Want to find out how to use Revit MEP to process mechanical, electrical, and plumbing projects? Continue reading to discover all the secrets of RevitMEP!
Autodesk Revit MEP is Building Information Modeling (BIM) software created by Autodesk for MEP engineering professionals. MEP is an acronym that stands for Mechanical, Electrical and Plumbing, which are the three engineering disciplines that Revit addresses and manages.
“Using BIM instead of CAD computer drawing, RevitMEP is able to leverage dynamic information in intelligent models, allowing you to accurately design and document complex building systems in a short amount of time.”
Each model created with Revit MEP represents an entire project and is stored in a single database file.
This allows changes made in one part of the model to be automatically propagated to other parts of the model, thus improving the workflow for Revit MEP users.
What are the advantages of using Revit MEP?
People who work in the mechanical, electrical or hydraulic engineering sectors will discover many benefits of using Revit MEP. The BIM workflow offered by Revit MEP not only maximizes productivity, but also helps simplify design and documentation workflows.
“Revit MEP offers many other tools and features that can improve productivity such as building performance analysis, Autodesk 360 integration, construction documentation, pressure and flow calculations, pressure loss reports, parametric components and more.”
How is Revit MEP used?
Autodesk Revit MEP is used by professionals across many industries to help reduce risk, develop better quality designs and improve risk delivery.
In the case of an architectural firm, Revit MEP can be used to speed up the design and construction of real estate. When you take advantage of BIM, all those involved in the project can explore, view and understand the results of design choices from the early stages of the project.
Revit MEP is used to streamline the engineering design process by using a single model to improve communication of design intentions before construction begins. This, in turn, helps stakeholders make more informed and accurate design decisions that not only reduce the time it takes to complete a project, but also have a significant impact on the overall performance of the building.