Shell And Tube Heat Exchanger Revit Family Work Best 💯 Fast
Built-in "Pipe Connectors" with predefined flow directions, system classifications (Hydronic Supply/Return), and pressure drop parameters.
Change the length and diameter parameters to extremes to ensure the geometry doesn't "break."
Manufacturer, model number, and weight (dry vs. operating). 5. Level of Detail (LOD)
Ensure fields for Manufacturer, Model Number, and Type Comments are filled. This allows for automated equipment schedules that update in real-time as you swap types. 5. Level of Detail (LOD) Management shell and tube heat exchanger revit family work
Developed a fully parametric, LOD 350 Revit family for a horizontal shell and tube heat exchanger. Implemented dynamic parameters for shell diameter (12–48 inches), tube length (10–30 ft), and nozzle locations. Integrated hydraulic connectors for pressure drop simulation, included clearance zones for tube bundle extraction, and optimized geometry to balance visual detail with model performance. Used for clash detection, weight estimation, and rigging studies across three industrial process projects.
High-quality Revit families go beyond geometry by carrying critical engineering metadata for schedules and specifications. Add Identity Data and Engineering Parameters
A shell and tube heat exchanger is a type of heat exchanger that consists of a series of tubes, one set of which carries the hot fluid, while the other set carries the cold fluid. The tubes are typically arranged in a cylindrical shell, with the hot and cold fluids flowing through the tubes and shell, respectively. This design allows for efficient heat transfer between the two fluids, making shell and tube heat exchangers a popular choice in various industries. Select the Shell Inlet connector
To help customize this family for your specific project, tell me:
OmniClass_Number (Set to 23.20.10.11.11 for Heat Exchangers) Manufacturer , Model_Number , and Cost . 6. Managing Visibility and Levels of Detail (LOD)
: Create parameters for Fluid Temperature (In/Out) , Pressure Drop , and Heat Duty (kW or BTU/hr) . click Link Connectors
Select the Shell Inlet connector, click Link Connectors , and select the Shell Outlet connector. Repeat this process for the Tube Inlet and Tube Outlet. Linking tells Revit that fluid entering one side must equal the fluid leaving the other. 5. Adding Shared and Family Parameters
Open the Family Category and Parameters dialog box. Set the "Part Type" to Equipment . This property ensures Revit recognizes the family as a major component rather than an inline accessory.
The template includes fixed Center (Left/Right) and Center (Front/Back) planes. Their intersection is your insertion point.