flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Sealing the deal: An easier way to dike air leaks in buildings

Energy Efficiency

Sealing the deal: An easier way to dike air leaks in buildings

An aerosol product injected into ductwork allowed Hyundai to open its new U.S. HQs on time.


By John Caulfield, Senior Editor | March 19, 2015
Sealing the deal: An easier way to dike air leaks in buildings

This image shows how the sealant is injected into the shafts. Photo courtesy Hyundai

Energy efficiency has become such a common goal for new construction these days that it’s easy to forget that not every building is perfectly made, and that fixing problems that reduce a building’s efficiency after the construction work is mostly completed can be an expensive, lengthy process.

The Department of Energy estimates that hat 85% of buildings in the U.S. lose 30% to 40% of treated air through duct leaks, which can result in sizable energy costs, ventilation systems that don’t work, and mold and mildew problems.

Hyundai faced this very issue only weeks before the January 2014 scheduled opening of its $200 million, 500,000-sf, six-story U.S. headquarters in Fountain Valley, Calif. That opening was in danger of being delayed for months when excessive leaks were discovered in the structure’s four smoke evacuation shafts and outside air shaft.

Brian Berg, an associate principal with Glumac, the project’s Engineer of Record, notes that the building’s design posed some major challenges. The architect, Gensler, had specified that it didn’t want structural beams in any of the building’s usable space. So where to put those beams was left to the mechanical engineering team.

The decision was made to run beams and conduit through the building’s 8- by 6-foot shafts, which doubled as the building’s air ventilation system because the structure had been designed with no sheet-metal air ducts.

However, all of that metal running through the shafts inevitably poked some holes in them. In addition, not all of the joints in the shafts had been sealed properly. Testing determined that 14,861 cubic-feet-per-minute of air was leaking, or about 20%, well in excess of the 5% limit allowed by building codes.

“The supervisor on the Building Team was pretty tough,” wasn’t going to sign off on this project until the leakage problem was rectified, recalls Bob Evans, Hyundai’s Senior Project Manager. (Hyundai Amco America was the project’s GC.)

 

Hyundai shows how the sealant is injected into the shafts. Photo courtesy Hyundai

 

One solution considered was to build scaffolding inside each shaft in order to seal visible leaks in the interior fiberglass drywall by spraying those walls with rubberized foam. However, that process would have cost up to $1 million and would take months to complete.

Berg says he reached out to Glumac’s other offices around the country, and heard back from its Las Vegas office, which had just solved a leakage problem in a new city center it was working on by using a technology called aeroseal, which seals leaks from the inside of pressurized ductwork.

This product has been around since the mid 1990s, and its development funding had been sponsored by the Department of Energy. Evans says he had heard about it, but thought it was “like snake oil; you know, too good to be true.” But he did some research and found that aeroseal had been effective in sealing bricks and mortar buildings.

AWC, a certified aeroseal contractor, came on board and took a couple of weeks to complete the shafts, at a cost that Evans estimates was less than $150,000. The Building Team opened walls on at least one floor to conduct testing, and found that the leakage had fallen to 808 CFM, or less than 1.1%. A bonus, says Evans, is that the aeroseal sealed around the electrical plates and boxes, too.

The headquarters building was completed on time and opened on schedule. Berg says he’s been recommending aeroseal for other projects ever since, especially for existing buildings that can have a lot of leakage over time but would be difficult to fix.

 

 

This is what the shafts look like after the sealant is injected. Photo courtesy Hyundai

 

A tool measuring the air leakage after the shafts were sealed (less than 1%). Photo courtesy Hyundai

Related Stories

| Aug 11, 2010

LEED 2009 cites FloorScore Certification as indicator of indoor air quality

The U.S. Green Building Council (USGBC) has cited FloorScore® certified flooring products as eligible for credits under the new LEED 2009 Version 3 guidelines. Reflecting the inclusion of FloorScore, the new LEED IEQ Credit 4.3 for Low-Emitting Materials has been expanded from “Carpet Systems” to “Flooring Systems” to include hard surface flooring.

| Aug 11, 2010

Billings at U.S. architecture firms exceeds $40 billion annually

In the three-year period leading up to the current recession, gross billings at U.S. architecture firms increased nearly $16 billion from 2005 and totaled $44.3 billion in 2008. This equates to 54 percent growth over the three-year period with annual growth of about 16 percent. These findings are from the American Institute of Architects (AIA) Business of Architecture: AIA Survey Report on Firm Characteristics.

| Aug 11, 2010

CHPS debuts high-performance building products database

The Collaborative for High Performance Schools (CHPS) made a new tool available to product manufacturers to help customers identify building products that contribute to sustainable, healthy, built environments. The tool is an online, searchable database where manufacturers can list products that have met certain environmental or health standards ranging from recycled content to materials that contribute to improved indoor air quality.

| Aug 11, 2010

29 Great Solutions for the AEC Industry

AEC firms are hotbeds of invention and innovation to meet client needs in today's highly competitive environment. The editors of Building Design+Construction are pleased to present 29 "Great Solutions" to some of the most complex problems and issues facing Building Teams today. Our solutions cover eight key areas: Design, BIM + IT, Collaboration, Healthcare, Products, Technology, Business Management, and Green Building.

boombox1
boombox2
native1

More In Category


Sustainable Design and Construction

Northglenn, a Denver suburb, opens a net zero, all-electric city hall with a mass timber structure

Northglenn, Colo., a Denver suburb, has opened the new Northglenn City Hall—a net zero, fully electric building with a mass timber structure. The 32,600-sf, $33.7 million building houses 60 city staffers. Designed by Anderson Mason Dale Architects, Northglenn City Hall is set to become the first municipal building in Colorado, and one of the first in the country, to achieve the Core certification: a green building rating system overseen by the International Living Future Institute.



halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021