commercial passive house case studies
TRANSCRIPT
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Passive House for Commercial Projects
Tim Eian, Dipl.-Ing.Certified Passive House Planner & Consultant
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Learning Objectives1.Introduction and relevant work
2.The Passive House Building Energy Standard
3.Case Study 1: BioHaus Environmental Living Center North America’s first certified Passive House in Bemidji, MN
4.Case Study 2: State of South DakotaImpact of Passive House for the State of South Dakota
5.Case Study 3: Hongqiao Lvyuan CondosEnerPHit (Passive House retrofit) in Shanghai, China
6.Case Study 4: Hook & Ladder ApartmentsAffordable multi-family housing in Minneapolis, MN
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Building Performance, Measured Results
high performance architecture
Stephan Tanner
Tim Eian
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Milestones
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“BioHaus” First certified Passive House in North America
Photos: Cal Rice
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Photos: Cal Rice
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Photos: Cal Rice
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Impact of Passive House State of South Dakota
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Passive House Retrofit Hongqiao Lvyuan, Shanghai
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Hook & Ladder Apartments Minneapolis, MN
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The Passive House Standard
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Passivhaus - Passive House
“A rigorous, voluntary building energy standard focusing on highest energy efficiency and quality of life at low operating cost.”
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Passive House in 90 Seconds
Video: Hans-Jörn Eich
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Think globally, build locally.
Global Standard
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Global Adoption
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Third-Party Certified
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Tool
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The Path to Ultimate Sustainability
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Global Climate Specificity
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Climate-Specific Requirements
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Energy Modeling
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Conservation first
➡ Minimize losses
➡ Maximize (free) gains
Basic Concept
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Active vs. Passive
Passive: 4.75 kBtu/(sf yr)Active: 25-125 kBtu/(sf yr)85 - 450 kWh/(m2 a), typically found in the U.S. 15kWh/(m2 a), maximum target
Source: Krapmeier & Drössler 2001
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Energy FootprintHeating (active)Hot water (active)Cooling (active)Household ElectricityHeat & hot water (passive)
➡ up to 95% less heating energy ➡ 50 to 75% less total energy
Code Passive House
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Energy per Square Foot and Year
Gas mileage for buildings.
Metrics
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≤ 4.75 kBtu/(sf yr)≤ 15kWh/(m2 a)
Total energy used to heat or cool a building.
Space Conditioning Energy Targets
≤ 7.9 kBtu/(sf yr)≤ 25kWh/(m2 a)
≤ 9.5 kBtu/(sf yr)≤ 30kWh/(m2 a)
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≤ 38 kBtu/(sf yr)≤ 120kWh/(m2 a)
Total energy used to heat or cool a building.
Source Energy Targets
varies≤ 120 kWh/(m2 a) + ((QH - 15 kWh/(m2 a)) * 1.2)
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≤ 3.17 Btu/(h sf)≤ 10W/m2
Heating energy can be supplied through ventilation system.
Heating Load Target (suggested)
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≤0.6 ACH50
Measured with a blower door in the field.
Airtightness Targets
≤1.0 ACH50
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EnerPHit offers a Component Track.
Component Targets
• Maximum U-values
• Minimum R-values
• SHGC requirements
• Minimum heat-recovery rates
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Component Targets
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Predictable Outcome & Measurable Results
Passive House Planning Package - PHPP
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Key Benefits
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Highest Comfort
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Superior Indoor Environmental Quality
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Case Study 1 Waldsee BioHaus - Environmental Living Center
Bemidji, MN - 2006/16
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North America’s first certified Passive House building. 10 years of operation. Ground zero for Passive House in the United States.
