Revit MEP - Electrical systems - AulaGEO from Udemy

In this course we will focus on using Revit to model, design, and compute electrical systems. You will learn to work collaboratively with other disciplines related to the design and construction of buildings.

#AulaGEO

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.

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

Content

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

What's inside

Learning objectives

Model, design and compute electrical systems of buildings
Work collaboratively on multidisciplinary projects
Correctly configure revit projects for electrical systems
Perform lighting analysis

Create circuits and wiring diagrams
Work with electrical connectors
Extract metric computations from the electrical model
Extract design reports

Model, design and compute electrical systems of buildings
Work collaboratively on multidisciplinary projects
Correctly configure revit projects for electrical systems
Perform lighting analysis
Create circuits and wiring diagrams
Work with electrical connectors
Extract metric computations from the electrical model
Extract design reports

Syllabus

Introduction

Electricity templates

Link external models

Lighting

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Focuses on using Revit to model, design, and compute electrical systems, which is a core skill for electrical engineers and designers

Teaches how to work collaboratively with other disciplines related to building design and construction, which is essential for BIM and CAD technicians

Explores the configuration of Revit projects for electrical calculations, which is a crucial aspect of electrical system design and analysis

Covers the creation of detailed reports of parts, conductors, and electrical pipes, which is useful for documentation and project management

Requires familiarity with Revit, so learners without prior experience may need to acquire basic Revit skills before taking this course

Uses Revit, which requires a license that may be costly for some students, although educational licenses are often available

Reviews summary

Revit mep electrical systems fundamentals

According to learners, this course provides a solid foundation for understanding and working with Revit MEP electrical systems. Many appreciate the coverage of essential topics like circuits, boards, conduits, and cable trays, finding the content practical and useful for their professional work. Some mention the step-by-step explanations are clear, although a few note the pace can be fast or that the course could benefit from more in-depth examples or coverage of advanced topics. The course content is generally seen as relevant to the learning objectives.

Step-by-step guidance is generally clear.

"The explanations are usually step-by-step and easy to follow."

"I appreciated the clear instructions on configuring electrical settings and systems."

"The instructor explains the process clearly, making it easy to replicate."

"Me gustaron las explicaciones paso a paso para configurar el proyecto."

Focuses on practical aspects of electrical design.

"The focus on practical aspects like creating circuits, placing fixtures, and working with boards is very useful for real-world projects."

"I found the sections on conduits and cable trays particularly relevant to my job."

"The course covered many practical aspects needed for electrical design in Revit."

"Aprendí habilidades muy prácticas que puedo usar directamente en mi trabajo diario."

Provides essential knowledge for Revit MEP.

"This course has provided me with a solid foundation in Revit MEP for electrical systems. It covers the essential concepts well."

"It's a great course to start learning how to use Revit for electrical design. Gives a good base."

"I feel much more comfortable using Revit for my electrical projects after taking this course. Good fundamental understanding."

"I gained a solid foundation in using Revit for electrical design."

Potential issues with specific Revit versions.

"Be aware that using a different version of Revit than the one in the course might lead to minor differences."

"Using an older version of Revit meant some steps didn't match exactly, but I could usually figure it out."

"Had some trouble following along because my Revit version was newer and had some interface changes."

Some find the pace fast or lacking depth.

"Sometimes the pace felt a bit fast, especially when new concepts were introduced."

"Could use more in-depth examples or coverage of some more complex scenarios."

"While it provides a good foundation, it doesn't go into much advanced detail."

"Siento que algunas partes se podrían explicar con más calma y ejemplos."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Revit MEP - Electrical systems - AulaGEO with these activities:

Review Electrical Engineering Fundamentals

Show steps

Reviewing electrical engineering fundamentals will provide a solid foundation for understanding the concepts covered in the Revit MEP course, especially regarding circuits, power distribution, and voltage configurations.

Browse courses on Electrical Circuits

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Review basic circuit laws (Ohm's Law, Kirchhoff's Laws).
Study AC and DC circuits.
Understand single-phase and three-phase power systems.

Electrical Wiring Residential

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Reviewing this book will provide a solid understanding of residential electrical wiring practices, which can be helpful when modeling electrical systems in Revit.

View Electrical Wiring Commercial (MindTap Course... on Amazon

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Read chapters on wiring methods and circuit design.
Review safety practices for electrical work.

Follow Revit Electrical Tutorials

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Following Revit electrical tutorials will help you familiarize yourself with the software interface and basic electrical modeling techniques before diving into the course content.

Show steps

Search for Revit electrical tutorials on YouTube or Autodesk's website.
Follow tutorials on creating circuits and placing electrical components.
Practice creating basic electrical layouts in Revit.

