- Run RWIND Simulation "As Administrator". To do this, right-click the RWIND Simulation icon and select "Run As Administrator".
- Click the "Activate Now" button to confirm the authorization check.
Then, the "RWIND Simulation 1.xx Demo Authorization Status" dialog box appears. - In the "RWIND Simulation 1.xx Demo Authorization Status" dialog box, select the "Software Key" option in the Authorization Method area and click the "Activation via E-Mail" function in the lower part.
This opens the "Activation by E-Mail" dialog box. - In the "Activation by E-Mail" dialog box, enter license number 1111 as well as the name and address of your institution under License Information.
In addition, enter a user-defined description of the workstation to be activated under "Description of Workspace" and the RWIND Simulation level with the expiration date of the activation to be carried out under "Required Authorization".
Then, click the "Generate Request Code" button to confirm your entries.
The "RWIND Simulation 1.xx Demo" dialog box appears. - Check the data entered in the "RWIND Simulation 1.xx Demo" dialog box. If they comply, click "OK" to confirm the dialog box.
This opens the "Activation by E-Mail" dialog box. - The "Activation by E-Mail" dialog box consists of three parts. In the "Step 2" tab, the required request code is displayed on the left. Copy this text block to the Windows clipboard by clicking the "Copy Request Code" button, then pasting the code into a blank email with [Ctrl]+[V] or using the Windows paste function. Send this email to [email protected] with the justified reason for a new trial period for further processing.
- You will receive an activation code from us. In the dialog box, go to the "Step 3" tab and enter this code in the "Activation Code" text box.
Then, click the "Activate Now" button to run the activation process.
Reactivating Expired Trial License on Single-User Computer
How can I reactivate an expired trial license of RWIND Simulation on a single-user computer?
Mr. Niemeier is responsible for the development of RFEM, RSTAB, RWIND Simulation, and in the area of membrane structures. He is also responsible for quality assurance and customer support.
- Hardware Key Authorization
- Online Activation of Software Key Authorization
- Offline Activation of Software Key Authorization
- Online Deactivation of Software Key Authorization
- Offline Deactivation of Software Key Authorization
- Online Extension of Software Key Authorization
- Activation of Trial Authorization
In RFEM and RSTAB, you can visualize the flow field quantities of pressure, velocity, turbulence kinetic energy, and turbulence dissipation rate for the wind simulation.
The clipping planes are aligned with the respective wind direction.
If you have experimentally determined surface pressures available for a model, you can apply them to a structural model in RFEM 6, process them in RWIND 2, and use them as wind loads in the structural analysis of RFEM 6.
You can find out how to apply the experimentally determined values in this technical article.
You can display the RWIND results directly in the main program. In the Navigator - Results, select the Wind Simulation Analysis result type from the list above.
Currently, the following results are available, which refer to the RWIND computational mesh:
- Surface pressure
- Surface cp coefficient
- Wall distance y+ (steady flow)
Use RWIND 2 Pro to easily apply a permeability to a surface. All you need is the definition of
- the Darcy coefficient D,
- the inertial coefficient I, and
- the length of the porous medium in the direction of flow L,
to define a pressure boundary condition between the front and back of a porous zone. Due to this setting, you obtain the flow through this zone with a two-part result display on both sides of the zone area.
But that's not all. Furthermore, the generation of a simplified model recognizes permeable zones and takes into account the corresponding openings in the model coating. Can you waive an elaborate geometric modeling of the porous element? Understandable – we have good news for you then! With a pure definition of the permeability parameters, you can avoid complex geometric modeling of the porous element. Use this feature to simulate permeable scaffolding, dust curtains, mesh structures, and so on.
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