013_20160726_overview of net zero energy buildings in the us
TRANSCRIPT
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Overview of Net Zero Energy Buildings in the US
Jiazhen Ling, Reinhard Radermacher
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Contents• Building Energy Ratings• Net Zero Energy Buildings and Examples• Technologies for NZEB• Cost Analysis• Incentives to NZEB• Others
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Building Energy Ratings• Leadership in Energy and Environmental Design (LEED)
• Certified (40-49 points); Silver (50 – 59 points); Gold (60-79 points); Platinum (80 – 110 points)• Green Globes
• One Globe (350-540 points); Two Globes (550-690 points); Three Globes (700-840 points); Four Globes (850-1000 points)• Home Energy Rating System (HERS)
• Scale from 0 to 100; 0 indicates the building uses no net purchased energy; the lower the value, the better• Net Zero Energy Buildings
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LEED ScoreboardPossible Points
(for homes)Possible Points(for Multi-family)
Integrative Process 2 2Location and Transportation 15 17Sustainable Sites 8 9Water Efficiency 13 13Energy and Atmosphere 34 30Material and Resources 11 9Indoor Environmental Quality 15 18Performance 2 2Innovation 6 6Regional Priority 4 4Total 110 110
Source: http://www.usgbc.org
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Green Globes® Overview• A web-based program for green building guidance
and certification• The program supports new construction, existing
buildings and healthcare buildingsEnvironmental Assessment Area
New Construction points
Environmental Assessment Area
Existing Buildings Points
Energy 380 Energy 350Water 85 Water 80Resources 100 Resources 110Emissions 70 Emissions 175Indoor Environment 200 Indoor Environment 185Project Management 50 Environmental Management 100Site 115Total Points 1000 1000
Source: http://www.thegbi.org/green-globes/new-construction.shtml
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Green Globes Versus LEEDCriteria Green Globes LEEDProgram Points 1000 110Program Delivery Web enabled interactive questionnaire Online formsIncorporate LifeCycle Assessment
YES NO
Certification Process Assessor assigned/on-site building audit with team
Fill out assessment form,
submit, await results
Certification Ratings 4 Globes3 Globes2 Globes1 Globe
LEED PlatinumLEED GoldLEED Silver
Certified LEEDTime Required to Complete DocumentationCost to Certify a Typical Bldg. > 100,000 sq. ft.
$ $$$
Source: http://www.thegbi.org/green-globes/green-globes-leed-green-building-certification.shtml
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A Few Numbers• LEED Certified (as of: 10/2/2012)[1]
• LEED Platinum: 945 ; LEED Gold: 6215; LEED Silver: 5042; LEED Certified; 3023
• Green Globes:(as of: 10/2/2012)[2]• New Constructions:
• 4 Globes: 4; 3 Globes: 29; 2 Globes: 52; 1 Globes: 30• Existing Constructions:
• 4 Globes: 10; 3 Globes: 228; 2 Globes: 87; 1 Globes: 10
[1]: Public LEED Project Directory (http://www.usgbc.org/LEED/Project/CertifiedProjectList.aspx)[2]: Green Globes Overview (http://www.thegbi.org/green-globes/)
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LEED Gold Buildings at UMCP
8
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Net-Zero Energy Building Definitions• In general, a net-zero energy building
produces as much energy as it uses over the course of a year
• Net-zero energy buildings are very energy efficient
• The remaining low energy needs are typically met with on-site renewable energy
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Types of NZEB• Net Zero Site Energy• Net Zero Source Energy• Net Zero Energy Costs• Net Zero Energy Emissions
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Current Status of NZE Buildings in US• ZEB (or better low energy buildings)
research is currently being supported by US DOE Building America Program
• Other industry-based consortia and national laboratories such as NREL, LBNL, NIST and ORNL are also actively involved
• President Obama set up the goal that 100% of all new federal buildings achieve Zero-Net-Energy by 2030
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US Roadmap towards nZEB• Executive Order 13514
• All new Federal buildings that are entering the planning process in 2020 or thereafter be “designed to achieve zero-net-energy by 2030• DOE defined two milestones
• Marketable Net Zero Energy Homes by the year 2020• Commercial Net Zero Energy Buildings at low incremental cost by the year 2025
• 100% reduction in fossil-fuel energy use (relative to 2003 levels) for new Federal buildings and major renovations by 2030
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Worldwide Zero Energy TargetsCOUNTRIES (REGIONS) ZERO ENERGY TARGETUSA (California) Net zero energy performance in residential
buildings by 2020 and in commercial buildings by 2030
USA (Massachusetts) Net zero energy for all new buildings by 2030South Korea All residential buildings are required to achieve
zero energy emissions by 2025England Zero carbon (emissions) homes by 2016Wales Zero carbon (emissions) buildings ( in relation to
space heating, hot water and lighting) by 2011France By 2020 all new buildings are energy-positiveThe Netherlands Energy-neutral buildings in 2020Hungary Zero emissions for all new buildings by 2020
Source: Maria Kapsalaki & Vitor Leal (2011): Recent progress on net zero energy buildings, Advances in Building Energy Research, 5:1, 129-162
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Approach for Achieving NZEB
Source: National Science and Technology Council, Federal Research and Development Agenda for Net-zero Energy, High-Performance Green Builings,2008
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Analyzing the Least-Cost Path
Reduced cost by increasing building efficiency
Additional options until cost of saving energy equals cost of onsite power prod.