Four other activities

Expand to see all activities and additional details

Show all seven activities

Ugly's Electrical References

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Familiarizing yourself with Ugly's Electrical References will provide a handy resource for electrical calculations and data, which can be useful when working with Revit MEP.

View Alter Ego: A Novel on Amazon

Show steps

Browse the book to familiarize yourself with its contents.
Practice using the formulas and tables for common electrical calculations.

Model a Simple Electrical System in Revit

Show steps

Starting a small project will allow you to apply the knowledge gained in the course and solidify your understanding of Revit MEP electrical systems.

Show steps

Choose a small building or area to model (e.g., a single-story office).
Create a basic Revit model of the building's architecture.
Design and model the electrical system, including lighting, power outlets, and panels.
Generate basic electrical reports from the model.

Develop an Electrical Load Calculation Spreadsheet

Show steps

Creating a load calculation spreadsheet will reinforce your understanding of electrical load calculations and how they relate to Revit MEP.

Show steps

Research electrical load calculation methods and standards.
Create a spreadsheet to calculate electrical loads based on building area, occupancy, and equipment.
Compare the spreadsheet results with the load calculations generated by Revit.

Document Best Practices for Revit Electrical Modeling

Show steps

Creating documentation will help solidify your understanding of Revit MEP electrical modeling and provide a valuable resource for future projects.

Show steps

Research best practices for Revit electrical modeling.
Document the steps for creating circuits, placing electrical components, and generating reports.
Include tips and tricks for efficient modeling and troubleshooting.

Career center

Learners who complete Revit MEP - Electrical systems - AulaGEO will develop knowledge and skills that may be useful to these careers:

Electrical Engineer

As an Electrical Engineer, you design, develop, and test electrical equipment and systems. This involves creating electrical schematics, selecting components, and ensuring systems meet required specifications and safety standards. The coursework in this series helps you design and model electrical systems using Revit, a crucial skill for modern electrical engineering projects. Specifically, you can apply skills learned in this course related to creating circuits, working with transformers and boards, and understanding power distribution systems to your work as an Electrical Engineer.

See salaries and explore the career path for Electrical Engineer

Revit Technician

As a Revit Technician, you are responsible for creating and maintaining building information models using Revit software, often under the direction of architects or engineers. This role involves translating design concepts into detailed 3D models, ensuring accuracy and adherence to project standards. This course on Revit MEP serves as a comprehensive introduction to modeling electrical systems within Revit. The modules on lighting design, circuit creation, and conduit/cable tray placement, contribute directly to your ability to perform the duties of a Revit Technician.

See salaries and explore the career path for Revit Technician

Electrical Designer

An Electrical Designer creates detailed plans and specifications for electrical systems in buildings and infrastructure projects. This includes designing power distribution, lighting, and control systems, ensuring compliance with codes and regulations. This course provides a strong foundation in using Revit for electrical design, covering topics such as lighting analysis, circuit design, and power distribution modeling. If you seek to work as an Electrical Designer, you will find the hands-on experience with Revit in this course highly beneficial.

See salaries and explore the career path for Electrical Designer

Building Information Modeling Manager

A Building Information Modeling Manager oversees the implementation and management of BIM processes on construction projects. They ensure that BIM standards are followed, coordinate models from different disciplines, and troubleshoot issues that arise during the modeling process. This course on Revit MEP, with its focus on electrical systems, helps you to understand the intricacies of electrical modeling within a BIM environment. You can leverage your understanding of Revit project configuration, circuit creation, and data extraction to effectively manage BIM projects.

See salaries and explore the career path for Building Information Modeling Manager

MEP Coordinator

The MEP Coordinator manages the mechanical, electrical, and plumbing aspects of a construction project, ensuring that these systems are properly designed, installed, and coordinated with other building elements. The course covers the design and modeling of electrical systems, which is directly applicable to the responsibilities of a MEP Coordinator. With the knowledge gained from this course, especially the sections on power distribution systems, conduit layouts, and electrical calculations, you can be more effective in coordinating the electrical components of MEP projects.

See salaries and explore the career path for MEP Coordinator

Virtual Design and Construction Engineer

Virtual Design and Construction Engineers use technology to improve the design, construction, and operation of buildings. They leverage BIM, virtual reality, and other tools to create simulations, detect clashes, and optimize building performance. This course focusing on Revit MEP and electrical systems, is directly relevant to the work of a VDC Engineer. The ability to model and analyze electrical systems within a virtual environment helps to improve the overall construction process.

