCALAR_UPWIND
+%
+% Time discretization (EULER_IMPLICIT)
+TIME_DISCRE_TURB= EULER_IMPLICIT
+%
+% Reduction factor of the CFL coefficient in the turbulence problem
+CFL_REDUCTION_TURB= 1.0
+
+% --------------------------- CONVERGENCE PARAMETERS --------------------------%
+%
+% Number of total iterations
+ITER= 1000
+%
+% Convergence criteria (CAUCHY, RESIDUAL)
+%
+CONV_CRITERIA= RESIDUAL
+%
+%
+% Min value of the residual (log10 of the residual)
+CONV_RESIDUAL_MINVAL= -24
+%
+% Start convergence criteria at iteration number
+CONV_STARTITER= 10
+
+% ------------------------- INPUT/OUTPUT INFORMATION --------------------------%
+%
+% Mesh input file
+MESH_FILENAME= NICFD_nozzle.su2
+%
+% Mesh input file format (SU2, CGNS)
+MESH_FORMAT= SU2
+%
+% Mesh output file
+MESH_OUT_FILENAME= mesh_out.su2
+%
+% Restart flow input file
+SOLUTION_FILENAME= solution_flow.dat
+%
+% Output file format (TECPLOT, TECPLOT_BINARY, PARAVIEW, PARAVIEW_BINARY,
+%                     FIELDVIEW, FIELDVIEW_BINARY)
+TABULAR_FORMAT= CSV
+%
+% Output file convergence history (w/o extension)
+CONV_FILENAME= history
+%
+% Output file restart flow
+RESTART_FILENAME= restart_flow.dat
+%
+% Output file flow (w/o extension) variables
+VOLUME_FILENAME= flow
+%
+% Output file surface flow coefficient (w/o extension)
+SURFACE_FILENAME= surface_flow
+%
+% Writing solution file frequency
+WRT_SOL_FREQ= 1000
+%
+% Screen output
+SCREEN_OUTPUT= (INNER_ITER, RMS_DENSITY, RMS_TKE, RMS_DISSIPATION, LIFT, DRAG)