• Energy performance over a decade
• Performance comparison with other standards
• Operating a Passive House
• Key Conclusion and Benefits
Project
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Waldsee BioHaus, North America’s first certified Passive HouseAverage energy use since 2006: 33kWh/(m2 yr), or 10,500 Btu/(sf yr)
10-year Update
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Performance Comparison
LEED-Platinum (ASHREA 90.1 2004)
LEED-Platinum (ASHREA 90.1 2010)
ASHREA 90.1 2004
ASHREA 90.1 2010
EU Code 2018
ASHREA 90.1 2013
EU Code Today
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Operating a Passive House
Passive House takes care of energy performance. Other
systems and certifications are recommended to control:
• Environmentally and people friendly use of resources
• Operation, facility management
• Indoor environmental quality
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Key Conclusions & Benefits
• It just works
• No need for very sophisticated or complicated
systems
• Indoor environmental quality is fantastic
• Energy performance is stellar and consistent
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Case Study 2 State of South Dakota
Pierre, SD - 2012/14
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Using the Passive House Standard for State projects. What changes?
• Differences for the Building Envelope
• Thermal Bridge Free Design
• Heat Flow and Loss Comparisons
• Energy Consumption and Flow Comparisons
• Carbon Emissions Comparison
• First Day and Life Cycle Cost Comparison
• Key Conclusion and Benefits
Project
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SDSU, Brookings, South Dakota
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Jackrabbit Grove Residence Hall
South Dakota State University campus in Brookings, South Dakota Building E, 2012
LEED Silver, 95 rooms, 190 tenants
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Jackrabbit Grove Residence Hall
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Base Building Passive House Building
Exterior Walls R-16 (h sf °F/ Btu) R-34 (h sf °F/ Btu)
Roof R-70 (h sf °F/ Btu) R-70 (h sf °F/ Btu)
Slab R-3 (h sf °F/ Btu) R-27 (h sf °F/ Btu)
Windows, Ext. DoorsU- 0.41 (Btu/ h sf °F) SHCG-0.27
U- 0.12 (Btu/ h sf °F) SHCG-0.50
Thermal Bridges Significant Free
Airtightness ACH50: 3.0 1/h (est.) ACH50: ≤ 0.6 1/h (field tested)
Ventilation w/ HR51% HR-Efficiency 0.45 Wh/ m3 Electr. Eff.
87% HR-Efficiency 0.45 Wh/ m3 Electr. Eff.
Heating/ Cooling District heating/cooling District heating/cooling
High-Performance Building Envelope
➡ Opportunity for on-site HVAC system
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Thermal Bridge Free Assemblies
Base Building
Passive House Building
Exterior Interior
Exterior Interior
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Base Building
Passive House Building
Thermal Bridge Free Details
Exterior Interior
Exterior Interior
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kW
h/(m
2 yr
)
0
50
100
150
200
250
Passive House BuildingExterior WallRoofSlab/ BSMT CeilingWindows/ DoorsThermal BridgingVentilation/ InfiltrationSolar GainsInternal GainsActive Heat
kW
h/(m
2 yr
)
0
50
100
150
200
250
Base Building
Exterior WallRoofSlab/ BSMT CeilingWindows/ DoorsThermal BridgingVentilation/ InfiltrationSolar GainsInternal GainsActive Heat
Heat Flow Comparison➡ Heat Load Reduction 95%! ➡ Poor R-values ➡ Poor components ➡ Major thermal bridges
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Heat Loss ComparisonkB
tu/(
sf y
r)
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
Base Building Passive House Building
Exterior WallRoofSlab/ BSMT CeilingWindows/ DoorsThermal BridgingVentilation/ Infiltration
➡ LEED causes building to be over-ventilated!
