Revit MEP- Heating and Cooling Pipework- HVAC

Learn to link the heating and cooling plan in Revit MEP, set metric units, configure carbon steel pipe types and system types, model hydronic piping with elevations and branches.

Detect and resolve interferences between ducts and pipes by adjusting elevations and spacing, insulating lines, and repeatedly checking plan and section views to ensure clear, installable routes.

model the fan coil drain mainline in revit mep, integrating sanitary and hvac plans, sizing a 32 mm main with 25 mm feeds and 0.5% slope.

Choose the metric mechanical equipment template in Revit to model a fan coil. Create a parametric family with width, length, and height via reference planes and extrusion.

Model a unit's supply and return ports for ductwork in Revit MEP HVAC. Use work planes, extrusion, and a distance parameter to coordinate dimensions.

Learn to add duct and pipe connectors in Revit MEP, define duct width and height parameters, and assign system classifications and flow directions for HVAC supply and return.

Learn to build a parametric revit mep fan coil family (fcu six l) by defining hvac and piping parameters for unit, plenum, ducts, and pipes, using plan measurements.

Place duct and pipe connectors on selected faces; adjust dimensions and classifications for supply, return, fresh air, and hydronic or sanitary services; imprint the model name and save as FCU.

Create a Revit MEP hvac fcu family with a plenum parameter to show or hide the plenum for six L units, and define nine L type without plenum.

Connect duct and pipes to the fan coil, adjust elevations, align axes, and link with flex pipes and drain lines, ensuring proper connections and clean-out access.

Model heating and cooling pipework in a parking project using Revit MEP, linking hot and chilled water lines, fan coil units, and hydronic piping while organizing HVAC plans and subdisciplines.