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Copy file name to clipboardExpand all lines: _tutorials/incompressible_flow/Inc_Heated_Cylinders_Unsteady.md
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@@ -34,22 +34,22 @@ The problem setup is the same as in the [heated cylinders with conjugate heat tr
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```
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INC_DENSITY_INIT= 0.0210322
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```
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in [flow_cylinder.cfg](../../Inc_Heated_Cylinders/flow_cylinder.cfg) and
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in [flow_cylinder.cfg](../../Inc_Heated_Cylinders_Unsteady/flow_cylinder.cfg) and
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```
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SOLID_DENSITY= 0.0210322
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```
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in [solid_cylinder1.cfg](../../Inc_Heated_Cylinders/solid_cylinder1.cfg), [solid_cylinder2.cfg](../../Inc_Heated_Cylinders/solid_cylinder2.cfg) and [solid_cylinder3.cfg](../../Inc_Heated_Cylinders/solid_cylinder3.cfg)
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in [solid_cylinder1.cfg](../../Inc_Heated_Cylinders_Unsteady/solid_cylinder1.cfg), [solid_cylinder2.cfg](../../Inc_Heated_Cylinders_Unsteady/solid_cylinder2.cfg) and [solid_cylinder3.cfg](../../Inc_Heated_Cylinders_Unsteady/solid_cylinder3.cfg)
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For simplicity we leave all other parameters unchanged.
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### Mesh Description
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The mesh is the same as in the [heated cylinders with conjugate heat transfer tutorial](/tutorials/Inc_Heated_Cylinders/).
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The [mesh](../../Inc_Heated_Cylinders_Unsteady/mesh_cht_3cyl.su2) is the same as in the [heated cylinders with conjugate heat transfer tutorial](/tutorials/Inc_Heated_Cylinders/).
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### Configuration File Options
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An unsteady simulation is set up by enabling the time domain and choosing a time marching algorithm in the [master config file](../../Inc_Heated_Cylinders/cht_2d_3cylinders.cfg):
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An unsteady simulation is set up by enabling the time domain and choosing a time marching algorithm in the [master config file](../../Inc_Heated_Cylinders_Unsteady/cht_2d_3cylinders.cfg):
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```
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TIME_DOMAIN = YES
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TIME_MARCHING= DUAL_TIME_STEPPING-2ND_ORDER
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```
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The time marching parameters have to match the flow physics that should be resolved. For a given inlet velocity of 3.40297 m/s at Re = 4000, the Strouhal number estimation for the most upstream cylinder is Sr = 0.21. This gives a frequency of f = Sr*v = 0.71Hz for the vortex shedding so that a time step of 0.05s is chosen in the [master config file](../../Inc_Heated_Cylinders/cht_2d_3cylinders.cfg):
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The time marching parameters have to match the flow physics that should be resolved. For a given inlet velocity of 3.40297 m/s at Re = 4000, the Strouhal number estimation for the most upstream cylinder is Sr = 0.21. This gives a frequency of f = Sr*v = 0.71Hz for the vortex shedding so that a time step of 0.05s is chosen in the [master config file](../../Inc_Heated_Cylinders_Unsteady/cht_2d_3cylinders.cfg):
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```
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TIME_STEP= 0.05
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```
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In order to sufficiently resolve the coupling in each time step, we set the number of outer iterations to 200 in the [master config file](../../Inc_Heated_Cylinders/cht_2d_3cylinders.cfg):
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In order to sufficiently resolve the coupling in each time step, we set the number of outer iterations to 200 in the [master config file](../../Inc_Heated_Cylinders_Unsteady/cht_2d_3cylinders.cfg):
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