Seattle
Summary
Seattle’s energy code is based on the Washington state energy code but includes additional local requirements to improve building performance. Energy performance criteria are outlined for residential and non-residential buildings, addressing thermal envelope components and minimum energy efficiency requirements for HVAC, hot water and lighting. The code encompasses a simple prescriptive approach, a building design by component approach or a systems analysis (reference building) approach to show compliance.
Seattle established its first comprehensive energy efficiency program in 1980 and has continued to periodically improve efficiency requirements. The 2009 code and surrounding policies encompass a number of dynamic initiatives to improve energy efficiency; air-tightness testing, mandatory heat recovery for non-residential buildings, commissioning requirements for HVAC, hot water and lighting controls, renewable energy requirements for large buildings, long term State target to meet the 2030 Challenge (net-zero) and be carbon neutral by 2050, and special energy efficiency requirements for public buildings.
General information
Remit Code
Coverage
-
Residential buildings
- One family
-
Multiple family buildings
- State averages (not current code levels) and Targets for Seattle 2030 Challenge kBtu/ft2·yr.
- Other buildings
-
Commercial buildings
- Offices
- Retail and wholesale
- Hotels
- Hospitals
- Educational buildings
- Other buildings
- Industrial buildings
- Large Cities
- All urban buildings
- Rural buildings
-
GBPN Climate Classification
- Cooling Based
- Heating Based
- Warm and Humid
- Mixed
- 1 official climate zone - heating based climate
Type of Building Code
Type of Building Code
- Cooling Based
- Prescriptive Codes
-
Trade Off
Building Design by Component Performance Approach.
- Performance Codes for Refurbishments
- Performance Codes for New Builds
- Energy Declaration
-
Model / reference Building
Building Design by Systems Approach, for the entire building and its energy-using sub-systems which may utilize renewable energy sources. The proposed building's annual space heating , space cooling and domestic hot water heating energy use does not exceed the annual space heating, space cooling and domestic hot water heating energy use of a standard building. For Non-residential and Multifamily Residential buildings a baseline building design shall be modeled with the same number of floors.
- Mix of different models / Hybrids
Energy Covered
Basis for Energy Requirements
-
Overall performance frame
Partially, Building Design by Systems Approach - Energy targets are based on site energy compared with expected energy use of a standard building.
-
Final Energy
Site Energy
- Primary Energy
-
Life Cycle Assessment considered (embedded energy)
Partially, some governmental buildings such as schools are required to perform life-cycle assessments.
Energy Uses and Functions Covered by the Code
-
Heating
Minimum equipment efficiency standards for each category of heating equipment, but no baseline performance requirement. An absolute performance standard may be enacted in a future Seattle code.
-
Cooling
Minimum equipment efficiency standards for each category of cooling equipment, but no baseline performance requirement. An absolute performance standard may be enacted in a future Seattle code.
-
Dehumidification
Residential Humidity Control. If a system is equipped with a means for adding moisture to maintain specific selected relative humidities in space or zones, a humidistat shall be provided. Humidistats shall be capable of being set to prevent new energy from being used to produce space- relative humidity above 30%.
-
Ventilation
Minimum equipment efficiency standards for each category of ventilation equipment. Specific requirements for location and insulation of ducting.
-
Airtightness
Residential Building envelope air leakage control shall be considered acceptable when tested to have an air leakage less than 0.00030 Specific Leakage Area (SLA) when tested with a blower door at a pressure of 50 Pascals (0.2 inch w.g.). Seattle's 2009 code mandates air barriers and blower door testing for all non-residential buildings. The leakage standard (in US units of measurement) is 0.40 cfm/SF @ 75 Pascals
-
Thermal bridging
Thermal bridging has been addressed by requiring continuous insulation outside of the building frame and foundation, and by limiting the area of metal penetrations through that continuous insulation. No linear value available
-
Hot water
Minimum energy efficiency requirements that depend on the system installed and the fuel type used.
- Technical installations
-
Lighting
Interior Lighting: A minimum of 50 percent of all luminaires shall be high efficacy luminaires.
- Appliances
- Design, position & orientation of building
-
Heat recovery
Heat recovery from exhaust air is mandated for most non-residential buildings, with a standard of 50% effectiveness. Heat recovery from waste water is not mandated, although it may be in future codes.
-
Passive solar
Solar shading requirements. Solar Shading and Access: Building designs using passive solar features with 8% or more south facing equivalent glazing to qualify shall provide to the building official a sun chart or other approved documentation depicting actual site shading for use in calculating compliance under this section. The building shall contain at least 45 Btu/°F for each square foot of south facing glass.
