08/01/2014

Air Leakage Testing: A Hot Button or Hot Air?

Find out when and where pressurization is a valuable forensic tool

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  • Blower door fan

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    A blower door Fan only 30 inches in diameter can move up to 6,000 cfm of air.

    Blower door fan
  • Tracer Smoke Outside of a Commercial Facility

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    Tracer Smoke can be used as a more qualitative method for identifying leakage locations.

    Tracer Smoke Outside of a Commercial Facility
  • /Portals/1/images/Magazines/2014/0814/Article_Images/B_0814_Pressure_Testing3.jpg

    Energy Savings from Air Tightness Improvement

  • /Portals/1/images/Magazines/2014/0814/Article_Images/B_0814_Pressure_Testing4.jpg

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    PIERCE COUNTY PARKS AND RECREATION

Blowing air into your building can prevent you from blowing your stack about its envelope performance.

Air leakage testing quantitatively measures air seeping through your enclosure. The process involves pressurizing a space with blower door fans to create a detectable differential across the envelope.

But it’s not always an appropriate method for problem detection. Pressure testing is necessary when problems have become particularly invasive or if quantitative analysis is desired to prove compliance, verify performance, or identify opportunities for upgrades.

Become an educated consumer of this service by building a rudimentary understanding of building science and enclosure performance. They say not to judge books by their covers – but the same can’t be said of buildings.

Contemplate the Clues

Looking for issues actually starts with listening. Heed occupant complaints as a source of valuable information. “If there are problems, your people will let you know,” says Dean Lewis, education and technical information manager at the American Architectural Manufacturers Association, which provides standards on testing methods for the industry.

Clues and Calamities

Develop a basic knowledge of building science and the physics of building enclosure performance before turning to expensive field testing, advises Daniel J. Lemieux, principal and unit manager at engineering firm Wiss, Janney, Elstner Associates.

Inappropriate or unnecessary testing can lead to false results and misguided repair efforts. These pitfalls can be avoided if you know what you’re looking for. Consider Lemieux’s warning signs and the potential problem resulting from them.

1. Water staining or moisture presence at interior drywall soffits, blind-pockets, lay-in ceiling tiles, and above windows and doors In clay brick and concrete masonry cavity wall construction, this could indicate defects in the through-wall flashing above the windows and doors rather than defects in the window and door products themselves, a common source of misdiagnosis.

 In architectural precast concrete and similar barrier-type exterior wall construction, this may reveal wintertime condensation on the inboard surfaces of the architectural precast concrete panels and anchors at floor-line spandrel conditions.

 This is also a potential indicator of breaches in perimeter joint sealants and gaskets often associated with improper design and installation, normal weathering and deterioration, or deferred maintenance.

2. Water staining or moisture presence on interior window and door frames, vertical mullions, inboard glass surfaces, and similar areas In addition to the situations above, this might point out defects in the installation of interior zone-dams, end-dams, and seals at frame joinery in exterior window and glazed aluminum curtainwall assemblies. Repair may require de-glazing or perhaps conversion of internally drained windows and curtainwall assemblies into barrier-type assemblies that rely on an additional exterior joint sealant to resist rainwater penetration.

3. Water staining, moisture presence, or formation of wintertime frost on interior window frame, sill, and inboard glass surfaces at insulating glass unit perimeters (IGUs)

In cold climates or regions that experience unexpectedly cold wintertime outdoor air temperatures, this could show thermal bridging at window anchors, sub-sill flashing and frame receptors, and aluminum or stainless steel spacer-bars used in the assembly of IGUs.

4. Wet carpet or water staining and related damage to interior floor finishes at exterior wall lines In addition to potential breaches in perimeter joint sealants and gaskets of exterior wall systems, this may also indicate wintertime condensation and thawing of frost on the inboard surfaces of the architectural precast concrete panels and anchors at floor-line spandrel conditions.

5. Discoloration on interior or exterior wall surfaces, either in the field of the wall or in-line with metal studs and fasteners This may indicate thermal bridging across the enclosure or improper design, placement, and installation of a continuous insulation layer, vapor retarder, and air barrier.

6. Inability to effectively maintain a consistent and comfortable indoor environment for occupants This could also reveal the lack of a properly installed continuous insulation layer, vapor retarder, and air barrier.

IAQ surveys may turn up comments on dust, mold, pests, and exterior noise, explains Lee Durston, senior building science consultant at engineering firm Morrison Hershfield. Although it may be easy to disregard their remarks, use occupants as your eyes and ears in the field.

