When the power division of Black & Veatch needed to perform field measurement and modeling of the complex Iatan 1 Power Plant, located near Platte City, Missouri, they engaged Structural Modeling & Analysis (SMA), a Kansas City-based firm specializing in structural engineering design and analysis as well as laser scanning and modeling. SMA was brought in at the urging of Kansas City Power & Light Company (KCP&L) in order to save time and money while navigating the unique challenges created by a pipe-dense plant. The job entailed laser scanning the site to collect all the data, registering, making a model showing all the piping in Autodesk® Revit® and exporting it out in AutoCAD® to deliver results, enabling the safe and successful installation of a new heat exchanger.
Challenges
Black & Veatch, a large engineering, procurement and construction (EPC) company, understood the complexities of the 651-megawatt (MW) Iatan 1 Power Plant site, including the quantity and density of the piping as well as how little room for error existed due to all the piping connections required between the existing heat exchangers and the new one they wanted to install. Black & Veatch did not, however, have much experience in laser scanning, therefore, SMA Engineering was contracted to conduct the condition survey of the plant.
Due to the tremendously complex, pipe-dense space, the engineer’s plan initially budgeted six to eight weeks for field measurement and approximately 10 additional weeks for modeling the information from the field. In addition to the inordinate amount of time they were looking at, another concern was accuracy: trying to measure a space that was approximately 100 feet long by 50 feet wide, with two floor levels, three levels of cable trays and 2,000 pipes is a daunting task if using traditional methods such as tape measures and standard field measurement practice.
Safety and workflow at the power plant were among the other major challenges with this project. According to J Brown, P.E., S.E., Principal Engineer at SMA, “Given the multiple floors and dense piping, the safety of those performing the work would be of utmost concern. Utilizing traditional measuring methods, there would be little chance to safely access all the spaces required.” Another concern was how not to interrupt the workflow of the location, something that is critical at an active power plant.
Solutions
Time
With their expertise in utilizing laser scanner technology and modeling, the SMA team went into the space and performed a total of 93 scans using the FARO Focus3D X 330 Laser Scanner, in just 12 hours—a day and a half of work.
Prior to leaving the site, SMA began registering the scans and checking to confirm they had sufficient data to accurately model the cable tray, piping and equipment. In addition, they performed their confirmation process to back-check the scan data to the real world.
Brown explains the process further: “Once back in the office, the processing and registration was completed using SCENE, FARO’s 3D documentation software. At that point, the scan data was run through Autodesk® ReCap 360™ to create the files for use with Autodesk® Revit®. Then, we used Trimble EdgeWise to very rapidly convert the laser-scanned pipes into Revit® component pipes. We used EdgeWise to model the pipes and perform the rest of the modeling within Revit®, thereby extending the usefulness of the point cloud.”
While there was a fair amount of tweaking to account for some false positives, the software did an excellent job in terms of being able to get a very large amount of data switched over. This aspect of the job took another three weeks, followed by another two and a half weeks for cleanup, finishing, connecting pipe elbows, etc.
So, while Black & Veatch originally estimated spending six to eight weeks on field measuring alone, and an additional 10 weeks for modeling, SMA was able to accommodate a much shorter window. Mark Middleton, SMA’s Business Development Manager adds, “After the scanning, SMA modeled all of that piping—over 2,000 pipes, three levels of cable tray, two giant heat exchangers and a mezzanine level and ground level floor space. With the scanning technology in place, we were able to scan, register and model everything in only five and a half weeks total.”
Safety and Accessibility
Due to the portability of the scanner vs. a more traditional method, the risk factors on the job were minimized—for instance, the mobility to safely take the system up a set of stairs. On the second level, for example, the KCP&L team lifted a grate, allowing SMA to flip the scanner upside down, shoot it down into the hole and then shoot it all the way down the cable tray. Brown notes, “It would have been physically impossible, not to mention a huge safety issue, to actually climb out on those pipes. Therefore, using the scanner enabled us to access the 2,000 pipes, most of which we would not have been able to get to using traditional field measure protocols. We were able to scan the top surface and the underside because we were able to flip the laser scanner upside down.”
SMA was able to perform the work from ground level (either the floor or the mezzanine platform) instead of using a scissor lift or scaffolding—or just not being able to get the data at all.
Bottom line, laser scanning allowed the team to capture areas that would otherwise be too dangerous, impractical, or impossible to document with a tape measure or traditional methods of field measurements.
