Icepak templates and arguments#

This section lists all setup templates with their default values and keys available in Icepak. Note that Icepak parameters contain spaces. To use them as arguments of the "create_setup" method, these same parameters have to be used without spaces. You can edit a setup after it is created. Here is an example:

from pyaedt import Icepak

app = Icepak()
# Any property of this setup can be found on this page.
setup = app.create_setup(MaxIterations=5)
TransientFlowOnly
OrderedDict([ ('Enabled', True),
              ('Flow Regime', 'Laminar'),
              ('Include Temperature', False),
              ('Include Flow', True),
              ('Include Gravity', False),
              ('Include Solar', False),
              ( 'Solution Initialization - X Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Y Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Z Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Temperature',
                'AmbientTemp'),
              ( 'Solution Initialization - Turbulent Kinetic '
                'Energy',
                '1m2_per_s2'),
              ( 'Solution Initialization - Turbulent Dissipation '
                'Rate',
                '1m2_per_s3'),
              ( 'Solution Initialization - Specific Dissipation '
                'Rate',
                '1diss_per_s'),
              ( 'Solution Initialization - Use Model Based Flow '
                'Initialization',
                False),
              ('Convergence Criteria - Flow', '0.001'),
              ('Convergence Criteria - Energy', '1e-07'),
              ( 'Convergence Criteria - Turbulent Kinetic Energy',
                '0.001'),
              ( 'Convergence Criteria - Turbulent Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Specific Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Discrete Ordinates',
                '1e-06'),
              ('IsEnabled:=', False),
              ('Radiation Model', 'Off'),
              ( 'Solar Radiation Model',
                'Solar Radiation Calculator'),
              ('Solar Radiation - Scattering Fraction', '0'),
              ('Solar Radiation - Day', 1),
              ('Solar Radiation - Month', 1),
              ('Solar Radiation - Hours', 0),
              ('Solar Radiation - Minutes', 0),
              ('Solar Radiation - GMT', '0'),
              ('Solar Radiation - Latitude', '0'),
              ('Solar Radiation - Latitude Direction', 'East'),
              ('Solar Radiation - Longitude', '0'),
              ('Solar Radiation - Longitude Direction', 'North'),
              ('Solar Radiation - Ground Reflectance', '0'),
              ('Solar Radiation - Sunshine Fraction', '0'),
              ('Solar Radiation - North X', '0'),
              ('Solar Radiation - North Y', '0'),
              ('Solar Radiation - North Z', '1'),
              ('Under-relaxation - Pressure', '0.3'),
              ('Under-relaxation - Momentum', '0.7'),
              ('Under-relaxation - Temperature', '1'),
              ( 'Under-relaxation - Turbulent Kinetic Energy',
                '0.8'),
              ( 'Under-relaxation - Turbulent Dissipation Rate',
                '0.8'),
              ( 'Under-relaxation - Specific Dissipation Rate',
                '0.8'),
              ('Discretization Scheme - Pressure', 'Standard'),
              ('Discretization Scheme - Momentum', 'First'),
              ('Discretization Scheme - Temperature', 'First'),
              ('Secondary Gradient', False),
              ( 'Discretization Scheme - Turbulent Kinetic Energy',
                'First'),
              ( 'Discretization Scheme - Turbulent Dissipation '
                'Rate',
                'First'),
              ( 'Discretization Scheme - Specific Dissipation Rate',
                'First'),
              ( 'Discretization Scheme - Discrete Ordinates',
                'First'),
              ('Linear Solver Type - Pressure', 'V'),
              ('Linear Solver Type - Momentum', 'flex'),
              ('Linear Solver Type - Temperature', 'F'),
              ( 'Linear Solver Type - Turbulent Kinetic Energy',
                'flex'),
              ( 'Linear Solver Type - Turbulent Dissipation Rate',
                'flex'),
              ( 'Linear Solver Type - Specific Dissipation Rate',
                'flex'),
              ( 'Linear Solver Termination Criterion - Pressure',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Momentum',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Temperature',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Specific '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Pressure',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Momentum',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Temperature',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Specific Dissipation Rate',
                '0.1'),
              ('Linear Solver Stabilization - Pressure', 'None'),
              ('Linear Solver Stabilization - Temperature', 'None'),
              ('Coupled pressure-velocity formulation', False),
              ('Frozen Flow Simulation', False),
              ('Start Time:=', '0s'),
              ('Stop Time:=', '20s'),
              ('Time Step:=', '1s'),
              ('Iterations per Time Step', 20),
              ('Import Start Time', False),
              ('Copy Fields From Source', False),
              ('SaveFieldsType', 'Every N Steps'),