-
Passive cooling
Partially.
- Natural ventilation
-
Solar protection
Partially.
-
Daylighting requirements
Daylight lighting controls requirements to reduce energy used by electric lighting systems.
-
Renewable Energy (solar, PV, others)
Seattle has a requirement for a very small amount of renewable energy. Energy derived from renewable sources may be excluded from the total annual energy consumption. All new buildings and additions of more than 5,000 ft2 to existing building projects shall contain on-site renewable energy systems that provide the annual energy production equivalent of 500 Btu/ft2 of gross conditioned floor area.
- Local renewable sources
- Energy Offsets/Green Certificates
Enforcement
Type of Enforcement
-
Local enforcement
The State Building Code Act requires that each local jurisdiction enforce the State Building Code within its jurisdiction. Any jurisdiction can contract with another jurisdiction or an inspection agency to provide the mandated enforcement activities. For commercial buildings, the city or county, or its designated enforcement agency, can enforce the code or require the building owner to hire a certified nonresidential energy special inspector to perform the plan review and/or field inspection. -
Third party inspection
Smaller jurisdictions with limited staff often retain third-party plan review services. Certain critical installations require continuous monitoring by a third-party engineering firm. - Central enforcement
- Accreditation of applicants
- Post Occupancy control
On-site Inspections Occur
- On-site inspections
- During construction
-
Post completion
For energy intensive systems only. - Post occupancy
Certification to Support Enforcement of Code
-
Energy Performance Certificate support BC
No. -
Positive labeling for building beyond the minimum BC level
No. -
Existence of EPC register database at national level
No. -
Inspection of boilers
At the completion of construction, no ongoing requirements. -
Inspection of HVAC systems
At the completion of construction, no ongoing requirements.
Penalties for Non-compliance
- None
-
Fine
Very rarely, fines have been imposed for violations of safety regulations, but never for energy use issues. - Imprisonment
-
Refusal of permission to occupy
The main enforcement tool is controlling when a building permit is issued and when a Certificate of Occupancy is issued at the end of construction. Similar to IECC and ASHRAE - Refusal of permission to construct
- Demolition
Measures Supporting Enforcement
-
Commissioning requirements
At the completion of construction. Considering enacting rules to require periodic retro-commissioning of systems, but have not yet formally introduced such legislation. -
Airtightness testing required prior to compliance
Blower door testing requirements for all non-residential buildings. Testing shall occur at any time after rough in and after installation of penetrations of the building envelope, including penetrations for utilities, plumbing, electrical, ventilation, and combustion appliances and sealing thereof. When required by the building official, the test shall be conducted in the presence of department staff. -
Mandatory Computer Modeling
For Non-residential and Multifamily Residential buildings compliance through the performance rating method -
Training of Inspectors
Training and certification are available from ICC and other organizations. - Other
Values for New Buildings
Single Family Residential Buildings
Mean | Min | Max | |
---|---|---|---|
HDD (°C) | 2652 | ||
CDD (°C) | 196 |
U-Value (W/m²K) | |||
---|---|---|---|
Roof | 0.1158777596 | Roof2 | 0.1158777596 |
Wall | 0.2839 | Wall2 | 0.2839 |
Floor | 0.1892664774 | Floor2 | 0.1892664774 |
Window | 1.93052 | Window2 | 1.7034 |
Other | 1.93052 | - | - |
Overall U-Value | - | - | - |
Window1 | Window2 | |
---|---|---|
G Value/SHGC | ||
Visible Transmission | ||
Percent |
Other Requirements Set for
-
Thermal bridge demands
Thermal bridging has been addressed by requiring continuous insulation outside of the building frame and foundation, and by limiting the area of metal penetrations through that continuous insulation. No linear value available.
- Ventilation requirements (Electricity consumption for air transportation?)
-
Pressure testing for ducting
Duct work and plenums shall be sealed and tested in accordance relevant standards.
-
Domestic Hot Water COP - Heat Pump
Depending on the system, water source, ground water source etc. All systems tested to relevant standards ANSI / ASHRAE 127, AHRI 1230, AHRI 210/240 and AHRI 340/360.
-
Value for airtightness
Non-residential only -The leakage standard (in US units of measurement) is 0.40 cfm/SF @ 75 Pascals.
-
Requirements for heat recovery
Heat recovery from exhaust air is mandated for most non-residential buildings, with a standard of 50% effectiveness. Heat recovery from waste water is not mandated, although it may be in future codes.