➡ Major thermal bridges ➡ Poor R-values ➡ Poor components
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Energy Consumption ComparisonkB
tu/(
sf y
r)
0
10
20
30
40
50
60
70
80
90
100
110
120
Base Building Passive House BuildingHeatingCoolingDomestic Hot WaterPlug and AppliancesLightingAuxiliary Electricity
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Base Building
9%3%
10%
12%
2% 65%
HeatingCoolingDomestic Hot WaterPlug and Appliances LightingAuxiliary Electricity
Passive House Building
8%8%
26%
34%
12%
13%
HeatingCoolingDomestic Hot WaterPlug and Appliances LightingAuxiliary Electricity
Energy Flow Comparison➡ Focus on plug loads ➡ Focus on domestic hot water
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Carbon Emissions Comparison
kg/(
m2
yr)
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
Passive House Building
HeatingCoolingDomestic Hot WaterPlug and AppliancesLightingAuxiliary Electricity
kg/(
m2
yr)
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
Base Building
HeatingCoolingDomestic Hot WaterPlug and AppliancesLightingAuxiliary Electricity
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Building Component Base Building Passive House Building Difference
Structural Building Concrete + Steel + Masonry Systems $2,015,796 $2,015,796 $0
Rough + Finish Carpentry $230,339 $230,339 $0
Roofing, Moisture & Thermal Protection $334,957 +$634,957 +$300,000
Glass & Glazing/ Door + Hardware $611,076 +$1,067,076 +$456,000
Drywall Steel Stud Framing $587,489 $587,489 $0
Interior Finishes $451,441 $451,441 $0
Specialties & Accessories $84,406 $84,406 $0
Elevators $95,000 $95,000 $0
Plumbing Systems + Fire Suppressions System $762,800 $762,800 $0
HVAC Systems $518,650 $468,650 ($50,000)
Electrical Systems $683,675 $683,675 $0
Earthwork Excavation $122,590 $122,590 $0
Building Investment Cost Total $6,498,219 $7,196,046 $697,827
First Day Cost Comparison
➡ Construction cost increase of approx. 10.5%
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Life Cycle Cost Comparison
Annual Annualized Cost Comparison w/o HVAC system reduction
Base
Passive House
$0 $100,000 $200,000 $300,000 $400,000 $500,000 $600,000 $700,000 $800,000
Construction CostManagement & InsuranceSecurityCleaningInspection & MaintenanceUtilities & DisposalRepairRefurbishments
Calculation Parameters
The following parameters were used for calculation of the life cycle and operating cost:
• Duration of assessment: 50 years • Inflation:
o Construction (nominal) 3.00% o Management and services (nominal) 1.00% o Utilities and waste (nominal) 3.00% o Interest rate (nominal) 4.00% o Energy and telecommunication
• Water (m3) $ 0.83 • Waste water (m3) $ 1.11 • District Heat (kWh) $ 0.05 • District Cooling (kWh) $ 0.05 • Electricity (kWh) $ 0.07
➡ Annual Annuitized Cost Reduction of approx. 3%
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• Passive House costs less over its life(annuitized and total cost of ownership)
• Construction cost increase; approx. 10.5%(mostly building envelope) (HVAC system savings are not accounted for in this study)
• Operating cost decrease; annuitized annual cost decrease approx. 3% (mostly utilities and refurbishments)
• Improved financial risk management(predictable and lower life cycle cost)
• Increased competitiveness and resilience (improved bottom line, simpler systems, less reliance on HVAC)
• Increased quality of the building and reduced risk for early building deterioration(field testing and thermal bridge free design)
• Comfort improvement(Happier and healthier tenants = less call-backs)
• Carbon risk management and premier environmental stewardship
Key Conclusions & Benefits
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Case Study 3 Hongqiao Lvyuan Passive House Retrofit
Shanghai, China - 2015/17
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First Passive House Retrofit (EnerPHit) in Shanghai. Three, 25-unit condo buildings. 5-stories and 45,000 gross sf ea. Hot and humid climate.
