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3398 Washington Road
Atlanta, GA 30344
USA

773.398.5288

Advanced residential construction and home improvement consulting and owner's advocacy in Atlanta, using the latest building performance diagnostic and modeling techniques and tools. Airtightness, insulation, HVAC, ventilation, moisture, and air quality and EMF consulting for homeowners and building professionals alike.

Videos/Podcasts/Articles

Home performance articles and stories from the field with internationally respected building forensics guru Corbett Lunsford at the Building Performance Workshop. Hear new episodes of the Building Performance Podcast, see new videos from the Home Performance YouTube channel, and learn all about how diagnostic testing (more than an 'Energy Audit') can make home improvement and new home construction a proven process!

Filtering by Category: Technical Articles

Borderline of Balanced Ventilation: When Bath Fans Won't Work, and an ERV Becomes Necessary at Home

Corbett Lunsford

We almost never recommend that our clients go with Energy Recovery Ventilators (ERVs) for efficiency reasons- it always comes down to the air tightness of the home. At a certain point, bath fans all over the home stop being helpful and actually become a serious liability for indoor pollution, humidity control, and predictions of performance overall. Let's dive into the free online calculator (https://www.redcalc.com/depressurization-analysis/) that I use in most of my consultations, and how to evaluate the numbers it generates.

Take my Ventilation Training and learn all that I know about this complex topic: https://buildingperformanceworkshop.com/ventilation

Get trained and certified by me to run blower door and duct testing: https://buildingperformanceworkshop.com/det-verifier

What Size Humidifier or Dehumidifier Do I Need for my Home? Humidity Calculations Demo

Corbett Lunsford

This is mathy, but it’s not anything too difficult for anyone to understand I think. There are lots of nuances and caveats, which I think make the whole thing more interesting! Ideal absolute humidity range is ~35-65 grains per pound.

∆Gr/lb = Inside gr/lb - Outside gr/lb

Gr/hr = ∆Gr/lb x CFM x 4.5

Lb/hr = Gr/hr / 7000

Lb/day = Lb/hr x 24

Gal/day = Lb/day x 0.12

Pints/day = Gal/day x 8

How NOT to Pick HVAC Registers and Grilles: Aria Vents Test Data Reviewed

Corbett Lunsford

One of my HVAC design clients sent me a question about these vent covers he found online, and it cracked open the whole basket of eggs. Here's a brain dump on how to look up the performance data on products like this. Here's a brand of decorative grilles that perform well- I know because I test them: https://stellarairdecorativeventcovers.com/

Learn WAY more about HVAC on our playlist: https://www.youtube.com/playlist?list=PLsc2-5fAgMq5yJOp-kliEoYVML8dS1G2f

Join our Patreon group for exclusive access to us and our work behind the scenes: https://Patreon.com/HomeDiagnosisTV

Advanced Home Ventilation: Harnessing Pressure Imbalances

Corbett Lunsford

Using his family's home as an example, 'Home Diagnosis' co-host Corbett Lunsford demonstrates several options for configuring the air purification systems and explains how he chose the best setup for his family. Using the Fantech VER200, HEPA filter unit, and Mitsubishi FH09 series mini-split.

More on this build at: https://HomeDiagnosis.tv/atlanta-homestead

Exterior Insulation and Deck Details with Matt Risinger

Corbett Lunsford

Corbett's stuck on how to both structurally support the decks on his build and ALSO to allow for exterior insulation behind the ledger. He turns to Build Show expert builder Matt Risinger on how to support, dry, and insulate this connection point.

PODCAST #52 NOT YOUR GRAMMA'S BUILDING SCIENTIST: Iain Walker on air tightness, testing, and the origin of stinkiness

Corbett Lunsford

Today we talk with Dr. Iain Walker of Lawrence Berkeley National Laboratory about the frontier of air tightness, fresh air ventilation, and why we're arguing about it in the first place.

To download this episode or hear more, subscribe in iTunes or visit BuildingPerformancePodcast.com

Buildingperformancepodcast.jpg

Ventilate it right, and Ventilate it Right. Did I say Ventilate?

Grace McPhillips

We recently ordered ourselves a copy of the new ASHRAE 62.2-2013 standard and today I spent some time sifting through the madness.

In Illinois, this is becoming a pretty regular topic of discussion since all new construction requires mechanical ventilation. Plenty of our clients are still using exhaust only ventilation under the 62.2-2010 standard, but as Joe Lstiburek pointed out in this article, it doesn’t always work as planned. And as an energy modeler, I personally know that designers who use exhaust only ventilation with the new standard are going to be hit hard with some serious energy penalties from the increased rates. While this is not meant to be totally encompassing, here is a quick synopsis:

  • Mechanical vent rates have been increased to a total ventilation base model of  7.5cfm( Bedrooms+1) + 0.03cfm(Floor Area) and no longer assume default leakage of 2cfm/100ft^2
  • In order to take credit for infiltration, a blower door must be performed, and Effective leakage area, Normalized leakage, and effective annual average infiltration rate must be calculated. The required mechanical ventilation rate is the difference from the total ventilation and the effective annual average infiltration rate [the effective annual average infiltration rate must be NO GREATER than 2/3 of the total ventilation rate]
  • 2013 standard assumes no ‘reasonable’ leakage in multifamily buildings
  • CO alarms are now required in all dwelling units
  • Similar to previous standards, does not address unvented combustion sources, material off-gassing, smoking, etc…
  • Thermal comfort not considered in ventilation strategies
  • Ventilation rates must be measured and net ventilation must meet the required ventilation
  • When atmospheric OR solid fuel burning appliances are within pressure boundary, the net sum of the two largest exhaust fans must not exceed 15cfm/100ft2. If this occurs, capacity must be reduced or outdoor air must be introduced.
  • Ducts/air handlers outside the envelope must be sealed to reduce leakage to a rate of 6% of total airflow when tested at 25Pa
  • Mechanical systems that supply air though 10 or more feet of ductwork AND through a thermal conditioning component require a minimum MERV 6 filter
  • Multifamily dwelling units must meet the total ventilation rates of a single family home, with no credit for infiltration
  • Corridors and common areas of multifamily buildings must be ventilated to 0.06cfm(Floor Area)
  • Existing building shall be ventilated to the total ventilation as described above and no credit for infiltration may be used unless it is tested. If the credit for infiltration is greater than the total required ventilation, no ventilation is required.

In short, what this says to me is that all buildings need to be tested with a blower door to take advantage of the infiltration credit, and that all ventilation systems should be balanced (meaning supply outdoor air = exhaust air) with heat/enthalpy recovery systems. If you on the ground trying to collect all the dropped HERS points you can, you may just have to make some changes to your ventilation design in order to do so. Luckily, blower doors are required in our state already – but calculating that infiltration credit is something that will cause most designers to pull their hair out…