Shell And Tube Heat Exchanger Revit Family Work May 2026

Mastering Shell and Tube Heat Exchanger Revit Families: A Workflow Guide

Step 4: The Saddles (Supports)

• Create an extrusion on the bottom of the shell.
• Parameter: Saddle_Height (From floor to shell bottom).
• Parameter: Saddle_Width.
• Use a formula to center the saddles: D1_Offset = Shell_Length * 0.2 (20% from each end).

1. Create a new family: In Revit, go to "File" > "New" > "Family" and choose a suitable template (e.g., "Metric" or "Imperial").
2. Define the family parameters: Set up parameters for the heat exchanger's dimensions, material, and other relevant properties.
3. Create the shell and tube geometry: Use Revit's "Model" tools (e.g., "Extrusion", "Revolve") to create the shell and tube bundle.
4. Add tube sheet and headers: Create separate components for the tube sheet and headers, using Revit's "Component" tools (e.g., "Box", "Cylinder").
5. Add nozzles and connections: Create nozzle and connection components, using Revit's "Component" tools.
6. Configure the family for parametric control: Use Revit's "Parameter" tools to create parametric controls for the heat exchanger's dimensions and properties.

Medium/Fine Detail: Show the actual shell, nozzles, and saddles. shell and tube heat exchanger revit family work

Conclusion

• Type Parameters: Materials of construction (Carbon Steel, Stainless Steel, Copper), Tube count, and Baffle spacing.
• Instance Parameters: Operating weight (for structural coordination), Fluid volume, and Insulation thickness.

• Parametric diameter: Channel_Dia = Shell_Dia * 1.1
• Parametric length: Channel_Length

Supports: Model saddles or brackets that can adjust based on the shell diameter to ensure the unit sits correctly on floor slabs or steel frames. Mastering Shell and Tube Heat Exchanger Revit Families:

Benefits and Challenges