Hallo Axel.
Hast Du auch goals definiert, die sich tatsächlich exportieren lassen ?
Hier mal eine Aufstellung aus der internen Knowledgebase:
Article ID: x147
Solution ID: S-019342
Applies to: SolidWorks Simulation, Flow Simulation
Version: 2004 and up
Category: Pre-processing
Created: 09/19/2003
Last Revised: 08/24/2011
Discussion
The following results from Flow Simulation are available for Simulation. Simulation will use the relevant data and transfer it to the model.
In versions 2004 and 2005
For Static studies:
Absolute static pressure on the solid surfaces
Shear stress on the solid surfaces
Fluid temperature near the solid walls
Solid bodies temperature
For Thermal studies:
Heat transfer coefficient and reference temperature
In versions 2006 to 2011
For Static and Buckling studies:
Gauge total pressure on the solid surfaces
Shear stress on the solid surfaces
Fluid temperature near the solid walls
Solid bodies temperature
For Thermal studies:
Heat transfer coefficient and reference temperature
Note:
Gauge pressure is equal to Absolute pressure minus the Initial/Ambient pressure defined in Flow Simulation. To check of modify the Initial/Ambient Pressure, right click on Input data and select General settings. Click Initial and Ambient conditions. In Thermodynamic parameters, check/modify the Pressure.
Please note that the Reference Pressure from the Default Reference Parameters is NOT used.
For newtonian fluids, the total and static pressures are equal on the walls because the fluid's velocity is null. For non newtonian fluids, this isn't the case.
Flow Simulation exports the Heat Transfer Coefficient (also called convection film coefficient) to Simulation as Heat Flux / (Twall - Td), where Td is a fluid temperature on upper part of boundary layer (this value change along boundary layer). This value is exported together with Td. Therefore, if the heat flux calculated by Flow Simulation is null then the Heat Transfer Coefficient exported to Simulation will also be null. This will be the case in particular if Heat transfer in solids isn't taken into account and if the wall conditions are Adiabatic, because in that case there will be no exchange of heat between the fluid and the solid and hence the Heat flux will be null.
In versions 2012 and up
For Static and Buckling studies:
Gauge total pressure on the solid surfaces
Shear stress on the solid surfaces
Fluid temperature near the solid walls
Solid bodies temperature
For Thermal studies:
Heat transfer coefficient and reference temperature
Note:
By default, gauge pressure is equal to Absolute pressure minus the Initial/Ambient pressure defined in Flow Simulation. You can modify the reference pressure manually in the Define reference pressure (offset) field.
For newtonian fluids, the total and static pressures are equal on the walls because the fluid's velocity is null. For non newtonian fluids, this isn't the case.
Flow Simulation exports the Heat Transfer Coefficient (also called convection film coefficient) to Simulation as Heat Flux / (Twall - Td), where Td is a fluid temperature on upper part of boundary layer (this value change along boundary layer). This value is exported together with Td. Therefore, if the heat flux calculated by Flow Simulation is null then the Heat Transfer Coefficient exported to Simulation will also be null. This will be the case in particular if Heat transfer in solids isn't taken into account and if the wall conditions are Adiabatic, because in that case there will be no exchange of heat between the fluid and the solid and hence the Heat flux will be null.
To export results from Flow Simulation to Simulation , you have to prepare the data in Flow Simulation.
To export results to Simulation
Click Flow Simulation, Tools, Export Results to Simulation. Flow Simulation will traverse over all model surfaces and make the fluid parameters available for Simulation.
Save the model. You must save the model each time you export results. When you perform exporting results no export file is created, but the model itself is modified.
In Simulation, in the properties of the analysis, choose to include the loads from Flow Simulation and browse to the result file. For more details, please refer to this article: Tips and tricks for exporting flow results from Flow Simulation into Simulation
Hoffe das hilft weiter.
Roland
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* Keymaster of the Masterkey *
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