See salaries and explore the career path for Virtual Design and Construction Engineer

CAD Drafter

A CAD Drafter creates technical drawings and plans using computer-aided design (CAD) software. They work under the direction of engineers and architects to produce detailed drawings for manufacturing, construction, or other purposes. This course provides you proficiency in Revit, a BIM software, for creating electrical system drawings. The sections on conduit and cable tray placement, as well as circuit design, are essential for producing accurate and detailed electrical drawings as a CAD Drafter.

See salaries and explore the career path for CAD Drafter

Construction Project Manager

A Construction Project Manager oversees all aspects of a construction project, from planning and budgeting to execution and completion. They coordinate with various stakeholders, including architects, engineers, and contractors, to ensure the project is completed on time and within budget. The Revit MEP course helps you understand the electrical design and modeling process, facilitating better communication and coordination with electrical engineers and contractors. This is particularly helpful for managing the electrical aspects of construction projects, specifically with respect to power systems.

See salaries and explore the career path for Construction Project Manager

Lighting Designer

Lighting Designers plan and create lighting systems for interior and exterior spaces. They consider aesthetic, functional, and energy-efficiency requirements when developing lighting designs. This course focuses on efficient lighting design, lighting fixtures, light switches, reflected ceiling view, lighting analysis, and annotation symbols. These are all useful tools in the work of a Lighting Designer.

See salaries and explore the career path for Lighting Designer

Electrical Estimator

Electrical Estimators determine the cost of electrical installations for construction projects. They analyze blueprints, specifications, and other documents to prepare accurate and competitive bids. This Revit MEP course helps you to extract data from electrical models, and to create detailed reports of parts, conductors and electrical pipes. These skills can improve your ability to estimate the cost of electrical projects.

See salaries and explore the career path for Electrical Estimator

Facilities Manager

A Facilities Manager is responsible for the operation and maintenance of buildings and infrastructure, ensuring that they are safe, efficient, and functional. They oversee various building systems, including electrical, mechanical, and plumbing. The Revit MEP course will allow for a better understanding of electrical systems, and the ability to extract data from circuits and create dashboard views that balance design loads will contribute to the effectiveness of the Facilities Manager.

See salaries and explore the career path for Facilities Manager

Power Systems Engineer

Power Systems Engineers design, develop, and maintain electrical power systems for buildings, infrastructure, and industrial facilities. They work on power distribution, transmission, and generation systems. This course on Revit MEP helps you to understand power distribution systems and to work with transformers and boards. You can leverage these skills to perform the duties of a Power Systems Engineer.

See salaries and explore the career path for Power Systems Engineer

Sustainability Consultant

Sustainability Consultants advise clients on how to make their buildings and operations more environmentally friendly. This often involves optimizing energy usage, reducing waste, and improving indoor air quality. The Revit MEP course, through its coverage of lighting analysis and efficient electrical system design, may be useful for understanding and modeling the energy performance of electrical systems in buildings. This understanding can contribute to developing effective sustainability strategies.

See salaries and explore the career path for Sustainability Consultant

Energy Auditor

An Energy Auditor assesses the energy efficiency of buildings and recommends improvements to reduce energy consumption. This role involves conducting on-site inspections, analyzing energy data, and preparing reports. The Revit MEP course focuses on lighting analysis, so you can leverage these skills to assess the energy performance of lighting systems during an energy audit.

See salaries and explore the career path for Energy Auditor

Fire Protection Engineer

Fire Protection Engineers design and implement fire suppression and detection systems in buildings and other structures. They ensure that these systems comply with codes and regulations to protect people and property from fire hazards. While this course focuses on electrical systems, an understanding of how electrical systems interact with fire protection systems is crucial for a Fire Protection Engineer. This course may provide a broader perspective on building systems integration.

See salaries and explore the career path for Fire Protection Engineer

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Revit MEP - Electrical systems - AulaGEO.

Electrical Wiring Commercial

Save

Practical guide to residential electrical wiring, covering topics such as wiring methods, devices, and safety. It provides a solid foundation in electrical concepts and practices, which is essential for effectively using Revit MEP for electrical design. It serves as a useful reference for understanding the real-world applications of the electrical systems modeled in Revit.

Electrical Wiring Commercial (MindTap Course List)

Paperback

$$$$

Blueprints for Simmons/Mullin/Ode's Electrical...

CD-ROM

Alter Ego

Save

Ugly's Electrical References pocket-sized reference guide containing essential electrical formulas, tables, and data. It valuable tool for quick lookups and calculations related to electrical systems. is commonly used by electricians and electrical engineers in the field. It serves as a useful reference tool for the course, providing quick access to important electrical information.

Alter Ego: A Novel

Paperback

Revit MEP - Electrical systems - AulaGEO

What's inside

Learning objectives

Syllabus

Traffic lights

Save this course

Reviews summary

Revit mep electrical systems fundamentals

Activities

Career center

Reading list

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