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BIM Use in Retrofits: Ask the Right Questions First

When it comes to using BIM for existing buildings, the question often is not simply “what can you model?” but “what should you model?” The answer may vary by discipline.

A structural engineer’s scope in a renovation is often smaller than that of the architects or mechanical engineers. It may not be an efficient use of time and resources to model areas of a building that do not require structural or mechanical modification. On the other hand, the owner or client may decide that the current project is an excellent opportunity to update the documentation for the entire building, in which cases the scope is adjusted accordingly.

Below are questions you should be asking first to help make BIM use in retrofits projects easier.

What Should You Model?

The absolute minimum model requirements for an existing building project are the new elements being added. The rest of the existing conditions can be shown in the background, either in the form of 2D CAD files from a prior project or as underlays of architectural information from the current model.

The next level up involves modeling new elements and any existing structure they connect to or affect. For example, if you are adding a new beam to support a new opening in a floor, you would model Mobdro the new beam and the elements (beams, columns, walls) that support it. You would also model the existing floor, so that you can more easily show the new opening.

If the extent of the renovation justifies it, or if the contract requires it, you may end up modeling the entire existing structure. This simplifies the question of “should we model that?”, but it adds complexity to the question “what exactly are we modeling—and how much do we really know about it?”

How True Is Your Model?

Implementing BIM for an existing building always comes with some level of uncertainty. How much uncertainty depends on what kind of existing documentation you have, and your level of confidence in it.

Usually you have some kind of construction documents for a building. But do they represent the current state of the building? If there have been previous renovations, do you have the plans for those, too? If they’re old, are they still legible? Have you done a field survey to supplement and confirm the documentation? Were you able to survey the entire building or just some of it? If you can put the answers to these questions in the model itself, it can help you down the road when you’re trying to figure out if that beam really is where it’s modeled, or if it just represents the best guess at the time.

One possible approach to this challenge is a three-level classification scheme for documenting the confidence in the accuracy of the information contained in the model. At the top of the scale are elements that have been verified in the field. Someone has gone out with a tape measure, laser scanner, or other survey equipment and confirmed the dimensions, plan location, and elevation of the object.

Next are elements that have been identified with non-destructive evaluation. This could include x-rays, ground-penetrating radar, etc. The data gained from these methods are somewhat less precise than field measurements, with the level of uncertainty varying based on the method used and the type of information desired.

The last category is for elements that are placed in the model based solely on existing documentation or because of symmetry. (If part of a hallway has a certain floor thickness, it’s often a pretty good assumption Mobdro APK that the rest of hallway uses the same floor. But it’s still an assumption.)

Each element in the existing model, as it’s placed, is tagged with one of these three categories. If additional information is gained later, the category can be updated. But in the meantime, it helps determine how “real” the element is if you know what kind of information it’s based on.

This approach requires a lot of data management—more than you may be used to on new construction projects. But it will pay off when you can tell just by selecting a beam or wall how good the information was that put it there.

Who’s Modeling What, and How?

Using BIM for an existing building also can add more questions to the conversations about coordination. If only the architect is modeling the existing walls, how will they work in the structural model? Are there settings the architect can use that will allow the walls’ graphic display to meet everybody’s in-house standards, or will somebody have to adjust? If you know that a floor is framed with 12-inch-deep beams, but you don’t know their exact location, how will you handle that? Is it enough to model a basic floor element, or does the mechanical engineer need to have individual elements laid out for clash detection?

Another wrinkle that can appear is how to deal with prior modifications. Let’s say a building was originally constructed in 1960, renovated in 1980, and is now being redone again. The 1980 project probably involved some demolition. Will you model each element as it was created and demolished, or is it enough to document the current conditions? The choice you make will likely be based on a combination of factors, including availability of existing documentation and intended end use of the model. The better the documentation and the more involved the end use, the more likely it is that it will be a worthwhile effort to track previous construction phases.

At times, it can seem that dealing with existing buildings generates more questions than answers—and this article is no exception. But by asking the right questions, you can find the right answers for your project and leverage the power of BIM for buildings new and old.

Article originally published as ‘BIM Use in Retrofits: Ask the Right Questions First to Make the Job Easier’: http://lineshapespace.com/bim-use-in-retrofits/

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A2K Technologies is an industry-leading solutions, training, consulting and management firm specialising in the design technology space. With a multi-million dollar turnover and over 150 staff across Australia, New Zealand and China; A2K Technologies is Australia’s largest Autodesk re-seller.

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