No changes in design, savings result from additional onsite power capacity
PV systems used for on-site power generation
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Earlier NZE Houses – PVRES, Florida
Lakeland Zero Energy Home (solid circle); control home (dotted circle), built Lakeland , FL in 1998• Single family home (one story, 3BR,
2425 sq. ft.)• Two houses, one PVRES and one
control home, have the same floor plan
• PVRES has a 4 kW PV system (2.7 kW facing south, 1.3 kW facing west)
PVRES Home Features Control Home FeaturesWhite reflective roof with R-30 ceiling insulation
Gray/brown asphalt shingle roof, R-30 ceiling insulation
Exterior insulation over concrete block system (R-10)
R-4 wall insulation on interirorof concrete block walls
Advanced solar control double-glazed windows
Single glazed windows with aluminum frames
Down-sized SEER 14.4 variable speed AC
4-ton Trane heat pump (SEER = 10; HSFP = 7)
Field-verified cooling coil air flowLow friction loss and sealed duct system within the conditioned space
R-6 ducts located in attic
Programmable thermostatHigh efficiency refrigerator Standard appliances (electric
range, refrigerator and electric dryer)
High efficiency compactFluorescent lighting
Standard incandescent lighting (30 recessed can lights)
Source: Parker D., Very low energy homes in the United States: Perspectives on performance from measured data, Energy and Buildings, Volume 41, Issue 5, May 2009, Pages 512-520,
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PVRES, Florida (Cont.)
Thermal and visible images of west-facing windows and shadows in the afternoonBaseline home PVRES home
Source: Parker et al., Field Evaluation of Efficient Building Technology with Photovoltaic Power Production in New Florida Residential Housing, Florida Solar Energy Center, FSEC-CR-1044-98
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PVRES, Florida (Cont.)
Thermal and visible images of west-facing windows and shadows in the afternoon
Source: Parker et al., Field Evaluation of Efficient Building Technology with Photovoltaic Power Production in New Florida Residential Housing, Florida Solar Energy Center, FSEC-CR-1044-98
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PVRES, Florida (Cont.)
Thermal images of air being drawn from the attic to the AHU in the baseline house (center). The interior duct system in the PVRES shows no problem
Source: Parker et al., Field Evaluation of Efficient Building Technology with Photovoltaic Power Production in New Florida Residential Housing, Florida Solar Energy Center, FSEC-CR-1044-98
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PVRES, Florida (Cont.)
CaseDescripti
onAHU
statusAir
Changes Per Hour
InteriorTemp (°F)
Exterior Temp (°F)
Wind Speed (m/s)
Baseline Off 0.131 76 90.6 5.2Baseline On 0.349 76 89.9 8.0PVRES Off 0.085 74 86.5 9.5PVRES on 0.131 74 85.6 10.2
Source: Parker et al., Field Evaluation of Efficient Building Technology with Photovoltaic Power Production in New Florida Residential Housing, Florida Solar Energy Center, FSEC-CR-1044-98
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PVRES, Florida (Cont.)• From April-August, averaged 15.66 kWh
delivered to the utility grid every day• The PVRES consumed averaged 22.0
kWh/day• The PV system produced 71% of the daily
electricity required for the building operation• During daytime hours the net impact on the
grid is nearly zero• During evening hours all power required
came from the utility
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PVRES, Florida (Cont.)
