March 6, 2014: Airtightness testingWith most of the rough mechanical, electrical, and plumbing work complete, it was time to test the Grant residence Passivhaus for airtightness.We scored approximately 0.75 air changes per hour (ACH) at 50 pascals (Pa) of pressure. Although this is four times tighter than the current energy code requires, it’s not good enough to meet the Passivhaus standard, which requires a reading no greater than 0.60 ach50. So we still have some tightening up to do.The bad news is that the testing did not reveal any major leaks. That means mitigating that last little bit will be extremely difficult.On top of that challenge, the items yet to be installed — the dryer vent and the fireplace flue — are inherently leaky. Wish us luck! ARTICLES BY ALAN ABRAMS A Post-Passivhaus Paradigm for Energy-Efficient DesignMakin’ WUFIA Shortcut To Sustainable Living: Downsize! Never fear. The Passivhaus occupant need not forfeit the vision of a cozy winter’s evening by the fire. There are a few wood stoves and prefabricated fireplaces on the market that are virtually airtight. They can maintain a fire at a low enough output to provide the cozy atmosphere that we naturally seek, without the disadvantages noted above.The point is, that Passive House limits some decisions, but it does not dictate them. The “tyranny” of PassivhausIn his Discourses, Plato has Hippias the Sage assert that “…law is the tyrant of mankind, and often compels us to do many things which are against nature.”The Passivhaus system is truly rigorous. Often it requires modifying a decision or restraining an impulse that would be natural in another context. Specifying an open masonry fireplace in your design program would be a triple nightmare for the Passive House Consultant to deal with:The flue damper. The darn thing would leak so much it would be nearly impossible to reach the airtightness level required to satisfy the energy models.The mass of the chimney would constitute a significant thermal bridge.Stoking up a blazing fire would probably very quickly overheat the super insulated space, forcing the occupants to open doors and windows. October 19, 2013: Under constructionOctober 19 was a gorgeous day to bike out and visit this Passivhaus project located in Derwood, Maryland. The site is surrounded by forest and abuts Lake Bernard Frank. The bike trail passes over the earthen dam, where I saw great blue herons sunning on the berm, and a banded kingfisher perched in a branch near the water. When I arrived at the site, a red-tailed hawk was wheeling right above the house.Image #2 (below) shows the west elevation. What has been erected so far is the first layer of the wall and roof assemblies, which will function as the structural shell of this PassivhausThe specifications call for several inches polyisocyanurate insulation to be installed all of the Zip sheathing shown in the photo. The walls will get 3 inches of polyiso, and the roof will get 6 inches. The roof layer will extend about 30 inches beyond the outside walls to form the eaves. This projection will not only protect the walls from the weather, but will also shade the windows from the summer sun while admitting the winter sun.A second set of framed walls will be built inside the walls shown in the photo. They will form a 10-inch-deep cavity that will be filled with cellulose insulation. According to PHPP, the walls will achieve R-52.1 and the roof will achieve R-66.1. Passivhaus is compatible with traditional home stylesThere are a number of architectural characteristics of a Passivhaus that facilitate performance. To keep warm here in our mid-Atlantic winters, a Passivhaus likes to spread out in the sun, and look to the south. At the same time, a Passivhaus likes generous overhangs and shutters to avoid overheating in summer.Provision for cross flow ventilation, such as windows on two exposures in each important room, and operable skylights, can reduce the need for mechanical air conditioning during the shoulder seasons. In other words, the house could easily look like a traditional bungalow or cottage.A Passivhaus also likes simple massing — corners, offsets, and projections present challenges to achieving airtightness, and inevitably introduce thermal bridges. In this sense, it could also be a Cape Cod or Colonial style house.Some features fight against the grain. Our clients, the Grants of Derwood, Maryland, wanted mulled windows — but the muntin bars reduce the amount of light passing through by as much as 5%. Passivhaus cares deeply about this — when this amenity was factored into the Passive House Performance Package (PHPP), the performance fell off perceptibly.But there was always a solution somewhere: for example, by enlarging south-facing windows or adding additional insulation to compensate for the loss of solar gain.Are you wondering what this house is going to look like when it’s done? The rendering at the top of the page shows the Grant House. Not too weird looking, is it? December 12, 2013: More progressAs winter closes in, work continues on this Passivhaus project (see Image #6, below). The Intus triple-glazed doors and tilt-turn windows are due to be delivered next week. When they are installed, we can perform a preliminary blower-door test, to see how close we are to the mythic air tightness requirement of 0.6 ach50.In the meantime, the duct systems have already been installed. There are two duct systems: one for tempered air, and one for fresh air supply and exhaust. As soon as the building is closed in, other rough-in work will continue. December 20, 2013: Passivhaus certificationNow that the rough carpentry is nearing completion, it was a perfect moment to bring out our Passivhaus rater, Andy Corral of Elysian Energy, to see things in the flesh. I spent a good part of yesterday morning compiling a set of plans and documents for Andy to review, including a revised Passive House Planning Package (PHPP) spreadsheet that reflects the field changes and revisions that have taken place.Some of the changes are minor tweaks — for example, substituting 4 inches of polyisocyanurate insulation for 6 inches of expanded polystyrene over the primary roof structure. The former has more than a 50% higher R-value than the latter; even as the total thickness is reduced, the net insulation value of the roof is increased by R-2.This gain is offset by the substitution of a custom wood front door for the Intus E-Forte UPVC door. Although the wood door has a smaller window, it has a lower net R-value, because — counterintuitively — the three layers of glass are more efficient than 2 inches of wood. It was almost jaw-dropping, how much this one change added to the Specific Space Heat Demand.Another major change is to enclose what had originally been designed as a screened porch. This space is intended for three-season use, and will not have a heat source, but it will still reduce heat loss through the adjacent spaces. I’ve asked Elysian to help quantify the energy savings.An area of some controversy remains. During the Passivhaus pre-certification process, I initially modified some of the PHPP defaults for ground conditions. These were rejected by PHIUS, and I had to beef up other areas of the building envelope to compensate.But during construction, we actually improved conditions beyond the initial input. The entire building subgrade was backfilled with an average of 3 feet of crushed stone, and then topped with 4 inches of sand to support the subslab insulation. This is a very effective thermal break with the underlying soil. Including these values in PHPP makes a significant positive impact.On the other hand, the local climate seems to be slightly cooler than the PHPP default climate for Washington, D.C. Passing by on my bike this morning, Lake Frank — a few hundred yards southeast of the Grant house — was completely frozen over. Does a Passivhaus have to look weird? The short answer is, no. RELATED ARTICLES Passivhaus on a BudgetVisiting Passivhaus Job Sites in Washington StateMore Passivhaus Site Visits in Washington State Alan Abrams is a Certified Passive House Consultant, a Certified Passive House Builder, aCertified Green Professional (NAHB), and a Certified Professional Building Designer (American Institute of Building Designers). He is also the owner of Abrams Design Build in Takoma Park, Maryland.