Shell And Tube Heat Exchanger Revit Family Work !free! đŸ†• Proven
Design Heat Load (Watts or BTU/h), Fluid Type , Entering Temperature , Leaving Temperature , and Maximum Pressure Drop .
In the Revit family, this is modeled using or a transparent 3D generic model sub-category. This geometry does not show up in renders but appears in coordination views, alerting architects and structural engineers not to place columns, walls, or cable trays in the tube pull zone.
To make the Revit family more flexible and parametric, consider the following: shell and tube heat exchanger revit family work
Introduce a flow value upstream in the piping system and confirm that the heat exchanger family reads and passes the flow calculations down the line.
Lock the sketch lines to the bottom reference plane (Ref Level). Step 4: Nozzles and Flanges Design Heat Load (Watts or BTU/h), Fluid Type
Design pressure, maximum temperature, flow rates, pressure drops, and heat transfer capacity. Choosing the Right Family Template
Before creating a Revit family for a shell and tube heat exchanger, it's essential to understand the key components that make up this complex system. These components include: To make the Revit family more flexible and
To make the Revit family functional for schedules, coordination, and calculations, you must embed specific parameters. Dimensional Parameters Total footprint of the equipment. Shell Diameter: Outside diameter of the main cylinder.
The outer shell, including inlet/outlet nozzles.
