%0 Book
%A Rolf Jacobson
%D 2012
%C München, Germany
%I GRIN Verlag
%@ 9783656269960
%T Performance of 8 Cold-Climate Envelopes for Passive Houses
%R 10.3239/9783656269960
%U https://www.hausarbeiten.de/document/200508
%X Exterior envelopes for Passive Houses in very cold climates have not been developed, tested, and used as extensively as those in more mild climates such as central Europe.  The purpose of this investigation was to push that development further by testing and comparing the performance of a variety of North American and Scandinavian envelope types that have been used in limited numbers for Passive Houses in those regions.  A group of eight envelopes were selected and tested with a number of software analyses: Athena life cycle analysis, WUFI hygrothermal modeling, and THERM and EN ISO 6946 2-D U-value calculations for thermal bridging.  Finally, the Passive House Planning Package (PHPP) was used to confirm that the envelopes met Passive House energy performance requirements in a very cold climate using a basic passive solar house design.  Although significant variation was found in the performance of these eight envelope types, almost all of them were found capable of meeting the energy efficiency and thermal bridging requirements of the Passive House certification in a very cold climate, while maintaining moisture safety, durability, and significant life-cycle energy and carbon savings.  These findings demonstrate that even in cold climates, a variety of envelope types can be used successfully for certified Passive Houses.   Envelope types: 1) Advanced 2x6 framing24” on center with interior cross strapping and exterior insulation, insulated with mineral wool, 2) Advanced 2x6 framing24” on center, insulated with high-density spray polyurethane foam and exterior rigid foam, 3) Double 2x4 stud wall with studs 16” on center, insulated with blown cellulose, 4) I-joist (TJI) balloon framing 24” on center, insulated with blown fiberglass, 5) Insulated concrete form wall (ICF), using integral rigid EPS foam insulation, 6) Concrete block wall, insulated with exterior mineral wool, 7) Massivtre/Structural engineered panel (SEP), insulated with exterior rigid foam, and 8) Structural insulated panel (SIP), using integral EPS rigid foam insulation.  For comparison, a base option was also studied: Standard 2x6 framing 16” on center with fiberglass batt insulation.  See Appendix for diagrams of each envelope.   
%K thermal bridges, hygrothermal, LCA, life cycle analysis, environmental impact, WUFI, Therm, PHPP, envelope, fabric, building skin, SIP, structural insulated panel, ICF, insulated concrete form, Massivtre, double stud, advanced framing, I-joist, SEP, structural engineered panel, cold climate, Passivhus, R-value, U-value, insulation, passive solar, zero energy, embodied energy, embodied carbon, Passive House, Passivhaus
%G English