Passive House buildings rely on a constant supply of filtered fresh air, provided by a heat or energy recovery ventilator (HRV/ERV). Fresh air is delivered to the primary living areas, and stale air is exhausted from the “wet” areas—bathrooms, kitchens, and laundry rooms. (Note—the kitchen exhaust is not a replacement for a properly-sized range hood.) There are several important characteristics of this equipment: Fresh air is delivered and stale air…
Passive House residential ventilation seems like a fairly straightforward topic on the surface. You install a whole-house heat-recovery ventilator (HRV) or energy-recovery ventilator (ERV), exhausting stale air from the wet areas of the house and supplying fresh air to the primary living and sleeping areas. (I’ll use the term HRV to represent both types of equipment throughout the remainder of this article). Unfortunately, the Passive House design guidelines don’t always…
Based on the great interest we noticed during the round table discussion “Passive House on the Frontlines: Wildfire Smoke & Indoor Air Quality” we would like to share the following two articles on this topic with you: “How Do You Sell a 'High-Performance Home?” by Lloyd Alter who is Design Editor for Treehugger “Keeping the Smoke Out” by Cameron Munro & Joel Seagren
We know that the airtightness and filtered fresh air ventilation of Passive House design delivers superior indoor air quality to residents. These benefits are well-documented and are a key reason that many choose to live or work in Passive House buildings. But what happens when wildfire smoke creates unprecedented levels of pollution with astronomical particulate counts and AQI indices of 600 or higher? Is the superior indoor air quality of…
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