• Defining the Building Envelope
• Identifying Key Details
• Managing PH-Compliance
• MEP Strategies
• System Opportunities
• Resource Shifting
• Key Conclusion and Benefits
Project
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Defining the Building Envelope
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Identifying Key Details
INTERMEDIATE FLOOR
INTERMEDIATE FLOOR
THERMAL BRIDGES
WINDOWS/DOORSSLABWALLROOF
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Managing PH-Compliance
• Overlay standard details with Passive House details, or design PH right from the beginning
• Clearly outline insulation, airtightness, hygrothermal performance and understand climate influences
• Define strategies, systems and components which support the Passive House targets
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120mm
Insulation 120mm
Only Sound Insulation
Exterior Cladding
Air Barrier
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Exterior Cladding/Roof Membrane
Insulation 120mm
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Air BarrierWindow/ Door
Exterior CladdingInsulation 120mm
120m
m
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A
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Disconnect Existing Structurereplace with new structure (for example steel) at the air barrier/ insulation location
Balcony/ Planter/ Exterior CladdingInsulation 120mmAir Barrier
Window/ DoorShading (see window section)
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VENTILATIONHEAT EXCHANGER
BYPASS
EXHAUST AIR
OUTSIDE AIR RETURN AIR
SUPPLY AIR
AIR-TO-LIQUID HEAT PUMP SYSTEMAIR-TO-LIQUID HEAT PUMP:- LOAD SHIFTING- HEATING- COOLING- DEHUMIDIFICATION
DHW TANK:PRE-HEAT
DOMESTIC HOT WATER CIRCULATION LINE
MUNICIPAL POTABLE WATER
1 2 3 4 5
HEAT-RECOVERY VENTILATION SYSTEM1 PRE-FILTER2 LIQUID-TO-AIR HEAT EXCHANGER: FROST-PROTECTION, PRE-COOL, DEHUMIDIFICATION3 LIQUID-TO-AIR HEAT EXCHANGER: PRE-COOL, DEHUMIDIFICATION4 OUTSIDE AIR FILTER5 RETURN AIR FILTER6 LIQUID-TO-AIR HEAT EXCHANGER: POST-HEAT
6
"EARTH LOOP"
HEAT PUMP
HEAT PUMP
VENTILATION SYSTEM
WASTE HEAT FROM COOLINGAND DEHUMIDIFICATION &AIR-TO-LIQUID HEAT PUMP
HAC SYSTEM
RETURN AIR SUPPLY AIR
HEATING, COOLING & DEHUMIDIFICATION (HAC) SYSTEM1 RETURN AIR FILTER2 LIQUID-TO-AIR HEAT EXCHANGER
1 2
APARTMENT DUCTWORK
HEAT PUMP
MEP Strategies
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SOLAR PANELS
ELECTRICITY
OPERABLE WINDOWS &EXTERIOR SHADINGDEVICES
DOMESTIC HOT WATER;INDIRECT-FIRED
HEAT PUMP FOR HYDRONIC RADIATORS & DOMESTIC HOT WATER
HEAT-EXCHANGER;BOREHOLE
AIRTIGHT BUILDING ENVELOPE; n ≤ 0.6 h-1
BALANCED VENTILATION;
HEAT RECOVERY ≥ 75%
EXAMPLE: 2020 TECHNOLOGY
MAKE-UP AIR UNIT;GAS-FIRED
BATHROOM/ KITCHENEXHAUST FANS
OPERABLE WINDOWS
BASEBOARD HEATER;ELECTRIC RESISTANCE
DOMESTIC HOT WATER;GAS-FIRED
GAS
ELECTRICITY
CURRENT TECHNOLOGY
System Opportunties
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SPACE HEATING
DOMESTIC HOT WATER
VENTILATION
PLUG AND APPLIANCES, UNIT
LIGHTING, COMMON
LIGHTING, UNIT
EQUIPMENT AND AMENITY
ELEVATORS
TRANSPORTATION
Source Primary Energy Site Energy Useful Energy
Primary Energy Reduction Factors Efficiency Operation
SPACE HEATING
DOMESTIC HOT WATER
VENTILATION
PLUG AND APPLIANCES, UNIT
LIGHTING, COMMON
LIGHTING, UNIT
EQUIPMENT AND AMENITY
ELEVATORS
TRANSPORTATION
Source Primary Energy Site Energy Useful Energy
Primary Energy Reduction Factors Efficiency Operation
Resource Shifting
Energy avoidance enables:
• Use of renewable resources, energy independence
• Resilience (extended periods of coasting)
• Offset with decentralized systems
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• Goal setting right in the beginning is key
• Team selection is crucial
• Understanding high-performance building envelope principles is critical
• First design and model, then build
• Understanding the life-cycle cost impact versus first day cost is key to fiscal success, and true value engineering
Key Conclusions & Benefits
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Case Study 4 Hook & Ladder Apartments - Affordable Housing
Minneapolis, MN - 2016/18
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59-unit, affordable multi-family housing project. 61,000 gross sf. on 5-stories. First certified multi-family Passive House in Minnesota.