Accuracy
Being able to scan and collect data from both the top surface and underside allowed SMA to establish the pipes’ outer diameters with much greater accuracy since they essentially had access to the entire cross section. If they only had the bottom side, for instance, they would have just gotten portions and the software would have had a much harder time assigning pipe diameters. (Note: since most of the pipes were insulated, only the outer diameters could be measured.)
SMA was able to model the existing heat exchangers and showed the space available for the new exchanger. The model accurately located all of the pipes, cable tray, lighting, etc. that new lines for the new heat exchanger would have to be routed around and/or identified existing lines that would have to be re-routed.
Workflow
Using the eye-safe FARO Focus3D X 330 allowed SMA to work without endangering the employees or causing a disruption to the normal plant operation. J Brown notes, “The unobtrusive nature of the scanner resulted in no interruption to workflow, a critical factor for the functioning of a power plant. There was no need to section off any areas for the team. The plant was operating while they were working and there were adjacent KCP&L employees working in the area as well.”
Results
Deliverable
SMA modeled the site in Revit® and then exported it out in AutoCAD®, which is what the client required.
Time savings
The client estimated six to eight weeks of field measurements and 10 weeks of modeling to convert those measurements to the required AutoCAD® model. Creating an as-built condition survey with a laser scanner, a 16- to 18-week project was minimized to just over five weeks total, saving a total of 13 weeks from the worst-case projection.
Cost savings/ROI
The client charged approximately $180/hr x 2 people in field + 3 people doing design work. SMA estimates that they saved the project approximately $80,000 based on what they were initially told the field measurements and modeling would cost.
Conclusion
As stated on the SMA website, “When you consider the cost of sending a team to be on site for days or weeks to gather a few hundred to a thousand measurements using traditional methods—and compare it to being on site for a fraction of that time and picking up millions if not billions of measurements—the cost of laser scanning pays for itself.”
Related Stories
| Dec 29, 2014
14 great solutions for the commercial construction market
Ideas are cheap. Solutions are what count. The latest installment in BD+C's Great Solutions series presents 14 ways AEC professionals, entrepreneurs, and other clever folk have overcome what seemed to be insoluble problems—from how to make bricks out of agricultural waste, to a new way to keep hospitals running clean during construction.
| Dec 29, 2014
HealthSpot station merges personalized healthcare with videoconferencing [BD+C's 2014 Great Solutions Report]
The HealthSpot station is an 8x5-foot, ADA-compliant mobile kiosk that lets patients access a network of board-certified physicians through interactive videoconferencing and medical devices. It was named a 2014 Great Solution by the editors of Building Design+Construction.
| Dec 28, 2014
Robots, drones, and printed buildings: The promise of automated construction
Building Teams across the globe are employing advanced robotics to simplify what is inherently a complex, messy process—construction.
BIM and Information Technology | Dec 28, 2014
The Big Data revolution: How data-driven design is transforming project planning
There are literally hundreds of applications for deep analytics in planning and design projects, not to mention the many benefits for construction teams, building owners, and facility managers. We profile some early successful applications.
| Dec 28, 2014
Using energy modeling to increase project value [AIA course]
This course, worth 1.0 AIA LU/HSW, explores how to increase project value through energy modeling, as well as how to conduct quick payback and net present value studies to identify which energy strategies are most viable for the project.
| Dec 28, 2014
The lowdown on LODs: Bringing clarity to BIM
These days, BIM is par for the course across most facets of design. But a lot of the conversation surrounding BIM still lacks clarity due to ambiguous terminology, a lack of clear-cut guiding illustrations, and widely varying implementation, writes GS&P's John Scannell.
| Dec 23, 2014
5 tech trends transforming BIM/VDC
From energy modeling on the fly to prefabrication of building systems, these advancements are potential game changers for AEC firms that are serious about building information modeling.
Sponsored | | Dec 16, 2014
Quadcopters save project team $15K in warranty work
On a recent trip to see what technology Todd Wynne and the rest of the team at Rogers-O’Brien Construction have been tinkering with, I had a chance to experience firsthand which new hardware innovations will one day be applied in the AEC space.
| Dec 8, 2014
The year’s boldest BIM/VDC themes
High-speed rendering software, custom APIs, virtual reality tools, and BIM workflow tips were among the hottest BIM/VDC topics in 2014.
| Dec 5, 2014
Plotting on the go: 3D-printed mechanical compass can print CAD drawings with high precision
Design student Ken Nakagaki has adapted a device to work with CAD software to replicate digital files on paper.