April 15 16 17 18 19 20House thermal performance when unconditioned ( top baseline; bottom PVRES)
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PVRES, Florida (Cont.)Component Description Cost ($) Savings
kWh ($)Simple payback
(Years)Advanced windows $4,266 1,610 ($129) 33White tile roof $10,829 1,342 ($107) 101R-10 walls $11,500 307($25) 460Wider overhang $1,882 537 ($43) 44Interior duct system $950 1,150 ($80) 12High efficiency AC $1,263 2,376 ($190) 7Efficient Lighting $525 1,479 ($118) 4High Efficiency refrigerator $298 388 ($31) 10Solar water heater $2,989 2,097 ($123) 24Utility integrated PV system
40,000 5,600 ($448) 89Preliminary economics of efficiency measures
Source: Parker et al., Field Evaluation of Efficient Building Technology with Photovoltaic Power Production in New Florida Residential Housing, Florida Solar Energy Center, FSEC-CR-1044-98
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NZE House in Stow, MA
Source: Engelmann, P., Roth, K., 2011, IEQ/IAQ and Energy Performance of Very Low-Energy Homes, Summer 2011 Residential Ener. Eff. Tech. Update Meeting, Aug. 2011. web source: http://apps1.eere.energy.gov/buildings/publications/pdfs/building_america/ns/eemtg082011_c4_very_lowe_homes.pdf
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Energy production and consumption
End-energy usage breakdown
Source: Engelmann, P., Roth, K., 2011, IEQ/IAQ and Energy Performance of Very Low-Energy Homes, Summer 2011 Residential Ener. Eff. Tech. Update Meeting, Aug. 2011. web source: http://apps1.eere.energy.gov/buildings/publications/pdfs/building_america/ns/eemtg082011_c4_very_lowe_homes.pdf
NZE House in Stow, MA (cont.)
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NZE House in Lebanon, NJ
ElementsBldg. Orientation True south, Passive
solar heating, daylightingLayout Open planConditioned Area 4200 sf (390 sm)Framing 2 by 4 at 16” O.C.Type Single-family detachedMaterials Douglas fir; Southern
Pine
SpecificationsSlab Floors R-35 (6 m2K/W)Foundation Walls R-35 (6 m2K/W)Basement Ceiling NoneAbove Grade Walls R-35 (6 m2K/W)Roof R-35 (6 m2K/W)Window R-10 (2 m2K/W)Relative Humidity 40-50%Infiltration Rate 5.0 ACH@50Pa
4 bedrooms, 2.5 baths, living room, dining room, kitchen, laundry room and a basement
Source: Hoque, S., 2010, Net zero energy homes: an evaluation of two homes in the northwestern United States, Journal of Green Building, Vol. 5 (2), pp. 79-90.
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Energy SystemsEnergy ConsumptionHeating Air(AHU) + Radiant
(Solar Thermal)AC NoneWater Heating Solar ThermalVentilation NatureEnergy GenerationPassive Solar Heating
YesPV 9.8 kWWind NoneSolar Thermal Yes
Source: Hoque, S., 2010, Net zero energy homes: an evaluation of two homes in the northwestern United States, Journal of Green Building, Vol. 5 (2), pp. 79-90.
NZE House in Lebanon, NJ (cont.)
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NZE House in Charlotte, VT
Source: Hoque, S., 2010, Net zero energy homes: an evaluation of two homes in the northwestern United States, Journal of Green Building, Vol. 5 (2), pp. 79-90.
ElementsBldg. Orientation True south, daylightingLayout Open planConditioned Area 2800 sq. ft. (260 m2)Framing 2 by 6 at 24” O.C.Type Single-family detachedMaterials FSC Certified wood
Local crafted concrete countertopsLocal sustainable harvested mapleFlooring & hardwoodsCellulose & denim insulationReclaimed fir columns
LEED certification LEED Platinum
SpecificationsSlab Floors NoneFoundation Walls R-19 (3 m2K/W)Basement Ceiling R-19 (3 m2K/W)Above Grade Walls R-40 (7 m2K/W)Roof R-56 (10 m2K/W)Windows R-10 (2 m2K/W)Relative Humidity 40-50%Infiltration Rate 2.0 ACH@50Pa
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Energy SystemsEnergy ConsumptionHeating Radiant (Ground source
HP)AC NoneWater Heating Instantaneous (on-
demand)Ventilation HRVEnergy GenerationPassive Solar Heating
No
PV NoneWind 10 kWSolar Thermal Hybrid (GHP + on-
demand)
Source: Hoque, S., 2010, Net zero energy homes: an evaluation of two homes in the northwestern United States, Journal of Green Building, Vol. 5 (2), pp. 79-90.
