<?xml version="1.0" encoding="utf-8"?><Code_Saturne_GUI case="CAS1" solver_version="4.0" study="TEST" version="2.0">
	<additional_scalars>
		<variable label="scalar1" name="scalar1" type="user">
			<blending_factor>1</blending_factor>
			<max_value>1e+12</max_value>
			<min_value>-1e+12</min_value>
			<property choice="constant" label="Dscal1" name="scalar1_diffusivity">
				<initial_value>1.83e-05</initial_value>
			</property>
			<rhs_reconstruction>1</rhs_reconstruction>
			<turbulent_flux_model>SGDH</turbulent_flux_model>
		</variable>
	</additional_scalars>
	<analysis_control>
		<output>
			<listing_printing_frequency>1</listing_printing_frequency>
			<mesh id="-1" label="Fluid domain" type="cells">
				<all_variables status="on"/>
				<location>all[]</location>
				<writer id="-1"/>
			</mesh>
			<mesh id="-2" label="Boundary" type="boundary_faces">
				<all_variables status="on"/>
				<location>all[]</location>
				<writer id="-1"/>
			</mesh>
			<probe name="1" status="on">
				<probe_x>-0.0089</probe_x>
				<probe_y>0.0025</probe_y>
				<probe_z>2.5e-06</probe_z>
			</probe>
			<probe name="2" status="on">
				<probe_x>0</probe_x>
				<probe_y>0.003</probe_y>
				<probe_z>2.5e-06</probe_z>
			</probe>
			<probe name="3" status="on">
				<probe_x>0.0037</probe_x>
				<probe_y>0.002</probe_y>
				<probe_z>2.5e-06</probe_z>
			</probe>
			<probe name="4" status="on">
				<probe_x>0.0889</probe_x>
				<probe_y>-0.003</probe_y>
				<probe_z>2.5e-06</probe_z>
			</probe>
			<probe_format choice="DAT"/>
			<probe_recording_frequency>1</probe_recording_frequency>
			<writer id="-1" label="results">
				<directory name="postprocessing"/>
				<format name="ensight" options="binary"/>
				<frequency period="time_step">50</frequency>
				<output_at_end status="on"/>
				<time_dependency choice="fixed_mesh"/>
			</writer>
		</output>
		<profiles/>
		<steady_management status="off"/>
		<time_averages/>
		<time_parameters>
			<iterations>20500</iterations>
			<property label="CourantNb" name="courant_number"/>
			<property label="FourierNb" name="fourier_number"/>
			<time_passing>0</time_passing>
			<time_step_ref>1e-10</time_step_ref>
			<zero_time_step status="off"/>
		</time_parameters>
	</analysis_control>
	<boundary_conditions>
		<boundary label="BC_1" name="1" nature="symmetry">Symmetry12</boundary>
		<boundary label="BC_2" name="2" nature="wall">conv</boundary>
		<boundary label="BC_3" name="3" nature="inlet">entree</boundary>
		<boundary label="BC_4" name="4" nature="free_inlet_outlet">join3</boundary>
		<boundary label="BC_5" name="5" nature="wall">wall12</boundary>
		<boundary label="BC_6" name="6" nature="symmetry">Symmetry3</boundary>
		<boundary label="BC_7" name="7" nature="free_inlet_outlet">join5</boundary>
		<boundary label="BC_8" name="8" nature="free_inlet_outlet">join4</boundary>
		<boundary label="BC_9" name="9" nature="wall">wall3</boundary>
		<boundary label="BC_10" name="10" nature="wall">div</boundary>
		<boundary label="BC_12" name="11" nature="symmetry">Symmetry45</boundary>
		<boundary label="BC_13" name="12" nature="free_inlet_outlet">join6</boundary>
		<boundary label="BC_14" name="14" nature="wall">wall4</boundary>
		<boundary label="BC_15" name="14" nature="outlet">sortie</boundary>
		<boundary label="BC_16" name="16" nature="wall">div2</boundary>
		<free_inlet_outlet label="BC_4">
			<headLoss>
				<formula>K = 0 ;</formula>
			</headLoss>