              ('N Steps', '10'),
              ('Enable Control Program', False),
              ('Control Program Name', '')])
TransientTemperatureOnly
OrderedDict([ ('Enabled', True),
              ('Flow Regime', 'Laminar'),
              ('Include Temperature', True),
              ('Include Flow', False),
              ('Include Gravity', False),
              ('Include Solar', False),
              ( 'Solution Initialization - X Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Y Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Z Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Temperature',
                'AmbientTemp'),
              ( 'Solution Initialization - Turbulent Kinetic '
                'Energy',
                '1m2_per_s2'),
              ( 'Solution Initialization - Turbulent Dissipation '
                'Rate',
                '1m2_per_s3'),
              ( 'Solution Initialization - Specific Dissipation '
                'Rate',
                '1diss_per_s'),
              ( 'Solution Initialization - Use Model Based Flow '
                'Initialization',
                False),
              ('Convergence Criteria - Flow', '0.001'),
              ('Convergence Criteria - Energy', '1e-07'),
              ( 'Convergence Criteria - Turbulent Kinetic Energy',
                '0.001'),
              ( 'Convergence Criteria - Turbulent Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Specific Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Discrete Ordinates',
                '1e-06'),
              ('IsEnabled:=', False),
              ('Radiation Model', 'Off'),
              ( 'Solar Radiation Model',
                'Solar Radiation Calculator'),
              ('Solar Radiation - Scattering Fraction', '0'),
              ('Solar Radiation - Day', 1),
              ('Solar Radiation - Month', 1),
              ('Solar Radiation - Hours', 0),
              ('Solar Radiation - Minutes', 0),
              ('Solar Radiation - GMT', '0'),
              ('Solar Radiation - Latitude', '0'),
              ('Solar Radiation - Latitude Direction', 'East'),
              ('Solar Radiation - Longitude', '0'),
              ('Solar Radiation - Longitude Direction', 'North'),
              ('Solar Radiation - Ground Reflectance', '0'),
              ('Solar Radiation - Sunshine Fraction', '0'),
              ('Solar Radiation - North X', '0'),
              ('Solar Radiation - North Y', '0'),
              ('Solar Radiation - North Z', '1'),
              ('Under-relaxation - Pressure', '0.3'),
              ('Under-relaxation - Momentum', '0.7'),
              ('Under-relaxation - Temperature', '1'),
              ( 'Under-relaxation - Turbulent Kinetic Energy',
                '0.8'),
              ( 'Under-relaxation - Turbulent Dissipation Rate',
                '0.8'),
              ( 'Under-relaxation - Specific Dissipation Rate',
                '0.8'),
              ('Discretization Scheme - Pressure', 'Standard'),
              ('Discretization Scheme - Momentum', 'First'),
              ('Discretization Scheme - Temperature', 'First'),
              ('Secondary Gradient', False),
              ( 'Discretization Scheme - Turbulent Kinetic Energy',
                'First'),
              ( 'Discretization Scheme - Turbulent Dissipation '
                'Rate',
                'First'),
              ( 'Discretization Scheme - Specific Dissipation Rate',
                'First'),
              ( 'Discretization Scheme - Discrete Ordinates',
                'First'),
              ('Linear Solver Type - Pressure', 'V'),
              ('Linear Solver Type - Momentum', 'flex'),
              ('Linear Solver Type - Temperature', 'F'),
              ( 'Linear Solver Type - Turbulent Kinetic Energy',
                'flex'),
              ( 'Linear Solver Type - Turbulent Dissipation Rate',
                'flex'),
              ( 'Linear Solver Type - Specific Dissipation Rate',
                'flex'),
              ( 'Linear Solver Termination Criterion - Pressure',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Momentum',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Temperature',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Specific '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Pressure',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Momentum',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Temperature',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Specific Dissipation Rate',
                '0.1'),
              ('Linear Solver Stabilization - Pressure', 'None'),
              ('Linear Solver Stabilization - Temperature', 'None'),
              ('Coupled pressure-velocity formulation', False),
              ('Frozen Flow Simulation', False),
              ('Start Time:=', '0s'),
              ('Stop Time:=', '20s'),
              ('Time Step:=', '1s'),
              ('Iterations per Time Step', 20),
              ('Import Start Time', False),
              ('Copy Fields From Source', False),
              ('SaveFieldsType', 'Every N Steps'),
              ('N Steps', '10'),
              ('Enable Control Program', False),
              ('Control Program Name', '')])
TransientTemperatureAndFlow
OrderedDict([ ('Enabled', True),
              ('Flow Regime', 'Laminar'),
              ('Include Temperature', True),
              ('Include Flow', True),
              ('Include Gravity', False),
              ('Include Solar', False),