NZE House in Charlotte, VT (cont.)
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EcoTerra HouseTM, Canada
http://sbrn.solarbuildings.ca/main.php?l=e&d=1&i=3&t=demoprojects
• Built in November, 2007• Two-story detached home, 234
m2• 3 kW BIPV/Thermal system on a
55 m2 south-facing roof (22 amorphous silicon 135W cells)
• 10 kW solar thermal generation• Two-stage Geothermal heat
pumpSource: Noguchi et al., 2008, Net zero energy homes of the future: a case study of the EcoTerraTM House in Canada, Presented at the Renewable Energy Congress, Glasgow, Scotland, July 19-25, 2008
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EcoTerra HouseTM, Canada
Source: Noguchi et al., 2008, Net zero energy homes of the future: a case study of the EcoTerraTM House in Canada, Presented at the Renewable Energy Congress, Glasgow, Scotland, July 19-25, 2008
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Non-Residential Examples: Lewis Center, Ohio
Source: http://www.oberlin.edu/archive/resources/photoguide/lewis_center.html• Two-story, 13,600 sq. ft.• Renovation completed in
2000• Building includes
classrooms, offices, an auditorium, an atrium
• 60-kW PV system covers the entire roof (690 85-Watt single crystalline modules) Zone-decentralized heating and cooling system
For classrooms, offices and corridors For auditorium
Source: Pless and Torcellini, 2004, Energy Performance Evaluation of an Educational Facility: The Adam Joseph Lewis Center for Environmental Studies, Oberlin College, Oberlin, Ohio, NREL Technical Report, NREL/TP-550-33180
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Lewis Center, Ohio (Cont.)
Source: Pless and Torcellini, 2004, Energy Performance Evaluation of an Educational Facility: The Adam Joseph Lewis Center for Environmental Studies, Oberlin College, Oberlin, Ohio, NREL Technical Report, NREL/TP-550-33180
Building electric system plan and DAQ meter locations
Average daily performance, March 1, 2001 through Feb. 28, 2002
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The Science House, Minnesota
Source: http://leedresource.wordpress.com/2012/02/11/zero-energy-buildings-myth-or-must
• New construction completed in 2003
• Single-story, 1530 sq. ft.• Occupied by 2 people; 795
visitors per week• Wood-frame structure• 8.8 kW PV system• Project cost: $650,000
1) Science house changes from energy user to energy producer 2) new equipment plugged into the Science House 3) Science House goes into unoccupied mode, equipment except for card reader is turned off 4) Science House becomes net energy user
Weekly Energy Balance in 2005
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ORNL Office Building 3156
• Two-story, 6,940 sq. ft.• Last renovation completed
in 2009• 31 occupants; 23 offices +
1 conference room• Commercial office, campus• 51-kW PV system• High efficiency packaged
terminal heat pumps• Total project cost (land
excluded): $660,000
Renovation Highlights:• R-23 roof insulation with a high-
performance reflective membrane added
• High efficacy T8 lighting using electronic ballasts
• Occupancy sensors to control both HVAC and lighting
• A energy consumption monitoring system to better understand energy use profile of the building
http://femp.buildinggreen.com/energy.cfm?ProjectID=1585
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NIST nZEH Test Facility
• Located at Gaithersburg, MD• Designed to achieve LEED platinum• To demonstrate a residence, typical in DC area, can achieve nZEH• To provide “real world” field data for validation and improvement
http://www.nist.gov/el/building_environment/heattrans/upload/netzerofinal.pdf
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NIST nZEH Test Facility-its Unique Features
http://www.nist.gov/el/building_environment/heattrans/upload/netzerofinal.pdf
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NZEB Database from DOELEED PlatinumLEED Platinum
LEED Platinum
LEED Platinum• Source: http://zeb.buildinggreen.com/• 10 projects from DOE Zero Energy Buildings database• Building types include: commercial offices, recreation, education/lab,
residential, interpretive center and retail• Some of them are also LEED platinum rating and HERS level 0
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Technologies Available for NZEB
Source: http://www.ecofuturesbuilding.com/learn-zero/what-is-zero-net-energy/
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Summary of the Main Technologies for NZEB
Proven technologies Still developing technologies
Technologies on thehorizon
Thermal insulation
Low conductivity materials; Reflective materials
Reflective roofs; green roofs; exploring new materials for thermal insulation
Smart reflective roofs; cool colored paints (with IR reflective pigments); nanomaterials for thermal insulation; highly insulation façade systems
Windows Multi-layer windows;Low-e glazing; gas filled air gaps; thermal break frames
Glazings with dynamic properties(e.g. electrochromics)
BIPV glazings; solar glazing; solar curtain walls
