Revit MEP Specialization – Electrical, Plumbing and HVAC

Complete course for the mechanical, electrical, and plumbing (MEP) disciplines for the building design and construction. With

Revit MEP Specialization you receive hands-on experience

What you’ll learn

  • Correctly configure Revit projects for electrical systems
  • Model typical elements of plumbing systems
  • Create mechanical systems within Revit
  • Create piping system for mechanical installations
  • Carry out energy analysis based on building data
  • Work collaboratively on multidisciplinary projects

Requirements

  • Have familiarity with Revit environment
  • It is necessary to have Revit 2020 or higher to open the exercise files

Description

Revit MEP Electromechanical Specialization Course is the perfect way for professionals to learn the fundamentals of BIM design and become specialized in Revit. This course provides an in-depth learning experience that covers everything from basic principles to advanced techniques. It covers topics such as drafting, modeling, and visualization, as well as the use of tools such as Autodesk Revit.

#AulaGEO

Through this specialization course, learners will be able to become proficient in using Revit MEP for projects such as  electrical systems, plumbing systems & HVAC systems. With a comprehensive curriculum that covers topics such as 3D modeling, visualization techniques, and project coordination, this course arms students with the skills needed to excel in your career path.

CONTENT

PART I – Electrical

During the development of the course we will pay attention to the necessary configuration within a Revit project to be able to execute electrical calculations. We will show you how to work with circuits, boards, voltage types and electrical distribution systems. You will learn how to extract data from circuits and create dashboard views that balance design loads.

Finally, we will show you how to create detailed reports of parts, conductors and electrical pipes.

Introduction

Lecture 1: Introduction

Lecture 2: Electricity templates

Lecture 3: Link external models

Lighting

Lecture 4: Efficient lighting design

Lecture 5: Spaces and lighting

Lecture 6: Reflected ceiling view

Lecture 7: Lighting analysis

Lecture 8: Lighting fixtures

Lecture 9: Light switches

Lecture 10: Annotation symbols

Power

Lecture 11: Create circuits

Lecture 12: Electric Conectors

Lecture 13: Transformers and boards

Lecture 14: Power distribution systems

Lecture 15: Conduits and cable trays

Lecture 16: Configuration of electrical pipes

Lecture 17: Placing conduits on a model

Lecture 18: Place cable trays on model

Lecture 19: Electrical configurations

Lecture 20: Wiring configuration

Lecture 21: Voltage configuration and distribution systems

Lecture 22: Set up load calculation and dashboard view

Lecture 23: Create circuits and wiring

Lecture 24: Manual cable creation

Lecture 25: Circuit Properties

Lecture 26: Board Properties

Lecture 27: Circuit tables

Conclusion

Lecture 28: Farewell

PART II – Plumbing

For plumbing, we will focus on how to properly configure our projects to work with plumbing installations. And we will do it taking into account the collaborative work necessary for multi-disciplinary projects. You will learn to model, design and report models of sanitary facilities under the BIM environment. In the final section, we will pay attention to creating logical duct and pipe systems, creating those elements, and using the Revit engine to design sizes and verify performance.

Introduction

Lecture 1: Introduction

Lecture 2: Templates for plumbing systems

Lecture 3: Link architecture

Plumbing Model Creation

Lecture 4: Place pieces

Lecture 5: Pieces per monitor copy

Lecture 6: Pipe connectors

Lecture 7: Place teams

Lecture 8: Plumbing setup

Lecture 9: Piping systems

Lecture 10: Pipe routing

Lecture 11: Manual laying of pipes

Lecture 12: Pendiente de tuberías

Lecture 13: Valves and other accessories

Inspection, design and reporting

Lecture 14: Systems inspection

Lecture 15: Piping design

Lecture 16: Pressure loss reports

Lecture 17: Sanitary Parts Tables

Conclusion

Lecture 18: Farewell

PART III – HVAC

In this part we will concentrate on the use of Revit tools that assist us in performing energy analysis of buildings. We will see how to enter energy information in our model and how to export this information for treatment outside of Revit. In the final section, we will pay attention to creating logical duct and pipe systems, creating those elements, and using the Revit engine to design sizes and verify performance.

Introduction

Lecture 1: Introduction

Lecture 2: Templates with mechanical configurations

Lecture 3: Links for collaborative work

Energy Design

Lecture 4: Create spaces

Lecture 5: Place spaces

Lecture 6: Create space tables

Lecture 7: Modify space properties

Lecture 8: Create zones

Lecture 9: Modify construction options

Lecture 10: Thermal load analysis

Lecture 11: Load analysis

Lecture 12: Climate data

Lecture 13: Sliver spaces

Lecture 14: Level of detail of the report

Lecture 15: Load analysis details

Lecture 16: Thermal load reports

Lecture 17: Export gbXML to simulation software

Design of mechanical installations

Lecture 18: Systems Explorer

Lecture 19: Mechanical configurations

Lecture 20: Duct connectors

Lecture 21: Create mechanical systems

Lecture 22: Mechanical piping configuration

Lecture 23: Pipe connectors

Lecture 24: Piping systems

Lecture 25: Place terminals

Lecture 26: Place mechanical equipment

Lecture 27: Create a routing scheme

Lecture 28: Manual routing

Lecture 29: Duct sizes

Lecture 30: Mechanical piping equipment

Lecture 31: Mechanical pipe routing

Lecture 32: Manual pipe editing

Lecture 33: Mechanical pipe size

Lecture 34: Loss reports

Conclusion

Lecture 35: Farewell

The AulaGeo team worked hard on this course. It was developed in Spanish by Enzo, voiced by Gabriella for English speaking students.

Who this course is for:

  • BIM managers
  • BIM modelers
  • BIM Specialists
  • Electrical Engineers
  • HVAC Modeler
  • HVAC Draftsman
  • Civil Engineer

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