              ( 'Solution Initialization - X Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Y Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Z Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Temperature',
                'AmbientTemp'),
              ( 'Solution Initialization - Turbulent Kinetic '
                'Energy',
                '1m2_per_s2'),
              ( 'Solution Initialization - Turbulent Dissipation '
                'Rate',
                '1m2_per_s3'),
              ( 'Solution Initialization - Specific Dissipation '
                'Rate',
                '1diss_per_s'),
              ( 'Solution Initialization - Use Model Based Flow '
                'Initialization',
                False),
              ('Convergence Criteria - Flow', '0.001'),
              ('Convergence Criteria - Energy', '1e-07'),
              ( 'Convergence Criteria - Turbulent Kinetic Energy',
                '0.001'),
              ( 'Convergence Criteria - Turbulent Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Specific Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Discrete Ordinates',
                '1e-06'),
              ('IsEnabled:=', False),
              ('Radiation Model', 'Off'),
              ( 'Solar Radiation Model',
                'Solar Radiation Calculator'),
              ('Solar Radiation - Scattering Fraction', '0'),
              ('Solar Radiation - Day', 1),
              ('Solar Radiation - Month', 1),
              ('Solar Radiation - Hours', 0),
              ('Solar Radiation - Minutes', 0),
              ('Solar Radiation - GMT', '0'),
              ('Solar Radiation - Latitude', '0'),
              ('Solar Radiation - Latitude Direction', 'East'),
              ('Solar Radiation - Longitude', '0'),
              ('Solar Radiation - Longitude Direction', 'North'),
              ('Solar Radiation - Ground Reflectance', '0'),
              ('Solar Radiation - Sunshine Fraction', '0'),
              ('Solar Radiation - North X', '0'),
              ('Solar Radiation - North Y', '0'),
              ('Solar Radiation - North Z', '1'),
              ('Under-relaxation - Pressure', '0.3'),
              ('Under-relaxation - Momentum', '0.7'),
              ('Under-relaxation - Temperature', '1'),
              ( 'Under-relaxation - Turbulent Kinetic Energy',
                '0.8'),
              ( 'Under-relaxation - Turbulent Dissipation Rate',
                '0.8'),
              ( 'Under-relaxation - Specific Dissipation Rate',
                '0.8'),
              ('Discretization Scheme - Pressure', 'Standard'),
              ('Discretization Scheme - Momentum', 'First'),
              ('Discretization Scheme - Temperature', 'First'),
              ('Secondary Gradient', False),
              ( 'Discretization Scheme - Turbulent Kinetic Energy',
                'First'),
              ( 'Discretization Scheme - Turbulent Dissipation '
                'Rate',
                'First'),
              ( 'Discretization Scheme - Specific Dissipation Rate',
                'First'),
              ( 'Discretization Scheme - Discrete Ordinates',
                'First'),
              ('Linear Solver Type - Pressure', 'V'),
              ('Linear Solver Type - Momentum', 'flex'),
              ('Linear Solver Type - Temperature', 'F'),
              ( 'Linear Solver Type - Turbulent Kinetic Energy',
                'flex'),
              ( 'Linear Solver Type - Turbulent Dissipation Rate',
                'flex'),
              ( 'Linear Solver Type - Specific Dissipation Rate',
                'flex'),
              ( 'Linear Solver Termination Criterion - Pressure',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Momentum',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Temperature',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Specific '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Pressure',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Momentum',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Temperature',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Specific Dissipation Rate',
                '0.1'),
              ('Linear Solver Stabilization - Pressure', 'None'),
              ('Linear Solver Stabilization - Temperature', 'None'),
              ('Coupled pressure-velocity formulation', False),
              ('Frozen Flow Simulation', False),
              ('Start Time:=', '0s'),
              ('Stop Time:=', '20s'),
              ('Time Step:=', '1s'),
              ('Iterations per Time Step', 20),
              ('Import Start Time', False),
              ('Copy Fields From Source', False),
              ('SaveFieldsType', 'Every N Steps'),
              ('N Steps', '10'),
              ('Enable Control Program', False),
              ('Control Program Name', '')])
SteadyFlowOnly
OrderedDict([ ('Enabled', True),
              ('Flow Regime', 'Laminar'),
              ('Include Flow', True),
              ('Include Gravity', False),
              ( 'Solution Initialization - X Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Y Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Z Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Temperature',
                'AmbientTemp'),
              ( 'Solution Initialization - Turbulent Kinetic '
                'Energy',
                '1m2_per_s2'),
              ( 'Solution Initialization - Turbulent Dissipation '