Lighting CFL; LED; daylight harvest through transparent envelope
CFL; LED;intelligent, dynamic and/or light-redirecting facades with automated lighting controls
Intelligent naturaldaylighting distributing systems
Source: Maria Kapsalaki & Vitor Leal (2011): Recent progress on net zero energy buildings, Advances in Building Energy Research, 5:1, 129-162
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Summary of the Main Technologies for NZEBProven technologies Still developing
technologiesTechnologies on the horizon
Heating and cooling equipment
Condensing gas boilers; biomass boilers; high EER chillers and heat pumps (ground and air source)
Micro CHP Solar CHP; thermally activated HP; TE cooling; frostless HP; distributed refrigeration/water-source HP
Ventilation Mixed mode natural and mechanical with heat recovery (HR); nightlycooling; stack effect ventilation
Hybrid ventilation systems with automatic controls; displacement ventilation
Heat recovery windows; personalized ventilation
Renewable technologies
Thermal solar; biomass heating; PV systems; PV thermal solar systems; air solar collectors
PV systems (increased efficiency); PV thermal solar systems
BIPV systems, wind turbines (WT) and micro WT
Building energy management systems
Sensors; energy control(zone heating and cooling) and monitoring systems
Monitoring and control systems running on IP communication infrastructure
Improved management systems with grid/consumer supply-demand integration
Source: Maria Kapsalaki & Vitor Leal (2011): Recent progress on net zero energy buildings, Advances in Building Energy Research, 5:1, 129-162
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ZEB Renewable Energy OptionsOption Number (Hierarchy)
ZEB Supply-Side Options Examples
0 Reduce site energy use low-energy building technologies
Daylighting, high-eff. HVAC equip., natural ventilation, evaporative cooling…
On-site Supply Options1 Use renewable energy sources
within the building’s footprintPV, solar hot water, and wind located on the building
2 Use renewable energy sources available at the site
PV, solar hot water, low-impact hydro, and wind located on-site, but not on the building
Off-site Supply Options3 Use renewable energy sources
available off site to generate energy on site
Biomass, wood pellets, ethanol…
4 Purchase off-site renewable energy sources
Utility-based wind, PV, emissions credits, other “green” purchasing options
Highly preferred
preferred
Source: Torcellini et al., 2006, Zero energy buildings: a critical look at the definition, ACEEE Summer Study, Aug. 14-18, Pacific Gove, CA
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Technology Penetration
Data is collected based on a database of 60 net zero energy/ net zero energy capable commercial buildings
Source: Getting to zero 2012 status update: a first look at the costs and features of zero energy commercial buildings, New Building Institute research report, March 2012
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Solar Curtain Wall
Source: Case study: solar curtain wall, Konarka, Aug. 2011
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Building Integrated Wind Turbines
Source: http://www.mymodernmet.com/profiles/blogs/what-big-wind-turbines-you; http://sustainability.yale.edu/sites/default/files/bec3.jpg
Wind turbines in World Trade Center, Bahrain Micro wind turbines in Yale Univ.
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Cost/Performance Curve
Source: Anderson R. and Roberts D., Maximizing Residential Energy Savings: Net Zero Energy Home Technology Pathways, NREL/TP-550-44547
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Previous ThermCom Development
47
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Max Tech and Beyond: Ultra-Low Energy Use Appliance Design Competition for 2011-2012
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SSLCAC Design Overview
Radiative Heat Exchanger: Cooling Wall49
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Other examples
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Net Zero Homes
Sep. 2010 R. Radermacher
51 Net Zero home - Ft. Worth, Texas
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Net Zero Homes
Sep. 2010 R. Radermacher
52Net Zero “Beach House” - California
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Net Zero Homes
Sep. 2010 R. Radermacher
53Net Zero - Chicago
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Net Zero Homes
Sep. 2010 R. Radermacher
54Net Zero – Staplehurst, England
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Net Zero Homes
Sep. 2010 R. Radermacher
55
“Cannon Beach Residence” Oregon coast
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Net Zero Homes• LEED Platinum• Currently holds highest rating for a Net Zero residence in the US• Produces 40% more energy than it consumes
Sep. 2010 R. Radermacher
56Yannell Residence, Illinois
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Belgian NZE station at Antartica
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Sustainable Homes