Benefits of using Revit Architecture for 3D Renders

Autodesk Revit was introduced well over a decade ago, it is software for architects, designers, MEP engineers, structural engineers and contractors. Over the years, Revit adoption has progressed rapidly in the AEC industry, which in itself has seen revolutionary developments in the same period.

Revit is available in many packages, which includes, Autodesk Revit Architecture and Autodesk Revit MEP, amongst others. Autodesk Revit Architecture provides an array of tools required for projects across a range of architectural sectors, including home building and retail  along with the ability to prepare 3D renders. It is a tool extensively used by companies providing Architectural CAD Services, Architectural Drafting Service and Architectural 3D Rendering Services.

Revit architecture utilises parametric design processes which enable seamless modification of a related environment whenever an element in the adjacent environment is changed, thus maintaining continuity within a single project file. One of the more recent tools of Revit architecture is its ability to generate 3D renders, as 3D renders enable architects, consultants and associated professionals to present their design ideas and  architectural vision through 3D images to clients and associated project stakeholders. The main highlight of architectural rendering using Revit Architecture is its capability to augment visualisation and facilitate the creation of 3D views.

Listed below are a few of the features and benefits of using Revit Architecture for 3D renders:  

• Precise sun settings in the renders –
  Revit Architecture carries settings to produce accurate colour reproduction such as proper set up of  lighting and materials. Exterior daytime renders are created by using sun setting option, allowing to  create a precise sun angle and position relative to the building. Revit Architecture also accurately portrays the sunlight for specific locations around the world, by just stating time and date with the  desired location in the settings. 

• Accurate production of Resolution -
  Based upon client requirements and the end use of the image, the resolution of rendered images can  be selected. If the rendered image is going to be used for a large presentation board then a high  resolution setting can be selected and for a relatively small image, where the level of detail is less, a  lower resolution setting can be selected. 

• Comparatively quicker than the competition -
  The majority of the competitive rendering engines utilise a high amount of CPU memory and also require advanced GPU’s, which ultimately results in a lot of time consumption to produce high quality renders. Revit Architecture is fine tuned to utilise less CPU memory and in most cases does not require a GPU to handle complex scenes and lightings, improving the overall efficiency and creating high resolution renders in significantly less time. 

• Higher reliability ratio -
  Due to advanced settings that provide the best performance under varied settings, Revit Architecture  creates renders with high resolution in much less time, where similar rendering engines fail to create renders of lower resolution. Hence, along with providing an optimum output, Revit Architecture is a  highly reliable tool to create high quality 3D renders. 

• Variety of tool options -
  Revit Architecture comes  with a variety of tool options, such as a visualisation related election tool’ in the ‘View’ panel on the ‘Modify’ tab. There are many more similar tools available on Revit  Architecture which can be useful for various tasks other than creating renders.

Revit Architecture is becoming one of the more versatile tools for overall design modeling and documentation. The ability to generate 3D renders using an array of options has broadened the appeal and use of the tool for architects and designers. There are a variety of additional benefits of using Revit Architecture for 3D Renders other than the few listed above, which are updated in every new iteration of the software, making it a sought after tool for designers around the world..

10 Reasons to Use Revit MEP for MEP Coordination

Autodesk Revit MEP is an important component used for design by the AEC industry. Globally, AEC firms are increasingly using Revit MEP to produce 3D M&E (MEP) coordinated drawings, and Revit MEP tools to update their BIM models with MEP information, and thus, enhance their architectural and engineering design development and construction documentation process. Businesses using Revit MEP are starting to realise the potential of this technology to deliver more value to the AEC industry and also manage their own budgets and profitability at the same time. Before we look at the reasons to use Revit MEP for MEP coordination, let’s briefly cover the subject of Autodesk Revit MEP for MEP coordination.

Autodesk Revit MEP for MEP Coordination

Autodesk Revit MEP, a building information modelling (BIM) software is a leading Autodesk product that is used by users engaging in MEP engineering projects. MEP is an acronym for Mechanical, Electrical and Plumbing which forms the three engineering disciplines addressed by Revit MEP. Using BIM software rather than CAD (computer aided drafting), Revit MEP consists of dynamic information in the form of intelligent models, letting complex building systems to be precisely designed and documented in a shorter amount of time. Within Revit MEP there are a series of intelligent models that combine to form a complete project, all stored in a single database file. With this, the changes made in one part of the model can then be automatically propagated to other parts of the model, thus reducing the timeframe to alter designs during the design process. As far as MEP coordination is concerned, it involves coordination of all building services (HVAC, pipework, public health and electrical systems) with other disciplines making up the structure of the building, fabric and external envelope, i.e. steel, concrete, false ceilings, etc.

Having refreshed our memories with Autodesk Revit MEP, let us focus on the reasons why it is useful for MEP coordination. There are of course many reasons, however a few are listed below that will hopefully demonstrate the value of this tool for coordination.

10 Reasons to Use Revit MEP for MEP Coordination

The top 10 reasons to use Revit MEP during MEP design and coordination are summarised below:

• Revit MEP produces high end building information models that represent realistic, real time design scenarios, helping users to make more informed design decisions earlier in the process. The team working on the project can better meet goals and sustainability initiatives, execute energy analysis, examine system loads, and produce heating and cooling load reports with native integrated analysis tools
• Revit MEP software’s modelling and layout tools let engineers create mechanical, electrical, and plumbing systems more easily and precisely. Also, the software’s parametric change technology means that any change to the MEP model is automatically coordinated throughout the model
• The complexities of today’s buildings require leading edge system’s and engineering tools to optimize performance in both use and efficiency. As complexities increase in the projects, communicating design changes among MEP engineers and their extended teams is critical. Revit MEP’s purpose built systems analysis and optimization tools lets team members receive feedback about their MEP designs in real time, resulting in better performing designs in the process
• Using Revit MEP, the MEP engineers can more effectively collaborate and interact based on workflow and project requirements through use of a range of compatible collaboration tools such as BIM360. The software also helps to minimize design coordination errors among the extended project team, and helps to reduce design conflicts with real time clash and interference detection.
• In Revit MEP, all model information is stored in a single, coordinated database. Revisions and modifications to information are automatically updated throughout the model, helping to significantly reduce errors and omissions. Autodesk refers to this database driven simultaneous update to file output as multi-directional associatively which explains that a change in one area manifests in all other parts of the file.
• Parametric components, also called families, are the basis for all building components designed in Revit MEP. These components provide an open graphical system for design thinking and form making and offer the opportunity to adjust and express design intent at increasingly detailed levels.
• Revit MEP software is a much more streamlined and intuitive user interface that is easier to learn and adopt. Users can thus find favourite tools and commands faster, identify tools more efficiently, and discover relevant new features easily.
• Revit MEP works holistically, treating information in terms of entire building, linking mechanical, electrical, and plumbing systems with the building model - thus increasing collaborative working and a team based approach to projects.
• Revit MEP updates model views and sheets, thus helping to maintain document and project consistency. With its help MEP engineers can for example, create HVAC systems with mechanical functionality and offer 3D modelling for ductwork and piping.
• Revit MEP has built in calculators that allows MEP engineers to execute sizing and pressure loss calculations as per the industry standard methods and specifications

At XS CAD, we have developed the required expertise and extensive knowledge of providing Revit 3D BIM Modelling and MEP coordination drawings services to MEP engineers, MEP consultants and MEP trade contractors in the US, UK, Canada, Australia and India. To learn more about our Revit MEP Services, drop us an email or call us for more information.