                'Rate',
                '1m2_per_s3'),
              ( 'Solution Initialization - Specific Dissipation '
                'Rate',
                '1diss_per_s'),
              ('Convergence Criteria - Flow', '0.001'),
              ('Convergence Criteria - Energy', '1e-07'),
              ( 'Convergence Criteria - Turbulent Kinetic Energy',
                '0.001'),
              ( 'Convergence Criteria - Turbulent Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Specific Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Discrete Ordinates',
                '1e-06'),
              ('IsEnabled', False),
              ('Radiation Model', 'Off'),
              ('Under-relaxation - Pressure', '0.7'),
              ('Under-relaxation - Momentum', '0.3'),
              ('Under-relaxation - Temperature', '1'),
              ( 'Under-relaxation - Turbulent Kinetic Energy',
                '0.8'),
              ( 'Under-relaxation - Turbulent Dissipation Rate',
                '0.8'),
              ( 'Under-relaxation - Specific Dissipation Rate',
                '0.8'),
              ('Discretization Scheme - Pressure', 'Standard'),
              ('Discretization Scheme - Momentum', 'First'),
              ('Discretization Scheme - Temperature', 'First'),
              ('Secondary Gradient', False),
              ( 'Discretization Scheme - Turbulent Kinetic Energy',
                'First'),
              ( 'Discretization Scheme - Turbulent Dissipation '
                'Rate',
                'First'),
              ( 'Discretization Scheme - Specific Dissipation Rate',
                'First'),
              ( 'Discretization Scheme - Discrete Ordinates',
                'First'),
              ('Linear Solver Type - Pressure', 'V'),
              ('Linear Solver Type - Momentum', 'flex'),
              ('Linear Solver Type - Temperature', 'F'),
              ( 'Linear Solver Type - Turbulent Kinetic Energy',
                'flex'),
              ( 'Linear Solver Type - Turbulent Dissipation Rate',
                'flex'),
              ( 'Linear Solver Type - Specific Dissipation Rate',
                'flex'),
              ( 'Linear Solver Termination Criterion - Pressure',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Momentum',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Temperature',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Dissipation  Rate',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Specific '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Pressure',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Momentum',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Temperature',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Specific Dissipation Rate',
                '0.1'),
              ('Linear Solver Stabilization - Pressure', 'None'),
              ('Linear Solver Stabilization - Temperature', 'None'),
              ('Frozen Flow Simulation', False),
              ( 'Sequential Solve of Flow and Energy Equations',
                False),
              ('Convergence Criteria - Max Iterations', 100)])
SteadyTemperatureOnly
OrderedDict([ ('Enabled', True),
              ('Flow Regime', 'Laminar'),
              ('Include Temperature', True),
              ('Include Gravity', False),
              ( 'Solution Initialization - X Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Y Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Z Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Temperature',
                'AmbientTemp'),
              ( 'Solution Initialization - Turbulent Kinetic '
                'Energy',
                '1m2_per_s2'),
              ( 'Solution Initialization - Turbulent Dissipation '
                'Rate',
                '1m2_per_s3'),
              ( 'Solution Initialization - Specific Dissipation '
                'Rate',
                '1diss_per_s'),
              ('Convergence Criteria - Flow', '0.001'),
              ('Convergence Criteria - Energy', '1e-07'),
              ( 'Convergence Criteria - Turbulent Kinetic Energy',
                '0.001'),
              ( 'Convergence Criteria - Turbulent Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Specific Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Discrete Ordinates',
                '1e-06'),
              ('IsEnabled', False),
              ('Radiation Model', 'Off'),
              ('Under-relaxation - Pressure', '0.7'),
              ('Under-relaxation - Momentum', '0.3'),
              ('Under-relaxation - Temperature', '1'),
              ( 'Under-relaxation - Turbulent Kinetic Energy',
                '0.8'),
              ( 'Under-relaxation - Turbulent Dissipation Rate',
                '0.8'),
              ( 'Under-relaxation - Specific Dissipation Rate',
                '0.8'),
              ('Discretization Scheme - Pressure', 'Standard'),
              ('Discretization Scheme - Momentum', 'First'),
              ('Discretization Scheme - Temperature', 'Second'),
              ('Secondary Gradient', False),
              ( 'Discretization Scheme - Turbulent Kinetic Energy',
                'First'),
              ( 'Discretization Scheme - Turbulent Dissipation '
                'Rate',
                'First'),
              ( 'Discretization Scheme - Specific Dissipation Rate',
                'First'),
              ( 'Discretization Scheme - Discrete Ordinates',
                'First'),
