In our previous tutorial, we successfully positioned the rooftop unit above the gym and established the basic layout. Now we'll take the critical next step: adding diffusers to the ductwork system—a process that requires precision and understanding of Revit's family management capabilities.

For this curved-face application, we need to work with round ductwork. While the project already contains an air terminal family, the existing component is too small for our requirements. Rather than settling for suboptimal sizing, we'll leverage Revit's powerful lookup table functionality to load the precise family type we need.

This approach exemplifies professional workflow efficiency. Let's access the cloud-based content library by pressing Escape, navigating to the Insert tab, and selecting "Load Autodesk Family."

The Autodesk family library represents a comprehensive, cloud-based repository of professionally engineered components. Navigate to Mechanical > MEP > Air Terminals. Pro tip: Switch to list view rather than tile view—this displays complete component names, enabling faster identification and selection of the precise elements you need.

Scroll down to locate "Supply Diffuser" and then "Supply Grille, Double Deflection, Curved Face, Rectangular Neck." The curved face designation is crucial here, as it's specifically engineered for round ductwork applications. Select this component and click Load.

This action triggers Revit's lookup table interface—a sophisticated feature that prevents project bloat while maintaining flexibility. Here's why this matters: mechanical families, structural beams, and similar components often contain dozens of type variations. Loading every single type clutters your type selector and significantly increases file size, potentially impacting performance on large projects.

Professional best practice dictates maintaining lean, efficient project files. We'll scroll to the bottom of the lookup table and select the 36 × 12 connection with 16-inch diameter duct compatibility. This specific sizing aligns with our gymnasium's airflow requirements and ductwork specifications.

Since we're adding a new type to an existing family, Revit will prompt about overwriting the existing version. Confirm this action—we're expanding the family's capabilities, not replacing essential functionality.

Understanding lookup tables is crucial for advanced Revit MEP work. Many manufacturers now provide families with built-in lookup tables, allowing engineers to load only the specific types required for their projects. This manufacturer-driven approach to content management has become increasingly sophisticated since 2024, with major HVAC manufacturers standardizing their Revit family offerings.

Now we'll place air terminals on our ductwork. Navigate to Systems > Air Terminal. Revit will default to the newly loaded family, but ensure you're selecting the correct type—the 36 × 12 connection we just imported.

Notice how Revit intelligently recognizes the relationship between air terminals and ductwork. In the contextual tab, you'll see "Air Terminal on Duct" checked by default. This hosting relationship is fundamental to MEP functionality—unchecking this option prevents proper placement and system connectivity.

We'll place four terminals per side, ensuring proper distribution across the ductwork span. The first placement might not register immediately—this is common with hosted families. Simply continue with your placement pattern.

For professional-grade installations, equal spacing is non-negotiable. However, Revit's approach to equalizing hosted elements requires specific techniques. We must work within Revit's constraint system rather than against it.

Begin by dimensioning from the duct edge to each air terminal centerline. When you encounter the "constraints not satisfied" error, use this workaround: establish the end terminal position independently before creating your equalized dimension string.

Delete any problematic dimensions and restart with a clean approach. Create an aligned dimension from the duct edge to your first terminal, setting this distance to exactly three feet. This establishes our starting reference point with precision.

Next, create a dimension string spanning from terminal centerline to terminal centerline, extending to the duct edge. Now you can successfully apply the EQ (equalize) constraint. This systematic approach ensures consistent spacing that meets professional installation standards.

Repeat this process for the opposite side, maintaining the same three-foot offset from the duct edge. The result should be perfectly spaced terminals that optimize air distribution throughout the gymnasium space.

To complete the installation, we'll mirror these terminals to the opposite side of the ductwork. Select all diffusers carefully—avoid including the ductwork itself in your selection. The Type Properties palette displays your selection count, confirming you have eight air terminals selected.

Use the Mirror command (MM), ensuring Copy is enabled, then select the ductwork centerline as your mirror axis. This creates a symmetrical distribution pattern essential for balanced airflow.

Here's where Revit MEP behavior becomes nuanced: the mirrored elements may not immediately display the blue color indicating proper system connectivity. This occurs because mirroring can break the hosting relationship between terminals and ductwork—a critical consideration for system functionality.

When this happens, the most reliable solution is to use Create Similar (CS) for the problematic terminals. Select the ductwork first, then place new terminals that will automatically host correctly. The blue color confirmation indicates proper system integration, ensuring your terminals will appear correctly in schedules and system analysis.

This hosting behavior represents one of Revit MEP's most important characteristics. Elements must maintain proper relationships with their host systems to function correctly in calculations, schedules, and coordination workflows. Always verify that elements display the correct system colors and maintain their hosting relationships.

Save your work at this milestone. You've successfully created a complete supply air system with properly spaced, correctly hosted diffusers that will integrate seamlessly with Revit's analytical and documentation tools—essential capabilities for professional MEP design and coordination.