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Published byElfrieda Jean Neal Modified over 8 years ago
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by Katrin Klingenberg & Mike Kernagis (Home Power #138)
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Building sector energy use in US 20% of the nations energy use is Residential Space heating and cooling represents more than 50% of households energy use Buildings in the US account for 48% of greenhouse gas emissions annually 76% of all electricity generated in the US supplies the building sector
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Passive House (PH) The Passivehaus (Passive House or PH) Institute was developed in the 1990s in Darmstadt Germany by Bo Adamson and German physicist Dr. Wolfgang Feist PHI was inspired by the United Nations Framework Convention on Climate Change and superinsulated houses built in Canada and the U.S. during the late 1970s.
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Passive House Institute US (PHIUS) In April 2007, PHIUS was founded to promote the development of PH knowledge and construction in the US. PHIUS is an independent institute that determines if a building meets the PH standard. There is currently 28 certified PH in the US and many more in the precertification stage.
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The Passive House (PH) concept slashing heating and cooling of buildings by 90% over a conventionally constructed building represents the highest energy standard for buildings
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How does PH accomplish this? Minimizing energy losses Maximizing passive energy gains
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According to the Architecture 2030 campaign An average, conventionally built, single-family home in the Midwest uses 14.5 kWh (49.5 kBtu) per square foot per year site energy for space conditioning, domestic hot water, and household electricity.
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A new home built to code uses 12 kWh or 41 kBTu/ft2 Energy Star Home uses about 20% less 9.6 kWh or 32.8 kBtu/ft2 Passive House 1.39 kWh or 4.75 kBtu/ft2
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PH seven principles 1) Superinsulate 2) Eliminate thermal bridges 3) make it airtight 4) Specify ERVs or HRVs 5) Specify high-performance windows and doors 6) Optimize passive solar and internal heat gains 7) Evaluate and optimize energy gains and losses
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Superinsulate Using maximum amounts of insulation and careful attention to its installation are key elements in achieving a high-performance envelope.
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Eliminate Thermal Bridges Thermal Bridge: a material that has high thermal conductivity or poor insulative value PH specifies a thermal bridge coefficient of.01 W/m-k which translates to a R-14
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Visual illustration of a thermal bridge Isotherms are contour lines or surface on a map that connects or indicates points of equal temperature. This is a map depicting isotherms across a wall section
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Air Tight Continuous air barrier is applied to achieve Air leakage of.6 air ACH50
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Energy or Heat Recovery Ventilation (ERV or HRV) PH use heat recovering ventilation systems to achieve good indoor air quality ERVs transfer both heat and moisture, regulating humidity for comfort and capturing the latent heat adding efficiency
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Energy or Heat Recovery Ventilation (ERV or HRV)
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Earth Tubes
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High Performance Windows PH windows incorporate – low-emissivity coatings reflect radiant heat in or out depending on the climate Low conductivity argon and krypton gases are used between multiple panes reducing heat loss or gains Frames are insulated creating a thermal break reducing conductivity
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High Performance Doors Layers of Insulation creating a thermal break Utilizing VIPs to achieve R-60 in 2” triple sealing door bottoms to achieve air tightness levels
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Optimized Passive Solar and Internal Heat Gains PH must minimize losses and carefully manage a building’s energy gains.
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Evaluate Energy Gains & Losses The Passive House Planning Package (PHPP) is used to model the building to determine if it meets the incredibly low PH energy demands
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PH Requirements Space heating and cooling must be <= 4.75 kBtu/ft2/year Primary (total) energy use must be <= 38 kBtu/ft2/year Airtightness must be <=.6 ACH50
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Up-Front Costs Estimations suggest building to PH standard in the US adds 10-20% to building costs. Majority of additional cost are in doors and windows In Europe building to PH standard only adds about 3- 5% to building costs
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