		</free_inlet_outlet>
		<free_inlet_outlet label="BC_7">
			<headLoss>
				<formula>K = 0 ;</formula>
			</headLoss>
		</free_inlet_outlet>
		<free_inlet_outlet label="BC_8">
			<headLoss>
				<formula>K = 0 ;</formula>
			</headLoss>
		</free_inlet_outlet>
		<free_inlet_outlet label="BC_13">
			<headLoss>
				<formula>K = 0 ;</formula>
			</headLoss>
		</free_inlet_outlet>
		<inlet label="BC_3">
			<scalar choice="dirichlet" name="scalar1" type="user">
				<dirichlet>0</dirichlet>
			</scalar>
			<turbulence choice="turbulent_intensity">
				<hydraulic_diameter>0.01</hydraulic_diameter>
				<turbulent_intensity>2</turbulent_intensity>
			</turbulence>
			<velocity_pressure choice="norm" direction="normal">
				<norm>6.3</norm>
			</velocity_pressure>
		</inlet>
		<outlet label="BC_15">
			<scalar choice="neumann" name="scalar1" type="user">
				<neumann>0</neumann>
			</scalar>
		</outlet>
		<symmetry label="BC_1"/>
		<symmetry label="BC_6"/>
		<symmetry label="BC_12"/>
		<variable/>
		<wall label="BC_2">
			<scalar choice="neumann" name="scalar1" type="user">
				<neumann>0</neumann>
			</scalar>
			<velocity_pressure choice="off"/>
		</wall>
		<wall label="BC_5">
			<scalar choice="neumann" name="scalar1" type="user">
				<neumann>0</neumann>
			</scalar>
			<velocity_pressure choice="off"/>
		</wall>
		<wall label="BC_9">
			<scalar choice="neumann" name="scalar1" type="user">
				<neumann>0</neumann>
			</scalar>
			<velocity_pressure choice="off"/>
		</wall>
		<wall label="BC_10">
			<scalar choice="neumann" name="scalar1" type="user">
				<neumann>0</neumann>
			</scalar>
			<velocity_pressure choice="off"/>
		</wall>
		<wall label="BC_14">
			<scalar choice="neumann" name="scalar1" type="user">
				<neumann>0</neumann>
			</scalar>
			<velocity_pressure choice="off"/>
		</wall>
		<wall label="BC_16">
			<scalar choice="neumann" name="scalar1" type="user">
				<neumann>0</neumann>
			</scalar>
			<velocity_pressure choice="off"/>
		</wall>
	</boundary_conditions>
	<calculation_management>
		<block_io/>
		<partitioning/>
		<start_restart>
			<frozen_field status="off"/>
			<restart path="RESU/RANS-2D-K-W-icavit=0-20000it-modified-Pr"/>
		</start_restart>
	</calculation_management>
	<lagrangian model="off">
		<output/>
	</lagrangian>
	<numerical_parameters>
		<gradient_reconstruction choice="0"/>
		<gradient_transposed status="on"/>
		<hydrostatic_pressure status="off"/>
		<pressure_relaxation>1</pressure_relaxation>
		<velocity_pressure_algo choice="simplec">
			<piso_sweep_number>1</piso_sweep_number>
		</velocity_pressure_algo>
		<velocity_pressure_coupling status="off"/>
		<wall_pressure_extrapolation>0</wall_pressure_extrapolation>
	</numerical_parameters>
	<physical_properties>
		<fluid_properties>
			<material choice="user_material"/>
			<method choice="user_properties"/>
			<property choice="constant" label="Density" name="density">
				<initial_value>1000</initial_value>
				<listing_printing status="off"/>
				<postprocessing_recording status="off"/>
			</property>
			<property choice="constant" label="LamVisc" name="molecular_viscosity">
				<initial_value>0.001</initial_value>
				<listing_printing status="off"/>
				<postprocessing_recording status="off"/>
			</property>
			<property choice="constant" label="SpecHeat" name="specific_heat">
				<initial_value>4182</initial_value>
				<listing_printing status="off"/>
				<postprocessing_recording status="off"/>
