In the wake of natural disasters and school shooting incidents, education professionals across the country are looking for innovative ways to better protect children while they learn. A new building approach from Salt Lake City, Utah-based Leland A. Gray Architects is designed to contribute to that goal.
The firm is adapting the concrete thinshell structural approach for K-12 schools in Utah, according to a report by KSL.
The domed building, which the architect calls "virtually indestructible," uses an air-formed thin-shell concrete dome, along with a concrete stem wall. The system was created for assembly buildings such as schools, churches, and arenas, but some school disctricts are finding that it works well for K-12 school buildings, as well.
To build one of these structures, the roofing membrane is formed into a dome shape with a 31-ounce PVC material. A concrete ring on the stem wall is attached to an air form, and the membrane is inflated by air pressure to the size of the dome. Then, the underside of the membrane is sprayed with a urethane insulation to a depth of 3 inches over the entire surface of the membrane.
Steel reinforcing bars are then placed in an interlocking pattern across the dome's underside. Finally, according to Leland Gray's website: "The reinforcing steel is built up to 4 feet high around the base of the dome and sprayed with shot-crete. This process continues in 4-foot-wide bands from the base to the top of the dome. The concrete will be 8 to 10 inches thick at the base, tapering to 3 to 4 inches thick at the top."
Schools like this have already been built in Utah and in other places across the country, in part, because they are relatively inexpensive to build and they can save school districts money in utilities.
According to KSL, which did a story on dome schools in Locust Grove, Utah, "both the elementary and the high school in Locust Grove cost $94 a square foot to build. That's a deal, considering the price for school construction in the U.S. ranges from $150-$250 a square foot." In addition, the superintendent of the district told reporters that these buildings cut utility costs by 40%.
Read the full KSL story here.
Check out the video below to see what goes into a concrete thinshell dome, and what one looks like from the inside.
Related Stories
| Nov 3, 2010
Dining center cooks up LEED Platinum rating
Students at Bowling Green State University in Ohio will be eating in a new LEED Platinum multiuse dining center next fall. The 30,000-sf McDonald Dining Center will have a 700-seat main dining room, a quick-service restaurant, retail space, and multiple areas for students to gather inside and out, including a fire pit and several patios—one of them on the rooftop.
| Nov 2, 2010
11 Tips for Breathing New Life into Old Office Spaces
A slowdown in new construction has firms focusing on office reconstruction and interior renovations. Three experts from Hixson Architecture Engineering Interiors offer 11 tips for office renovation success. Tip #1: Check the landscaping.
| Nov 2, 2010
Cypress Siding Helps Nature Center Look its Part
The Trinity River Audubon Center, which sits within a 6,000-acre forest just outside Dallas, utilizes sustainable materials that help the $12.5 million nature center fit its wooded setting and put it on a path to earning LEED Gold.
| Nov 2, 2010
A Look Back at the Navy’s First LEED Gold
Building Design+Construction takes a retrospective tour of a pace-setting LEED project.
| Nov 2, 2010
Wind Power, Windy City-style
Building-integrated wind turbines lend a futuristic look to a parking structure in Chicago’s trendy River North neighborhood. Only time will tell how much power the wind devices will generate.
| Nov 2, 2010
Energy Analysis No Longer a Luxury
Back in the halcyon days of 2006, energy analysis of building design and performance was a luxury. Sure, many forward-thinking AEC firms ran their designs through services such as Autodesk’s Green Building Studio and IES’s Virtual Environment, and some facility managers used Honeywell’s Energy Manager and other monitoring software. Today, however, knowing exactly how much energy your building will produce and use is survival of the fittest as energy costs and green design requirements demand precision.
| Nov 2, 2010
Yudelson: ‘If It Doesn’t Perform, It Can’t Be Green’
Jerry Yudelson, prolific author and veteran green building expert, challenges Building Teams to think big when it comes to controlling energy use and reducing carbon emissions in buildings.
| Nov 2, 2010
Historic changes to commercial building energy codes drive energy efficiency, emissions reductions
Revisions to the commercial section of the 2012 International Energy Conservation Code (IECC) represent the largest single-step efficiency increase in the history of the national, model energy. The changes mean that new and renovated buildings constructed in jurisdictions that follow the 2012 IECC will use 30% less energy than those built to current standards.
| Nov 1, 2010
Sustainable, mixed-income housing to revitalize community
The $41 million Arlington Grove mixed-use development in St. Louis is viewed as a major step in revitalizing the community. Developed by McCormack Baron Salazar with KAI Design & Build (architect, MEP, GC), the project will add 112 new and renovated mixed-income rental units (market rate, low-income, and public housing) totaling 162,000 sf, plus 5,000 sf of commercial/retail space.
| Nov 1, 2010
John Pearce: First thing I tell designers: Do your homework!
John Pearce, FAIA, University Architect at Duke University, Durham, N.C., tells BD+C’s Robert Cassidy about the school’s construction plans and sustainability efforts, how to land work at Duke, and why he’s proceeding with caution when it comes to BIM.