Day 2 Part 2 Technician’s Guide & Workbook for Home Evaluation and Performance Improvement.

Day 2 Part 2 Technician’s Guide & Workbook for Home Evaluation and Performance Improvement

Walls and Floors

Walls Record the R-value installed in attic kneewalls and any partition walls between occupied heated and or cooled space, and unoccupied areas that are not conditioned. Look for the presence of insulation in framed walls; estimate and record the R-value. Methods for looking include: Check at plumbing outlet under sink or, in order of preference, remove cable outlet plate, telephone plate, electrical switch plates and/or electrical outlet plates on exterior walls.

Walls Probe the cavity around the exposed plate with a non-metal device (such as a plastic crochet hook or wooden skewer). Determine type of insulation (fiberglass, cellulose insulation, foam, etc.). Multiply the wall framing member size (in inches) by the R-value per inch. Be sure to use the actual thickness of the insulation when calculating the total insulation R-values.

Walls & Floors Parts of the house that were added later need to be checked separately from the original walls because they will often have different types of construction materials.

Floors For flooring, the items needing to be checked are based on the type of area served and size: Vented crawlspace: Note insulation level between the ground floor of the house and the crawlspace.

Floors Insulated crawlspace perimeter: Determine insulation type, thickness and R-value. Encapsulated crawlspace: Determine the vapor barrier location, type, and thickness. Determine the insulation type thickness and R-value. Slabs: Determine slab perimeter insulation, the length of the outside wall and the area.

Floors Basement floors: Determine the insulation type and depth in the walls and/or ceiling of the basement. For an unconditioned basement, the crawl space guidance applies and for an unconditioned basement and for a conditioned basement floor the slab guidance applies.

Acceptable Documentation Written or recorded records (e.g., photo) of floor and wall materials and measurements including insulation thickness and area used for calculations involving insulation upgrade and/or repair proposals.

Ceilings and Attics

Ceilings Determine the insulation R-value which exists in the ceiling. Once the R-Value of ceiling insulation present is determined, multiply the R- value of the material by the depth of the insulation. Then for calculating the ceiling area, many of the techniques used for determining wall and flooring insulation areas will apply. The following method for calculating the overall ceiling R-value may be used:

Ceilings

Attic Ceilings The insulation coverage grade needs to be established. Grade I ceiling insulation must be installed in complete contact with the drywall or sheathing surfaces it is intended to insulate and: For loose fill applications, four measurements of the insulation level (the depth shall be representative of the entire attic area being examined) shall be taken. Multiply the minimum depth of insulation by its R-value per inch to obtain the total R-value.

Attic Ceilings Air Seal Gasket Air Seal Gaskets Movable Insulation for Access

Attic Ceilings Insulation in ceilings with an attic above need not be enclosed to attain a Grade I or II assessment. For sealed, unvented attic/roof assemblies, the interior sheathing/enclosure material are optional in climate zones 1-3, provided insulation is adequately supported and meets all other requirements, including full contact with the exterior (roof) sheathing.

Attic Ventilation Type

Attic Ceilings For ceiling insulation, eave baffles or equivalent construction is required to achieve Grade I or II The Technician should note the cavity insulation depth, and if framing elements are exposed, or covered (when covered the thickness that covers the framing should also be noted).

Attic Ventilation Type Eve Baffle Top Plate Covered with insulation Soffit or Eve Vent

Acceptable Documentation When the attic is vented, note the area ratios of the soffit to ridge vent, gable to ridge vent, or gable to roof vent. This calculation may be used to see if there is enough open area for removing the heat. Note the presence or absence of attic vent baffles to allow airflow from soffit venting to the attic.

Acceptable Documentation Record when there are attic venting fans (number and rated Cfm). Record if the attic is sealed or unvented (e.g., encapsulated). Record the presence and condition air sealing material (caulk, fire stop, etc.), and insulation at openings from the conditioned space to the attic (pull down access doors).

Roof Condition and Type Identify the color of the roof as light, medium or dark. Also check for a special reflective roof coating. Check if there is insulation applied to the underside of the roof sheathing, creating a cathedralized or encapsulated attic. Note R-value if insulation is present; Check for evidence of air leakage such as outside light entering the attic at the attic perimeter.

Roof Condition and Type

Check if there is a radiant barrier applied to the roof. Check if the soffit vents are blocked with insulation. Check if there is adequate attic venting and when there is: record the number of open attic vents and estimated venting net free area following the International Residential Code for One- and Two-Family Dwellings- 2009.

IRC Calculation Calculate attic square footage. Divide attic square footage by 150 to determine net free area required. Divide result by 2 to get intake and exhaust net free area. Convert result to square inches by multiplying by 144. Note: If fans are used note the CFM and type (e.g., solar).

IRC Calculation For a 1100 Sqft attic calculate the net, exhaust and supply free area required. Step 1: 1100 ÷ 150 = 7.33333 or 7 1/3 net free area. Step 2: 7.3333 ÷ 2 = 3.6666 exhaust and 3.6666 or 3 2/3 supply net free area.