			</property>
			<property choice="constant" label="ThermalCond" name="thermal_conductivity">
				<initial_value>0.02495</initial_value>
				<listing_printing status="off"/>
				<postprocessing_recording status="off"/>
			</property>
			<reference choice="user_material"/>
		</fluid_properties>
		<gravity>
			<gravity_x>0</gravity_x>
			<gravity_y>0</gravity_y>
			<gravity_z>0</gravity_z>
		</gravity>
		<omega>
			<omega_x>0</omega_x>
			<omega_y>0</omega_y>
			<omega_z>0</omega_z>
		</omega>
	</physical_properties>
	<solution_domain>
		<faces_cutting status="off"/>
		<joining>
			<face_joining name="1">
				<fraction>0.1</fraction>
				<plane>25</plane>
				<selector>join3 or join4</selector>
				<verbosity>1</verbosity>
				<visualization>1</visualization>
			</face_joining>
			<face_joining name="2">
				<fraction>0.1</fraction>
				<plane>25</plane>
				<selector>join5 or join6</selector>
				<verbosity>1</verbosity>
				<visualization>1</visualization>
			</face_joining>
		</joining>
		<mesh_smoothing status="off"/>
		<meshes_list>
			<mesh name="venturi.RANS.12.8.2D.neu"/>
			<mesh name="venturi.RANS.3.7.2D.neu"/>
			<mesh name="venturi.RANS.45.7.2D.neu"/>
		</meshes_list>
		<periodicity/>
		<volumic_conditions>
			<zone darcy_law="off" head_losses="off" id="1" initialization="on" label="all_cells" mass_source_term="off" momentum_source_term="off" porosity="off" scalar_source_term="off" thermal_source_term="off">all[]</zone>
		</volumic_conditions>
	</solution_domain>
	<thermophysical_models>
		<ale_method status="off"/>
		<atmospheric_flows model="off"/>
		<compressible_model model="off"/>
		<conjugate_heat_transfer>
			<external_coupling/>
		</conjugate_heat_transfer>
		<darcy_model model="off"/>
		<gas_combustion model="off" option="off"/>
		<joule_effect model="off"/>
		<radiative_transfer model="off"/>
		<reference_values>
			<pressure>101325</pressure>
			<temperature>1273.15</temperature>
			<velocity>6.3</velocity>
		</reference_values>
		<solid_fuels model="off"/>
		<thermal_scalar model="off"/>
		<turbomachinery model="off">
			<joining/>
		</turbomachinery>
		<turbulence model="k-omega-SST">
			<initialization choice="reference_value" zone_id="1"/>
			<property label="TurbVisc" name="turbulent_viscosity"/>
			<variable label="k" name="k">
				<rhs_reconstruction>1</rhs_reconstruction>
			</variable>
			<variable label="omega" name="omega">
				<rhs_reconstruction>1</rhs_reconstruction>
			</variable>
		</turbulence>
		<velocity_pressure>
			<initialization>
				<formula zone_id="1">velocity[0] = 0.;
velocity[1] = 0.;
velocity[2] = 0.;</formula>
			</initialization>
			<property label="Efforts" name="effort" support="boundary"/>
			<property label="Efforts, normal" name="effort_normal" support="boundary">
				<postprocessing_recording status="off"/>
			</property>
			<property label="Efforts, tangential" name="effort_tangential" support="boundary">
				<postprocessing_recording status="off"/>
			</property>
			<property label="total_pressure" name="total_pressure"/>
			<property label="Yplus" name="yplus" support="boundary"/>
			<variable label="Pressure" name="pressure">
				<rhs_reconstruction>2</rhs_reconstruction>
			</variable>
			<variable dimension="3" label="Velocity" name="velocity">
				<blending_factor>1</blending_factor>
				<rhs_reconstruction>1</rhs_reconstruction>
			</variable>
		</velocity_pressure>
	</thermophysical_models>
</Code_Saturne_GUI>