Perhaps the most fickle and frustrating complaints concern thermal comfort. But drafts and stuffiness can be significant indicators.

“Pay attention to the presence of personal comfort devices like heaters or fans,” recommends Doug Phelps, director of business development at window and door supplier Pella EFCO Commercial Solutions. “Seeing those is a good clue that the space isn’t performing.”

Lastly, if moisture has penetrated the system, you can be certain that air has. “Relatively common clues include water staining or the presence of detectable moisture at various locations like wall surfaces, ceiling tiles, window and door frames, or carpet and flooring finishes,” explains Daniel J. Lemieux, principal and unit manager at engineering firm Wiss, Janney, Elstner Associates.

It can be helpful to make a few notes in cases of apparent water leakage failure. “Were leaks noticed during a severe storm? Did your local news outlet comment on particularly strong winds or wind-driven rain?” says Lewis. “That information can assist in evaluating whether the system actually failed to meet its ratings or if conditions exceeded the manufacturer’s design.”

Now that you know what evidence to look for, you can ascertain whether pressure testing can further your forensic investigation.

Mull Methodology and Motivation

If any combination of the aforementioned clues has been observed at your site, air leakage testing can help you identify the root causes. If a problem becomes invasive, you want to be sure to get the solution right the first time.

“Pressure testing is a troubleshooting tool in a lot of practices,” says Ned Lyon, staff consultant at engineering firm Simpson Gumpertz & Heger. “But it is also used as a way of quantifying or categorizing performance.”

The need for quantitative testing continues to increase as energy code requirements for airtightness become more stringent and designers include targets for specialty high-humidity buildings such as pools and museums, Lyon explains. The 2012 International Energy Conservation Code requires a dedicated air barrier for the enclosure and allows whole building air leakage testing to demonstrate compliance.

Similarly, pressure testing is used to prove the performance of certain construction projects and upgrades. After making improvements to glazing, storefronts, curtainwalls, or other envelope components, make sure the manufacturer measures and verifies their claims.

Regardless of your motivation for implementing pressure testing, having a basic understanding of how the process works will help you get the most out of it.

A calibrated fan about 30 inches in diameter can move up to 6,000 cfm of air, explains Lyon. A frame and cover mount up to three fans to a doorway. The fans then create a pressure differential across the building enclosure. Although some crafty FMs attempt to crudely mimic pressurization with makeshift methods, this intensive procedure necessitates outside expertise.

“We’ve received questions like, ‘My windows are leaking – how close should I be able to hold a cigarette lighter without it blowing out?’” adds Lewis. “Variations of do-it-yourself testing have involved leaf blowers and garden hoses, but there are no ‘kitchen drawer’ tests for air leakage or water penetration.”

The size of your building and scope of the test will determine where to go for help. “There are several small firms that can handle residential-size buildings and one- or two-story structures,” explains Lyon. “A local utility program may even perform blower door testing as part of an energy audit. When you start moving up in size, you run into trouble.”

Designing and setting up a test is an art, Lyon adds. Computer controls monitor multiple fans at once, and although the actual test may only take a couple hours, the planning can take several days.
A simpler and perhaps less costly approach is to shirk measuring leakage and instead utilize tracer smoke to visually identify problem spots. “Looking around outside for the smoke can help you find leakage locations,” says Lyon. “It’s a more qualitative method.”


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Our mission is to help our customers manage their buildings' energy costs, improve reliability, and enhance performance while having a positive impact on the environment.
CLICK HERE to find out how.

Bluebeam® Revu® simplifies digital facilities document management from design review to leveraging as-builts, maintenance manuals and O&Ms submittals.

 


Visit our website today to learn about the design flexibility of a Morton building and the endless possibilities of partnering with our designBUILD team.


Wood construction is both cost and energy efficient. Check out Morton Buildings and our designBUILD team online today to discover all the benefits of post-frame construction.


When choosing a metal-clad building for your next construction project, consider Morton Buildings, Inc., and their designBUILD team, we’ll make your dream a reality.

We Can Help You Reduce Energy by 30%

Our mission is to help our customers manage their buildings' energy costs, improve reliability, and enhance performance while having a positive impact on the environment.
CLICK HERE to find out how.

Bluebeam® Revu® simplifies digital facilities document management from design review to leveraging as-builts, maintenance manuals and O&Ms submittals.

 


 
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