IRC Calculation For a 1100 Sqft attic calculate the net, exhaust and supply free area required. Step 1: 1100 ÷ 150 = 7.33333 or 7 1/3 net free area. Step 2: 7.3333 ÷ 2 = 3.6666 exhaust and 3.6666 or 3 2/3 supply net free area. 3.666 x 144 = 528 square inches

Roof Condition and Type Check for signs of roof leaks or condensation in the attic. Record roofing materials condition, and type. For example: o Asphalt shingle; o Pebble/gravel built-up roof; o Tile roof; o Wood shingle roof; o Rubber roof/roof coating; o Metal.

Roof Condition and Type

Acceptable Documentation Color, age, and condition of the roof. Net free area for exhaust and supply measurements and calculations. Roof construction material type.

Doors and Home’s Age

Doors Doors need to be examined for materials, fit and finish. Judge whether the exterior door(s) is insulated. Determine the surface area of the door(s) by measuring to the nearest ½ square foot. As with windows this measurement includes the frame.

Doors Determine whether the exterior door(s) is insulated (or not) by its sound, temperature transfer, labeling, or thermal break.

Doors Labeling - Check the side view of the door at the hinges for a descriptive label. Thermal break - Check the side view of metal doors for thermal breaks.

Home’s Age To facilitate determining the age of the home: Refer to the home interview County records (web search). Real estate records website Additionally, when available find out the roof’s age.

Acceptable Documentation Written or recorded records (e.g., photo) of Doors and measurements including insulation thickness and area used for calculations involving insulation upgrade and/or repair proposals. Age of home and age of additions.

Windows and Glass

Windows Glass Doors & Skylights When performing a cost benefit analysis/energy modeling calculations, determine, or measure, or estimate the glazing type(s), frame material(s), and permanently installed shading devices such as screens or applied films. The following bullets provide guidance for the measurables:

Windows Glass Doors & Skylights Determine area of windows, glass doors, and skylights in accordance with the RESNET Mortgage Industry National HERS Standards or by following the directions provided in this video series’s Section 7 Math Review. – Measure the area of the window openings for width and height to the nearest inch. – Window openings are measured from the outside edge of the framing.

Windows Glass Doors & Skylights Use a compass (adjusting for magnetic deviation) to determine orientation of all windows. Note: a drawing of the home with the direction N indicated can also be utilized.

Windows Glass Doors & Skylights Identify shading by external shade screens, house overhangs/awnings, and shade from trees and other buildings.

Windows Glass Doors & Skylights o External Shade Screens must be checked for the amount of light they deflect the following items should be considered:  Compare samples of the screen's mesh pattern to those of a window screen sample to determine the type and shading coefficient of the screen.  Use a digital foot-candle meter.  Ask client for documentation for the shading coefficient (SC) of the screen.  Consult ACCA Manual J Table 3A, 3B, or 3C.

Windows Glass Doors & Skylights Insect Screen Adjustment: OutdoorIndoor Full 0.80 0.90 Half 0.90 0.95 French Door Adjustment = 0.70 Cooling Only Bay Window Factor = 1.15 Garden Window Factor = 2.00

Windows Glass Doors & Skylights

Projection Roof Over Hangs The shading impact of an overhang can be found by measuring the distance of the projection from the exterior wall surface and the distance (height) between the top of the window and the bottom edge of the overhang. o Measure the length of the overhangs over each exterior wall. o Measure the height above the window to the bottom edge of the overhang. o Measure Window height

Exterior Shading Considerations: Full (40% SC) - Consider a 40% SC for an entire side of a house as being roughly equivalent to having a shade screen over a window. Partial (41% - 99% SC) - Partial shading is considered to be anything in between full and none (no shading). None (100% SC) - No shading indicates there are only small plants or shrubs.

Framing Characteristics Examine each window frame in order to determine the type of material used. Open the window and examine it to see whether the frame is made of metal, wood, or vinyl. Determine if a thermal break is present

Glass Solar Heat Gain Factors Determine the solar heat gain factors for the glazing for each type of glass. Check product information and/or consulting the NFRC guide, or Consult ACCA Manual J Table 3A, 3B, or 3C.

Additional Skylight Stuff The orientation of the lower edge of the skylight is used as the orientation direction of the skylight. Measure the tilt of the skylight relative to horizontal. This can be done with a level and angle finder instrument, or geometrically with a protractor (from the ceiling length and heights).

Additional Skylight Stuff The following items are checked on skylights using the same procedures listed for windows above: o Framing and glazing characteristics of skylights. o Shading of skylights. o Solar heat gain coefficient of skylights. o Skylight U-value.

Acceptable Documentation Framing and glazing characteristics for all windows, doors and skylights. Overhang Measurements and shading for all windows, doors and skylights. Solar heat gain coefficient for all windows, doors and skylights. U-value of all windows, doors and skylights. Direction the home is facing. Screen and shade solar adjustment factors

Day 2 Part 2 Technician’s Guide & Workbook for Home Evaluation and Performance Improvement.

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