Share Facebook Twitter Google + LinkedIn Pinterest A misguided health teacher tangled with the wrong farm broadcaster when showing the film “Food, Inc.” to a sixth grade health class that included the daughter of Ty Higgins. Ty politely, but very firmly, informed the teacher and school administration exactly what he thought and he found a fairly receptive new audience.
The addition was then framed directly above the concrete slab. The insulation not only prevents heat loss to the ground, but also heat loss from the ground — which is 50-55 degrees year round — to the ambient air. That’s why traditional footings down 42 inches aren’t required. The author enlarged the footprint of the cottage with a frost-protected shallow foundation. The graveled area in the foreground will become a concrete terrace.The installation began with a 6-inch layer of crushed stone, followed by a 12-inch layer of expanded polystyrene (EPS) rigid foam insulation, with short EPS stem walls around the perimeter forming a shallow basin that is filled with concrete. The EPS isolates the concrete from the ground and the outside air, which prevents thermal bridging (heat loss through structural materials that don’t insulate well, like concrete). ARTICLES BY MICHAEL TROLLE Building My Own Passive HouseBuilding an Airtight EnvelopeThe Four Keys to a High-Performance Home Here’s a link to Part 3 of this blog series: Building an Airtight Envelope. I used three layers of insulation in the exterior walls. The first is installed between the 2×6 studs. These cavities are filled with cellulose, an insulation product made from recycled newsprint and cardboard (and a favorite of many green builders). The interior face of the studs is covered with a tough, non-stretch fabric, which was stapled to the studs so as to be drum tight. The cellulose was blown into the walls at high pressure, ensuring that the insulation stays in place permanently. The R-value of this installation is 20 and meets the code standard for an exterior wall all by itself.Outside, the plywood sheathing joints were sealed with 3M All Weather tape to make the walls airtight. (I’ve since switched to Tescon Vana tape.) Then 2 inches of polyisocyanurate (polyiso), a rigid foam board insulation product, was installed between 2x3s (plus strips of 1/2-inch plywood) that run horizontally and are fastened to the wall studs with Timber Lok screws (see photo above). Expanding the footprintI expanded the footprint of the house to the rear and side of the old foundation. I chose to go with a frost-protected shallow foundation. Unlike traditional foundations, this type does not require footings down 42 in. to frost depth. Michael Trolle is a co-founder of BPC Green Builders, in Wilton, Connecticut. This post, and the ones to follow, were originally published in slightly different versions at The HomeMonthly.com but also are available at the BPC Green Builders website. On October 7, 2015, BPC Green Builders was named Grand Award Winner in the Custom Home category in the Department of Energy’s Housing Innovation Awards. Extra insulation is worth the cost and effortWhy build a wall that is insulated to an R-value three times the building code minimum? Well, it cost my family about $200 worth of electricity to heat the 1,650-square foot house this winter, with the interior temperature at 70 degrees, day and night. A high level of comfort was assured because the interior surface temperature of the floors, walls, and roof was the same as the room air temperature, and air leakage was non-existent.It’s a night and day comparison to conventional code-based construction. Editor’s note: This is the second installment in a series of blogs by Michael Trolle about the construction of his Passivhaus home in Danbury, Connecticut. The first part was published as “Building My Own Passive House.” The final layer of insulation, 3 1/2 inches of polyiso, was installed continuously over the first (see Image #2 at the bottom of the page). The two layers of polyiso together virtually eliminate thermal bridging, or “heat bleed,” through the framing.Finally, 1×3 wood strips were screwed on with Timber Loks through the 3 1/2-inch layer of polyiso into the 2×3 studs. The 2x3s are necessary because the siding is heavy and can’t be installed over the full 5 1/2 inches of polyiso. The exterior siding was then nailed to the wood strips, with a 3/4-inch drainage plane between the polyiso and the siding to ensure drying and durability.The overall R-value of this assembly is roughly 55, much higher than the code minimum of R-18 for this type of wall. Three layers of insulation in exterior wallsThe walls were framed with 2×6 studs to create 5 1/2-inch cavities for insulation. The studs are spaced 24 inches apart, instead of the normal 16 inches. This wider spacing means there is less wood and more insulation in the wall assembly. (The roof is framed with engineered trusses, which are structural wood assemblies manufactured off-site. I’ll have more about that in the next part of this series.)A layer of polyiso insulation 2 inches thick is applied over the sheathing and between horizontal 2x3s. A second and thicker layer of polyiso will cap this one to cut thermal bridging through framing members. RELATED ARTICLES Pretty Good, Not So Big Maine HouseThe Potwine Passivhaus in AmherstKicking the Tires on a Passivhaus ProjectBuilding a Small House in the White Mountains Podcast: So You Want to Be a Passivhaus Consultant? Frost-Protected Shallow Foundations The project began with the demolition of the existing cottage. As a builder, I should be immune to feeling badly about taking down an old house, but I find it painful to see sound building materials smashed up and hauled away. However, the reality is that working with the existing framing would have cost more, and achieving airtightness would have been harder.One consolation is that 90% or more of the materials are recycled in some way. This is down-cycling, of course, as the materials in their current form have no market value.I kept only the concrete block foundation and the framed floor above it. In retrospect, I doubt that I should have kept either. The block foundation was never waterproofed and has no footing drain so it will always be somewhat damp. This led to a damp floor deck above during construction which required care to prevent mold.Also, the floor framing wasn’t completely square and was structurally insufficient without reinforcement. The bottom line is that it would have been easier, and perhaps even cheaper, just to have started from scratch.