Last Updated on April 16, 2021 by Admin
According to the U.S. National Building Information Model Standard Project Committee, a Building Information Model “is a shared knowledge resource for information about a facility forming a reliable basis for decisions during its life-cycle; defined as existing from earliest conception to demolition.” We have discussed here the uses and benefits of BIM in the Construction Project.
What is BIM?
Building Information Model or BIM is a 3D virtual model of a construction project. The BIM models represent the true geometry of building elements.
BIM is the method of digitally generating and handling knowledge during the life cycle of building projects. It is the interactive representation of any element of the asset constructed. It facilitates a shared knowledge sharing network that is continually updated at key points, with every component detailed during the development, planning, and construction processes. Nowadays BIM is one of the great career options for engineers.
BIM is the practice of combining 3D models of the different (architectural, structural, energy, electrical, etc.) disciplines into a standardized model to ensure continuity across a commercial project planning, design, and development.
BIM, a new approach to design and development, allows designers to refine cost estimates based on the real components that can be included in the construction process, and on their projections. Better models and greater contact with the customer from the initial design level are also provided by BIM. In contrast to the conventional 2D approach to tendering, design, and construction, the adoption of BIM gives contractors some advantages.
- BIM | Building Information Modeling | A Great Career Option For Engineers
- Blending GIS & BIM: A Novel Approach In Infrastructure Development
- What is Blockchain and its impact on the construction industry?
- Digital Construction | What Is Digital Construction Management?
- Data Science for Construction, Architecture, and Engineering | Free Online Course
BIM strengthens team management and collaboration, allowing the different group participants to quickly change the planning and development processes.
For accurate project cost estimates, for faster planning and to increase the overall management and maintenance of the site, BIM models produce useful data for contractors.
BIM decreases the amount of time required for rework, with several defects found before development starts. Digital projects illustrate disagreements, allowing early rectification of concerns and saving time on-site during the development process. This reduction in rework could also allow contractors to save cash on costly professional fees.
BIM In Construction
BIM in construction is the use of digital 3D models during the construction process. BIM has been widely used in architecture and engineering for more than twenty years, but the use of BIM in construction has only begun to gain momentum in the past five.
BIM collaboration software now makes it easy to put the benefits of BIM to work in construction by putting models into the hands of the entire project team in a coordinated fashion to accelerate reviews and identify and resolve clashes earlier.
- Image Source: Autodesk.com
Benefits of BIM in a Construction Project
With BIM technologies all types of buildings can be built, models developed or whole building details can be captured in one model. In the context of a virtual model, you can easily add material forms, heights, features, and other parameters that represent the elements of a building. There are several benefits, some of which appear below.
Better Teamwork: You will keep updated on even the slightest improvement with BIM’s collaboration capability. All concerned – from engineers to contractors – would be upgraded to even the least practicable improvements in the construction of the building. This simplifies teamwork and governance even more than conventional concept approaches.
Real-time Visualization: One of the key difficulties with paper projects, or even 2D designs, is that the whole of a concept is not encapsulated. That is, in a real-world situation, you cannot always visualize the project. Customers can also find designs unimpressive for this purpose. By comparison, BIM enables any part of a project to be compiled into one whole design, including comprehensive floor plans and 3D drawings.
Recreations gave by BIM can likewise permit clients to picture their projects in true circumstances. This empowers clients to envision their tasks on various occasions of day, including the cumulative performance of resources. Also, with the assistance of Augmented Reality and Virtual Reality, you can see your whole plan before you even go into development.
Quick clash detection: Project models are produced independently of one another by architects, structural engineers, MEP engineers (HVAC, electrical, and plumbing), environmental engineers, and other professionals. Once all the models have been incorporated into the BIM modeling process, clash detection is shown in the image.
The method of clash detection determines where the separate models clash with one another where components from one model overlap the components of models from other disciplines of architect-engineering design.
Better level of work done: Time is crucial when it comes to construction in the AEC market. You end up setting back the whole project if you screw up a point in the lifecycle of a building. However, with BIM, you don’t waste as long on tasks, so you can organize them in such a succinct way.
Usually, when you use BIM, each object in your template is linked to a database. Therefore, each adjustment that you make to one part of a product will be made to other versions.
Thus, the adjustment is then applied to the accompanying 3D models if, for example, you draw a line on a plan by using BIM. It is then added to the building schedule and information immediately. Essentially, any edit you make is done at every point of the project.
This ensures that the whole manufacturing chain can be speeded up and workers’ wages can be saved. That also ensures that the acceptance times of the customer are increased.
Closer to sustainability: Utilizing BIM as a basic part of configuration implies that you can coordinate maintainability into your plan cycle. Under conventional plan and development measures, you’d need to do ecological investigations after the plan was finished. In the event that any issues emerged, it would be both expensive and troublesome.
BIM, by correlation, permits clients to render environmental investigations. You can investigate viewpoints like structure direction, energy use, and sunlight.
With BIM, sustainability turns into a vital part of the plan cycle—you would now be able to look at energy proficiency, waste control, water management, and many more.
Furthermore, discovering issues in investigations no longer sets the plan cycle back—you can make fast and simple changes to virtual models instead of redesigning them. Also, a paper-free AC environment with cloud storage and collaborative processes can be developed.
Why Green Ecomes Solutions?
With more than 5 years of experience in delivering BIM project, We the Green Ecomes Solutions (GES) have the expertise to deliver highly detailed and high-quality BIM models. We are proficient in delivering BIM models to the detail of LOD 500. GES specializes in delivering projects requiring 3D to 7D BIM approach.
Green Ecomes Solutions (GES) is one of the top BIM companies in Pune offering BIM outsourcing services throughout the globe.
The idea of GES rests strongly on the foundation of using technology for sustainable construction. We continuously research and implement the latest tools and trends in technology and optimize their use for construction consultation.
We have successfully completed more than 5 million sq. ft. of Consultation and we continuously look forward to challenging opportunities in construction projects.
Our holistic approach of designing into a 3D BIM environment and evaluating the project smartly and sustainably for Time & Cost helps our client in Integrated Project Deliveries.
About the Author: