The compliance software models attics as a separate thermal zone and includes the interaction with the air distribution ducts, infiltration exchange between the attic and the house, the solar gains on the roof deck and other factors. These interactions are illustrated in Figure 2-11.
2.6.1.1 Roof Rise
This is the ratio of rise to run (or pitch), and refers to the number of feet the roof rises every 12 feet. For roofs with multiple pitches the roof rise that makes up the largest roof area is used.
2.6.1.2
Vent
Area
This value is the vent area as a fraction of attic floor area. This value is not a compliance variable and is assumed to be a value equal to attic floor area/300.
2.6.1.3
Fraction
High
The fraction of the vent area that is high due to the presence of ridge, roof or gable end mounted vents. Soffit vents are considered low ventilation. Default value is 0 for attics with standard ventilation. Attics with radiant barriers are required to have a vent high fraction of at least 0.3.
2.6.1.4
Roof Deck/Surface
Construction 
Typical roof construction types are concrete or clay tile, metal tile or wood shakes, or other high or low sloped roofing types.
2.6.1.5
Solar
Reflectance
This input is a fraction that specifies the certified aged reflectance of the roofing material or 0.1 default value for uncertified materials. The installed value must be equal to or higher than the value specified here. Roof construction with a roof membrane mass of at least 25 lb/ft3 or a roof area that has integrated solar collectors is assumed to meet the minimum solar reflectance.
2.6.1.6
Emittance
The certified aged emittance (or emissivity) of the roofing material, or a default value. The installed value must be equal to or greater than the value modeled here. Default value is 0.85 if certified aged thermal emittance value is not available from the Cool Roof Rating Council (www.coolroofs.org). Roof construction with a roof membrane mass of at least 25 lb/ft3 or roof area incorporated integrated solar collectors are assumed to meet the minimal emittance.
Proposed Design
The conditioning is either ventilated or conditioned. Each characteristic of the roof is modeled to reflect the proposed construction. Values for solar reflectance and emittance shall be default or from the Cool Roof Rating Council.
Roofs with PV systems or with thermal mass over the roof membrane with a weight of at least 25 lb/ft² may model the Package A values for solar reflectance and emittance.
Standard Design
The standard design depends on the variables of the climate zone and roof slope. Low-sloped roofs (with a roof rise of 2 feet in 12 or less) in climate zones 13 and 15 will have a standard design aged solar reflectance of 0.63 and a thermal emittance of 0.85.
Steep-sloped roofs in climate zones 10 through 15 will have a standard design roof with an aged solar reflectance of 0.20 and a minimum thermal emittance of 0.85.
Roofs with PV systems or with thermal mass over the roof membrane with a weight of at least 25 lb/ft² are assumed to meet the standard design values for solar reflectance and thermal emittance.
Verification and Reporting
Each input of Section 2.3.2 Attics modeled for the proposed design is reported on the CF1R for verification. A reflectance of 0.20 or higher is reported as a cool roof, a value higher than the default but less than 0.20 is reported as a non-standard roof reflectance value.
Proposed Design
For each conditioned zone, the user enters the area and construction of each ceiling surface that is below an attic space. The compliance software shall allow a user to enter multiple ceiling constructions. Surfaces that tilt 60 degrees or more are treated as knee walls and are not included as ceilings. The sum of areas shall equal the overall ceiling area with conditioned space on the inside and unconditioned attic space on the other side.
The compliance software creates an attic zone whose floor area is equal to the sum of the areas of all of the user input ceilings below an attic in the building. The user specifies the framing and spacing, the materials of the frame path and the R-value of the insulation path for each ceiling construction.
The user inputs the proposed insulation R-value rounded to the nearest whole R. For simulation, all ceiling below attic insulation is assumed to have nominal properties of 2.6 R/inch, a density of 0.5 lb/ft3 and a specific heat of 0.2 Btu/lb.
Standard Design
The standard design shall have the same area of ceiling below attic as the proposed design. The ceiling/framing construction is based on the Package A prescriptive requirement and standard framing is assumed to be 2x4 wood trusses at 24 inches on center.