• Differences in Construction
• Differences in Systems
• First Day Cost Comparison
• Life Cycle Cost Comparison
• Site and Source Energy Comparison
• Carbon Comparison
• Conclusion and Benefits
Project
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Differences in Construction
Building Envelope Base Passive House
Exterior Walls R-22 (h sf ºF)/Btu R-45 (h sf ºF)/Btu
Roof R-40 (h sf ºF)/Btu R-65 (h sf ºF)/Btu
Slab R-10 (h sf ºF)/Btu R-25 (h sf ºF)/Btu
WindowsU-Factor: 0.30 Btu/(h sf ºF)
SHGC: 30%
U-Factor: 0.14 Btu/(h sf ºF)
SHGC: 26%
Thermal Bridges No consideration Thermal bridge free design
Airtightness No considerationACH50: 0.2 1/h
(Preset and field-measured)
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Differences in Systems
System Base Passive House
Ventilation
Assumed bypass inside “magic pack” heating and cooling system in combination with individual bathroom exhaust fans.
Balanced whole-house heat recovery ventilation system with Passive House recovery efficiency: 87%
Electric efficiency: 0.45 Wh/m3
Automated controls based on air quality
Heating/ Cooling
Individual apartment “magic pack” units with ducted distribution (gas furnace heat, electric air-conditioning)
Single, whole-house air-source electric heat-pump with individual apartment indoor units and ducted distribution (electric heating and air-conditioning)
Domestic Hot Water
Central gas-fired domestic hot water boilers with circulation line
Summer: heat recovery from air-conditioning to domestic hot water system; summer and winter: gas-fired backup boiler with circulation line
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First Day Cost Comparison
Based on predesign analysis, the first day investment cost for the Passive House building is between 7.5 and 17% above the cost for the base building (MN code).
This is the first project of its kind in the region and the developer and build teams are new to Passive House—making this a pilot project.
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Life Cycle Cost Comparison
60 years 50 years 40 years 30 years 20 years 10 years
Passive House (high) savings
6.36% 7.03% 3.95% 3.13% cheaper 1.31% -5.40%
Passive House (low) savings
11.95% 12.87% 9.00% 8.63% cheaper 6.05% -0.08%
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Site Energy ComparisonHeating Energy
(kBTU/ yr)
Total Energy
(kWh/ yr)
Total Energy
(kBTU/ yr)
Energy Use Index
(kWh/ gsf)
Energy Use Index
(kBTU/ gsf)
US existing
78.8
Base 116,360 581,254 1,983,795 9.5 32.6
Passive House
3,792 196,024 669,021 3.2 6.6
Passive House Savings
112,568(97% less)
385,230 less 1,314,774 less 66% less
66% less
(92% less than
existing)
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Energy Cost Comparison
Cost Index
($/ gsf)
Base 0.482
Passive House 0.328
Passive House Savings 32% less
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Source Energy ComparisonTotal source energy
(kWh/ yr)
Source Energy Use Index
(kWh/ gsf)
Source Energy Use Index
(kBTU/ gsf)
US existing 127.9
Base 1,106,432 18.2 62.0
Passive House 401,686 6.6 22.5
Passive House Savings
704,746 less 64% less64% less
(82% less than existing)
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Carbon ComparisonTotal CO2 Impact
(tons CO2 equ.)
CO2 Impact Index
(kg CO2 equ./ gsf)
Base 184 3.03
Passive House 109 1.79
Passive House Savings 75 less 41% less
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• Differences in construction and systems are manageable but require diligent, experienced design team—particularly for energy modeling and detail design
• Passive House costs “differently” on day 1
• Life Cycle cost are cheaper (not putting any cost value on human benefits of Passive House design)
• Energy performance is entirely different; heating is no longer a major consumer of energy; domestic hot water production and plug loads need to be managed and reduced
• Fits the paradigm of a sustainable building
Key Conclusions & Benefits
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Discussion