Revit for Mechanical – Complete Beginner to Advanced Course
🔹 Course Level: Beginner to Advanced
🔹 Suitable For:
Mechanical engineers
MEP engineersHVAC designers
Plumbing & fire-fighting beginners
Students preparing for MEP jobs
📍 MODULE 1: Introduction to Revit (Basics)
1.1 What is Revit?
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Revit is a BIM (Building Information Modeling) software by Autodesk.
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Used to model HVAC ducts, pipes, mechanical equipment, and coordinated MEP systems.
1.2 Why Mechanical Engineers Use Revit
Create 3D ducting, piping, and equipment
Automatic schedules (BOQ, quantity takeoff)Load calculations (via plugins)
Clash detection (with Navisworks)
Professional MEP drawings
1.3 Revit Interface Overview
Home screen
Project browserProperties palette
Ribbon (Systems, Insert, Annotate)
Views (3D, section, plan)
1.4 Basic Terminology
Family
System family (ducts, pipes)Loadable family (equipment)
Levels
Worksets
Phases
📍 MODULE 2: Getting Started with Mechanical Template
2.1 Starting a Project
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Use Mechanical Template.rte
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Set project units (airflow, pressure, temperature)
2.2 Creating Levels & Grids
Levels = floors
Grids = column lines- (Important for placing ducts and pipes correctly)
Link > Insert CAD/IFC/Revit file
Copy/Monitor levels and grids
📍 MODULE 3: HVAC Modeling (Most Important)
3.1 HVAC Components
Air Handling Unit (AHU)
Fan Coil Unit (FCU)Exhaust Fan
Diffusers / Grilles
VAV Boxes
Chilled water coils
3.2 Placing HVAC Equipment
Systems → Mechanical Equipment
Load families if needed3.3 Air Terminal Placement
Supply diffusers
Return grillesExhaust grilles
EXERCISE:
Model a small room with 4 diffusers and 1 return grille.
📍 MODULE 4: Ducting System
4.1 Types of Ducts
Supply
ReturnFresh air
Exhaust
4.2 Drawing Ducts
Use Duct tool
Choose:
Duct shape (Rectangular/Round)
SizeSystem type
Offset
4.3 Duct Fittings
Elbows
TeesReducers
Transitions
Take-offs
4.4 Automatic Duct Sizing
Revit can size ducts automatically based on CFM (airflow).Systems → Edit System → Calculate
EXERCISE:
Model a supply duct main branch with two side branches.
📍 MODULE 5: Hydronic Piping (Chilled Water / Heating)
5.1 Piping Elements
CHW supply & return
ValvesPumps
Chillers
5.2 Creating Pipe Types
Copper, GI, etc.Set diameter, insulation, system color
5.3 Drawing Pipes
Pipe tool → specify slope, diameterUse automatic routing
5.4 Pipe Accessories
Gate valvesBalancing valves
Strainers
Thermometers & gauges📍 MODULE 6: Plumbing System
6.1 Plumbing Systems Types
Water supply
DrainageVent
Rainwater
6.2 Water Supply Piping
Cold water
Hot waterPump systems
6.3 Drainage & Waste Piping
Sloped pipes
Floor trapsManholes
Vent stack
📍 MODULE 7: Fire-Fighting System
7.1 Fire Protection Components
Sprinklers
Fire pumpsPipe networks
Alarm valves
7.2 Creating Fire Protection System
Place sprinklers
Connect with pipesCreate zones
📍 MODULE 8: Annotations & Documentation
8.1 Plan Views
HVAC plan
Mechanical planPlumbing plan
8.2 Adding Dimensions, Tags
Duct tags
Pipe tagsEquipment tags
8.3 Creating Schedules (BOQ)
Duct schedule
Pipe scheduleEquipment schedule
8.4 Sheets & Title Blocks
Add project sheets
Place views on sheetsExport PDF
📍 MODULE 9: Coordination & Clash Detection
9.1 Working with Other Disciplines
Link structural + electrical models
Create sections to check clashesUse Navisworks for clash detection (optional)
📍 MODULE 10: Advanced Concepts
10.1 Revit Family Creation
Creating custom AHUs
Creating Diffuser familiesParametric modeling
10.2 Worksharing
Multiple engineers working together
Central file & local file workflow10.3 Rendering & Visualization
Revit cloud rendering
Equipment visualization in 3D📍 MODULE 11: Final Project (Complete MEP Model)
You will design a full MEP system of a G+1 Building:
Tasks:
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Create levels and grids
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Link architectural file
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Place HVAC equipment
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Model supply, return, and exhaust ducts
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Create chilled water piping
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Model plumbing system
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Model fire fighting system
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Tag & annotate
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Create schedules
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Export drawings in PDF