– PHI (original Central European) criteria is constant

≤4.75 kBtu (1.39 kW) / ft² [15 kWh / m²] annual heating demand, and

≤4.75 kBtu (1.39 kW) / ft² [15 kWh / m²] annual cooling demand

OR

≤3.17 Btu/h (0.93 W) / ft² [10 W /m²] peak hour heating load, and

≤2.54 Btu/h (0.74 W) / ft² [7.96 W per m²] peak hour cooling load

regardless of climate zone (hot/humid, marine, mixed, cold/dry)

– PHIUS 2018 (United States and Canada) criteria varies by climate zone (less restrictive in hot/humid and cold/dry climates and more restrictive in milder/less extreme climates), the occupant load density and the building envelope surface area to floor area ratio

For example, climate zones in Southern Wisconsin/Northern Illinois the values average (presuming 1 occupant/200 ft2):

≤ 8.4 kBtu (2.46 kW) / ft² [26.4 kWh / m²] annual heating demand

≤ 8.4 kBtu (2.46 kW) / ft² [26.4 kWh / m²] annual cooling demand

OR

≤ 7.3 Btu (2.14 W) / ft² [23 W / m²] peak hourly heating load

≤ 3.3 Btu (0.97 W) / ft² [10.4 W / m²] peak hourly cooling load

Current U.S. and Canadian codes do not establish a maximum.

• PHI (original Central European) criteria is measured based upon interior building volume
  ≤0.6 ACH₅₀ (1 Air Change/100 minutes) tested at 50 Pascals [1 lb./ft²])
• PHIUS 2018 (United States and Canada) criteria is based upon six sided building envelope surface area
  ≤0.05 CFM/ft²₅₀ (0.05 Cubic Feet/Minute) tested at 50 Pascals [1 lb./ft²] [0.2 w.g.]) (0.25 L/s * m²)

OR

Current U.S. and Canadian codes define air impermeable material as leaking ≤ 0.004 CFM/ft² ₇₅ (0.02 L/s * m²) tested at 75 Pascals [1.5 lb./ft²] [0.3 w.g.]

2018 ICC IECC 1,2,3 commercial building provisions allow compliance if:

• Whole building envelope ≤4 CFM/ft² ₇₅ (2.0 L/s * m²) tested at 75 Pascals [1.5 lb./ft²] [0.3 w.g.]
• Specific building assemblies ≤04 CFM/ft² ₇₅ (0.2. L/s * m²) tested at 75 Pascals [1.5 lb./ft²] [0.3 w.g.]
• Specific building materials ≤004 CFM/ft² ₇₅ (0.02 L/s * m²) tested at 75 Pascals [1.5 lb./ft²] [0.3 w.g.] – same as air impermeable material

2018 ICC IECC 1,2,3 residential building provisions allow compliance if:

• Whole building air volume ≤ 5 ACH₅₀ (1 Air Change/12 minutes) tested at 50 Pascals [1 lb./ft²] [0.2 w.g.] in climate zones 1 through 3
• Whole building air volume ≤ 3 ACH₅₀ (1 Air Change/20 minutes) tested at 50 Pascals [1 lb./ft²] [0.2 w.g.] in climate zones 4 through 8
• Meet any of criteria within commercial building provisions

– PHI (original Central European) criteria is constant

≤38.1 kBtu (11.2 kW) / ft² (120 kWh / m²) annual source energy demand regardless of building occupancy type

– PHIUS 2018 (United States and Canada) criteria is

≤3840 kWh /occupant for dwelling units (presuming 2 occupants for 1st bedroom plus 1 for each additional bedroom)

AND

≤34.8 kBtu (10.2 kW) / ft² (109.6 kWh / m²) annual total source energy demand for all other occupancies

 Inclusive of space heating/cooling/dehumidification, domestic (service) hot water production, miscellaneous electrical load [MEL] and auxiliary (energy harvesting systems equipment operation) electricity

Current U.S. and Canadian codes do not establish a maximum.

Source (primary), unlike site (final) energy includes the amount of energy it took to harvest fuel source, transport it to energy conversion plant (i.e. electrical plant or fuel refinery) and transport or transmit it to site. In the US, factors for converting site (final) energy to source (primary) are 1.1 for all fuels other than electricity and between 2.894 and 4.022 depending on which of the 4 electric grids the site/building is connected. (Source – US EIA and 2018 ICC IECC) PHIUS+ 2018 and Energy Star Portfolio use 2.8