Verification and Reporting
The area, insulation R-value, and layer of each construction is reported on the CF1R.
Proposed Design
The roof pitch is the ratio of run to rise, e.g., 4:12 or 5:12. If the proposed design has more than one roof pitch, the pitch of the largest area is used.
The compliance software creates an attic zone roof. The roof area is calculated as the ceiling below attic area divided by the cosine of the roof slope where the roof slope is angle in degrees from the horizontal. The roof area is then divided into four equal sections with each section sloping in one of the cardinal directions (north, east, south and west). Gable walls, dormers or other exterior vertical surfaces that enclose the attic are ignored.
If the user specifies a roof with a pitch less than 2:12, the compliance software creates an attic with a flat roof that is 30 in. above the ceiling.
Standard Design
The standard design shall have the same roof pitch, roof surface area and orientations as the proposed design.
Verification and Reporting
The roof pitch is reported on the CF1R.
Proposed Design
When spray foam insulation is applied to a roof that will not be vented, it is modeled as a “conditioned” attic and the volume of the attic is included in the conditioned space. A conventional attic is assumed to be “ventilated.”
Standard Design
Attic ventilation is not a compliance variable and is the same for both proposed and standard design.
Verification and Reporting
The attic conditioning (ventilated, conditioned) is reported on the CF1R.
With a standard roof truss (Figure 2-12), the depth of the ceiling insulation is restricted to the space left between the roof deck and the wall top plate for the insulation path and the space between the bottom and top chord of the truss in the framing path. If the modeled insulation completely fills this space, there is no attic air space at the edge of the roof. Heat flow through the ceiling in this attic edge area is directly to the outside both horizontally and vertically, instead of to the attic space. Measures that depend on an attic air space, such as radiant barriers or ventilation, do not affect the heat flows in the attic edge area.
A raised heel truss (Figure 2-13) provides additional height at the attic edge that, depending on the height Y and the ceiling insulation R, can either reduce or eliminate the attic edge area and its thermal impact.
For cases where the depth of insulation (including below deck insulation depth) is greater than the available height at the attic edge, the compliance software automatically creates cathedral ceiling surfaces to represent the attic edge area and adjusts the dimensions of the attic air space using the algorithms contained in the document 2013 Residential Alternative Calculation Method Algorithms. If above deck insulation is modeled, it is included in the attic edge cathedral ceiling constructions, but radiant barriers below the roof deck are not.
Proposed Design
The compliance software shall allow the user to specify that a raised heel truss will be used (as supported by construction drawings), with the default being a standard truss as shown in Figure 2-12. If the user selects a raised heel truss, the compliance software will require the user to specify the vertical distance between the wall top plate and the bottom of the roof deck (Y in Figure 2-13).
Standard Design
The standard design shall have a standard truss with the default vertical distance of 3.5 in. between wall top plate and roof deck as shown in Figure 2-12.
Verification and Reporting
A raised heel truss is a special feature and its vertical height above the top plate will be included on the CF1R.
The roof deck is the construction at the top of the attic and includes the solar optic properties of the exterior surface, the roofing type, the framing, insulation, air gaps and other features. These are illustrated in Figure 2-14, which shows a detailed section through the roof deck.
2.6.6.1
Radiant Barrier
Radiant barriers are used to reduce heat flow at the bottom of the roof deck in the attic. A 0.05 emittance is modeled at the bottom surface of the roof deck if radiant barriers are used. If no radiant barrier is used, the value modeled is 0.9. If radiant barrier is installed over existing skip sheathing in a reroofing application, 0.5 is modeled.
Proposed Design
The user shall specify whether or not the proposed design has a:
•Continuous Radiant Barrier
•Radiant Barrier over Discontinuous Sheathing
•No Radiant Barrier
Standard Design
The standard design shall have a radiant barrier if required by the prescriptive standards (§150.1(c) and Table 150.1-A) for the applicable climate zone.
Verification and Reporting
Radiant barriers are reported as a Special Feature on the CF1R.