              ('Linear Solver Type - Pressure', 'V'),
              ('Linear Solver Type - Momentum', 'flex'),
              ('Linear Solver Type - Temperature', 'F'),
              ( 'Linear Solver Type - Turbulent Kinetic Energy',
                'flex'),
              ( 'Linear Solver Type - Turbulent Dissipation Rate',
                'flex'),
              ( 'Linear Solver Type - Specific Dissipation Rate',
                'flex'),
              ( 'Linear Solver Termination Criterion - Pressure',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Momentum',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Temperature',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Dissipation  Rate',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Specific '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Pressure',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Momentum',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Temperature',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Specific Dissipation Rate',
                '0.1'),
              ('Linear Solver Stabilization - Pressure', 'None'),
              ('Linear Solver Stabilization - Temperature', 'None'),
              ( 'Sequential Solve of Flow and Energy Equations',
                False),
              ('Convergence Criteria - Max Iterations', 100)])
SteadyTemperatureAndFlow
OrderedDict([ ('Enabled', True),
              ('Flow Regime', 'Laminar'),
              ('Include Temperature', True),
              ('Include Flow', True),
              ('Include Gravity', False),
              ( 'Solution Initialization - X Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Y Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Z Velocity',
                '0m_per_sec'),
              ( 'Solution Initialization - Temperature',
                'AmbientTemp'),
              ( 'Solution Initialization - Turbulent Kinetic '
                'Energy',
                '1m2_per_s2'),
              ( 'Solution Initialization - Turbulent Dissipation '
                'Rate',
                '1m2_per_s3'),
              ( 'Solution Initialization - Specific Dissipation '
                'Rate',
                '1diss_per_s'),
              ('Convergence Criteria - Flow', '0.001'),
              ('Convergence Criteria - Energy', '1e-07'),
              ( 'Convergence Criteria - Turbulent Kinetic Energy',
                '0.001'),
              ( 'Convergence Criteria - Turbulent Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Specific Dissipation Rate',
                '0.001'),
              ( 'Convergence Criteria - Discrete Ordinates',
                '1e-06'),
              ('IsEnabled', False),
              ('Radiation Model', 'Off'),
              ('Under-relaxation - Pressure', '0.7'),
              ('Under-relaxation - Momentum', '0.3'),
              ('Under-relaxation - Temperature', '1'),
              ( 'Under-relaxation - Turbulent Kinetic Energy',
                '0.8'),
              ( 'Under-relaxation - Turbulent Dissipation Rate',
                '0.8'),
              ( 'Under-relaxation - Specific Dissipation Rate',
                '0.8'),
              ('Discretization Scheme - Pressure', 'Standard'),
              ('Discretization Scheme - Momentum', 'First'),
              ('Discretization Scheme - Temperature', 'Second'),
              ('Secondary Gradient', False),
              ( 'Discretization Scheme - Turbulent Kinetic Energy',
                'First'),
              ( 'Discretization Scheme - Turbulent Dissipation '
                'Rate',
                'First'),
              ( 'Discretization Scheme - Specific Dissipation Rate',
                'First'),
              ( 'Discretization Scheme - Discrete Ordinates',
                'First'),
              ('Linear Solver Type - Pressure', 'V'),
              ('Linear Solver Type - Momentum', 'flex'),
              ('Linear Solver Type - Temperature', 'F'),
              ( 'Linear Solver Type - Turbulent Kinetic Energy',
                'flex'),
              ( 'Linear Solver Type - Turbulent Dissipation Rate',
                'flex'),
              ( 'Linear Solver Type - Specific Dissipation Rate',
                'flex'),
              ( 'Linear Solver Termination Criterion - Pressure',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Momentum',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Temperature',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Turbulent '
                'Dissipation  Rate',
                '0.1'),
              ( 'Linear Solver Termination Criterion - Specific '
                'Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Pressure',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Momentum',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Temperature',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Kinetic Energy',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Turbulent Dissipation Rate',
                '0.1'),
              ( 'Linear Solver Residual Reduction Tolerance - '
                'Specific Dissipation Rate',
                '0.1'),
              ('Linear Solver Stabilization - Pressure', 'None'),
              ('Linear Solver Stabilization - Temperature', 'None'),
              ('Frozen Flow Simulation', False),
              ( 'Sequential Solve of Flow and Energy Equations',
                False),
              ('Convergence Criteria - Max Iterations', 100)])