-
Technical HVAC systems
Minimum efficiency requirements for most systems. Additional temperature and humidity control, zoning, heat pump control requirements.
- Coefficient of performance of HVAC system
-
Requirements for efficient lighting
Interior Lighting: A minimum of 50 percent of all luminaires shall be high efficacy luminaires.
Energy Performance Requirements
-
Energy performance value
This is an average, no official value exists.
- Energy unit
Non-Residential Buildings
Mean | Min | Max | |
---|---|---|---|
HDD (°C) | 2652 | ||
CDD (°C) | 196 |
U-Value (W/m²K) | |||
---|---|---|---|
Roof | 0.153306 | Roof2 | - |
Wall | 0.289578 | Wall2 | 0.323646 |
Floor | 0.14195 | Floor2 | 0.164662 |
Window | 1.7034 | Window2 | 3.4068 |
Other | 1.7034 | - | - |
Overall U-Value | - | - | - |
Window1 | Window2 | |
---|---|---|
G Value/SHGC | 0.33 | 0.33 |
Visible Transmission | 0.51 | 0.51 |
Percent |
Other Requirements Set for
-
Thermal bridge demands
Thermal bridging has been addressed by requiring continuous insulation outside of the building frame and foundation, and by limiting the area of metal penetrations through that continuous insulation. No linear value available
- Ventilation requirements (Electricity consumption for air transportation?)
-
Pressure testing for ducting
Duct work and plenums shall be sealed and tested in accordance relevant standards
-
Domestic Hot Water COP - Heat Pump
Depending on the system, water source, ground water source etc. All systems tested to relevant standards ANSI / ASHRAE 127, AHRI 1230, AHRI 210/240 and AHRI 340/360
-
Value for airtightness
Non-residential -The leakage standard (in US units of measurement) is 0.40 cfm/SF @ 75 Pascals.
-
Requirements for heat recovery
Heat recovery from exhaust air is mandated for most non-residential buildings, with a standard of 50% effectiveness. Heat recovery from waste water is not mandated, although it may be in future codes.
-
Technical HVAC systems
Minimum efficiency requirements for most systems. Additional temperature and humidity control, zoning, heat pump control requirements.
-
Requirements for efficient lighting
Interior Lighting: A minimum of 50 percent of all luminaires shall be high efficacy luminaires.
Residential Buildings (other than single-family)
Mean | Min | Max | |
---|---|---|---|
HDD (°C) | 2652 | 2652 | 2652 |
CDD (°C) | 196 | 196 | 196 |
U-Value (W/m²K) | |||
---|---|---|---|
Roof | 0.153306 | Roof2 | - |
Wall | 0.323646 | Wall2 | 0.51102 |
Floor | 0.164662 | Floor2 | 0.164662 |
Window | 1.81696 | Window2 | 2.2712 |
Other | 1.81696 | - | - |
Overall U-Value | - | - | - |
Window1 | Window2 | |
---|---|---|
G Value/SHGC | ||
Visible Transmission | ||
Percent |
Other Requirements Set for
-
Thermal bridge demands
Thermal bridging has been addressed by requiring continuous insulation outside of the building frame and foundation, and by limiting the area of metal penetrations through that continuous insulation. No linear value available
- Ventilation requirements (Electricity consumption for air transportation?)
-
Pressure testing for ducting
Duct work and plenums shall be sealed and tested in accordance relevant standards.
-
Domestic Hot Water COP - Heat Pump
Depending on the system, water source, ground water source etc. All systems tested to relevant standards ANSI / ASHRAE 127, AHRI 1230, AHRI 210/240 and AHRI 340/360
-
Requirements for heat recovery
Heat recovery from exhaust air is mandated for most non-residential buildings, with a standard of 50% effectiveness. Heat recovery from waste water is not mandated, although it may be in future codes.
-
Technical HVAC systems
Minimum efficiency requirements for most systems. Additional temperature and humidity control, zoning, heat pump control requirements.
-
Requirements for efficient lighting
Interior Lighting: A minimum of 50 percent of all luminaires shall be high efficacy luminaires.