2.6.6.2
Below Deck Insulation
Below deck insulation is insulation that will be installed below the roof deck between the roof trusses or rafters.
Proposed Design
The compliance software shall allow the user to specify the R-value of insulation that will be installed below the roof deck between the roof trusses or rafters. The default is no below deck roof insulation.
Standard Design
The standard design has below deck insulation.
Verification and Reporting
The R-value of any below deck insulation is reported as a Special Feature on the CF1R.
2.6.6.3
Roof Deck and
Framing
The roof deck is the structural surface which supports the roofing. The compliance software assumes a standard wood deck and this is not a compliance variable. The size, spacing and material of the roof deck framing are compliance variables.
Proposed Design
The roof deck is wood siding/sheathing/decking. The compliance software shall default the roof deck framing to 2x4 trusses at 24 in. o. c. The compliance software shall allow the user to specify alternative framing size, material and framing spacing.
Standard Design
The standard design is 2x4 trusses at 24 in. o. c.
Verification and Reporting
Non-standard roof deck framing or spacing is reported as a Special Feature on the CF1R.
2.6.6.4
Above Deck
Insulation
Above deck insulation represents the insulation value of the air gap in “concrete or clay tile” or “metal tile or wood shakes.” The R-value of any user modeled insulation layers between the roof deck and the roofing is added to the air gap value.
Proposed Design
This input defaults to R= 0.85 for “concrete or clay tile” or for “metal tile or wood shakes” to represent the benefit of the air gap, but no additional insulation. The compliance software shall allow the user to specify the R-value of additional above deck insulation in any roof deck construction assembly.
Standard Design
The standard design accounts for the air gap based on roofing type, but has no additional above deck insulation.
Verification and Reporting
Above deck insulation R-value is reported as a Special Feature on the CF1R.
2.6.6.5
Roofing Type and
Mass
Proposed Design
The choice of roofing type determines the air gap characteristics between the roofing material and the deck, and establishes whether other inputs are needed, as described below. The choices for roof type are shown below.
•Concrete or clay tile. These have significant thermal mass and an air gap between the deck and the tiles.
•Metal tile or wood shakes. These are lightweight, but have an air gap between the tiles or shakes and the deck. Note that tapered cedar shingles do not qualify and are treated as a conventional roof surface.
•Other high slope roofing types. This includes asphalt and composite shingles and tapered cedar shingles. These products have no air gap between the shingles and the structural roof deck.
•Low slope membranes. These are basically flat roofs with a slope of 2:12 or less.
Above deck mass. The above deck mass depends on the roofing type. The mass is 10 lb/ft² for concrete and clay tile and 5 lb/ft² for metal tile, wood shakes or other high slope roofing types. For low slope roofs the additional thermal mass is assumed to be gravel or stone and the user chooses one of the following inputs that is less than or equal to the weight of the material being installed above the roof deck:
•No mass
•5 lb/ft²
•10 lb/ft²
•15 lb/ft²
•25 lb/ft²
Standard Design
The roof type and slope shall match the proposed design.
Verification and Reporting
The roof type is reported on the CF1R.
2.6.6.6
Solar Reflectance and Thermal
Emittance
Proposed Design
The compliance software shall allow the user to default the solar reflectance and thermal emittance of the roofing. The solar reflectance default is 0.10 for all roof types. The thermal emittance default is 0.85.
The compliance software shall allow the user to input aged solar reflectance and thermal emittance of roofing material that are rated by the Cool Roof Rating Council (CRRC). The installed value must be equal to or higher than the value specified here. Roof construction with a roof membrane mass of at least 25 lb/ft3 or roof area incorporated integrated solar collectors are assumed to meet the minimal solar reflectance.
Standard Design
The solar reflectance and thermal emittance of the standard design roofing are as specified in the prescriptive Standards.
Verification and Reporting
Thermal emittance and solar reflectance shall be reported on the CF1R. A reflectance of 0.20 or higher is reported as a cool roof, a value higher than the default but less than 0.20 is reported as a non-standard roof reflectance value.