Non-residential
Mean | Min | Max | |
---|---|---|---|
HDD (°C) | 2652 | ||
CDD (°C) | 196 |
U-Value (W/m²K) | |||
---|---|---|---|
Roof | 0.153306 | Roof2 | - |
Wall | 0.289578 | Wall2 | 0.698394 |
Floor | 0.164662 | Floor2 | 0.164662 |
Window | 1.81696 | Window2 | 2.2712 |
Other | 1.81696 | - | - |
Overall U-Value | - | - | - |
Window1 | Window2 | |
---|---|---|
G Value/SHGC | 0.33 | 0.33 |
Visible Transmission | 0.4 | 0.4 |
Percent |
Other Requirements Set for
-
Thermal bridge demands
Thermal bridging has been addressed by requiring continuous insulation outside of the building frame and foundation, and by limiting the area of metal penetrations through that continuous insulation. No linear value available
- Overall Thermal bridge max value
- Ventilation requirements (Electricity consumption for air transportation?)
-
Pressure testing for ducting
Duct work and plenums shall be sealed and tested in accordance relevant standards
-
Domestic Hot Water COP - Heat Pump
Depending on the system, water source, ground water source etc. All systems tested to relevant standards ANSI / ASHRAE 127, AHRI 1230, AHRI 210/240 and AHRI 340/360
-
Value for airtightness
Non-residential -The leakage standard (in US units of measurement) is 0.40 cfm/SF @ 75 Pascals.
-
Requirements for heat recovery
Heat recovery from exhaust air is mandated for most non-residential buildings, with a standard of 50% effectiveness. Heat recovery from waste water is not mandated, although it may be in future codes.
-
Technical HVAC systems
Minimum efficiency requirements for most systems. Additional temperature and humidity control, zoning, heat pump control requirements.
-
Requirements for efficient lighting
Interior Lighting: A minimum of 50 percent of all luminaires shall be high efficacy luminaires.
Residential Buildings, (other than single-family)
Mean | Min | Max | |
---|---|---|---|
HDD (°C) | 2652 | ||
CDD (°C) | 196 |
U-Value (W/m²K) | |||
---|---|---|---|
Roof | 0.153306 | Roof2 | - |
Wall | 0.249832 | Wall2 | 0.45424 |
Floor | 0.164662 | Floor2 | 0.164662 |
Window | 1.81696 | Window2 | 2.2712 |
Other | 1.81696 | - | - |
Overall U-Value | - | - | - |
Window1 | Window2 | |
---|---|---|
G Value/SHGC | ||
Visible Transmission | ||
Percent |
Other Requirements Set for
-
Thermal bridge demands
Thermal bridging has been addressed by requiring continuous insulation outside of the building frame and foundation, and by limiting the area of metal penetrations through that continuous insulation. No linear value available
- Ventilation requirements (Electricity consumption for air transportation?)
-
Pressure testing for ducting
Duct work and plenums shall be sealed and tested in accordance relevant standards
-
Domestic Hot Water COP - Heat Pump
Depending on the system, water source, ground water source etc. All systems tested to relevant standards ANSI / ASHRAE 127, AHRI 1230, AHRI 210/240 and AHRI 340/360
-
Requirements for heat recovery
Heat recovery from exhaust air is mandated for most non-residential buildings, with a standard of 50% effectiveness. Heat recovery from waste water is not mandated, although it may be in future codes.
-
Technical HVAC systems
Minimum efficiency requirements for most systems. Additional temperature and humidity control, zoning, heat pump control requirements.
- Requirements for efficient lighting
Code History and Future Targets
-
How far in advance are future targets set?3-5 years
-
Are stakeholders informed of future targets far in advance?Yes
Zero Energy Targets
-
Definition of nZEB/ZEB/Plus Energy etc
Partially, no official definition.
- Are all end uses considered in the target?
- Is there a realistic roadmap towards ZEB
-
National Target date for nZEB
Target for net-zero energy new buildings by 2030, and for the City to be fully carbon-neutral by 2050.
- Special Requirements for public buildings
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Multiple Sets of Data
-
Levels beyond minimum
Many projects do go beyond code minimum, but in general this is entirely voluntary. The state will be creating an "aspirational code" next year, which will also be voluntary.
- Year historic or aspirational codes (planned)
- Baseline (actual code if nothing else)
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Actual level of Energy Consumption in Target
-
Relative target in percent
70% less energy used by 2015, non-residential.
- Levels set in energy frame
- Levels set in primary energy
- Levels set in GHG emissions
- Levels calculated based on prescriptive
-
Primary Energy Performance Frame Non-Residential
70% less energy used by 2015, non-residential
- Text to explain energy types included
Supporting Measures
- Incentives/Rewards to Encourage People to go beyond Minimum Level?
- Involvement of Stakeholders in the Development of Codes
- Level of Training Provided to Stakeholders Following Implementation of Code?
- Provision of Appropriate Information for General Public
- Supporting Certification Schemes
- Codes Free to Access?
- Text on Code Access