1935 Crestridge Res-Check.tif i
RE check Software Version 4.4.1
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Compliance Certificate
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Project Title: Logemann Residece
Energy Code: 2009 IECC
Location: Blair, Nebraska
Construction Type: Single Family
Glazing Area Percentage: 22%
Heating Degree Days: 6506
Climate Zone: 5
Construction Site: Owner /Agent: Designer /Contractor:
Lot 131 Deercreek Dean Batenhorst
Blair, NE 68008
Compliance: 3.6% Better Than Code Maximum UA: 337 Your UA: 325
The % Better or Worse Than Code index reflects how close to compliance the house is based on code trade -off rules.
It DOES NOT provide an estimate of energy use or cost relative to a minimum -code home.
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Ceiling 1: Flat Ceiling or Scissor Truss 1846 0.0 38.0 46
Wall 1: Wood Frame, 16" o.c. 1650 13.0 0.0 104
Window 1: Wood Frame :Double Pane 20 0.290 6
Window 2: Wood Frame:Double Pane 20 0.290 6
Window 3: Wood Frame:Double Pane 18 0.290 5
Window 4: Wood Frame:Double Pane 18 0.290 5
Window 5: Wood Frame:Double Pane 30 0.290 9
Window 6: Wood Frame:Double Pane 30 0.290 9
Window 7: Wood Frame:Double Pane 45 0.290 13
Window 8: Wood Frame:Double Pane 11 0.290 3
Window 9: Wood Frame:Double Pane 20 0.290 6
Window 10: Wood Frame:Double Pane 25 0.290 7
- -- Window 11: Wood Frame:Double Pane 7 0.290 2
Window 12: Wood Frame:Double Pane 4 0.290 1
Window 13: Wood Frame:Double Pane 15 0.290 4
Window 14: Wood Frame:Double Pane 7 0.290 2
Window 15: Wood Frame:Double Pane 7 0.290 2
Window 16: Wood Frame:Double Pane 6 0.290 2
Window 17: Wood Frame:Double Pane 25 0.290 7
Window 18: Wood Frame:Double Pane 8 0.290 2
Window 19: Wood Frame:Double Pane 4 0.290 1
Door 1: Solid 21 0.340 7
Door 2: Glass 21 0.340 7
Door 3: Glass 21 0.340 7
Basement Wall 1: Wood Frame 494 19.0 0.0 21
Wall height: 9.0'
Depth below grade: 9.0'
Insulation depth: 9.0'
Basement Wall 2: Wood Frame 835 13.0 0.0 41
Wall height: 9.0'
Depth below grade: 9.0'
Insulation depth: 9.0'
Project Title: Logemann Residece Report date: 07121/14
Data filename: Untitled.rck Page 1 of 7
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For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 9: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled 1.1-factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 10: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments: j
❑ Window 11: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
Vanes Frame Type Thermal Break? Yes No
Comments:
❑ Window 12: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features: j
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 13: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 14: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
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❑ Window 15: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 16: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
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❑ Window 17: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 18: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
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#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 19: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
Doors:
❑ Door 1: Solid, U- factor: 0.340
Comments:
Project Title: Logemann Residece Report date: 07/21/14 j
Data filename: Untitled.rck Page 4 of 7
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❑ Door 2: Glass, U- factor: 0.340
Comments:
❑ Door 3: Glass, U- factor: 0.340
Comments:
Air Leakage:
❑ Joints (including rim joist junctions), attic access openings, penetrations, and all other such openings in the building envelope that are
sources of air leakage are sealed with caulk, gasketed, weatherstripped or otherwise sealed with an air barrier material, suitable film or
solid material.
❑ Air barrier and sealing exists on common walls between dwelling units, on exterior walls behind tubs /showers, and in openings between
window /doorjambs and framing.
❑ Recessed lights in the building thermal envelope are 1) type IC rated and ASTM E283 labeled and 2) sealed with a gasket or caulk
between the housing and the interior wall or ceiling covering.
❑ Access doors separating conditioned from unconditioned space are weather- stripped and insulated (without insulation compression or
damage) to at least the level of insulation on the surrounding surfaces. Where loose fill insulation exists, a baffle or retainer is installed
to maintain insulation application.
❑ Wood - burning fireplaces have gasketed doors and outdoor combustion air.
Air Sealing and Insulation:
❑ Building envelope air tightness and insulation installation complies by either 1) a post rough -in blower door test result of less than 7
ACH at 33.5 psf OR 2) the following items have been satisfied:
(a) Air barriers and thermal barrier: Installed on outside of air - permeable insulation and breaks orjoints in the air barrier are filled or
repaired.
(b) Ceiling /attic: Air barrier in any dropped ceiling /soffit is substantially aligned with insulation and any gaps are sealed.
(c) Above -grade walls: Insulation is installed in substantial contact and continuous alignment with the building envelope air barrier.
(d) Floors: Air barrier is installed at any exposed edge of insulation.
(e) Plumbing and wiring: Insulation is placed between outside and pipes. Batt insulation is cut to fit around wiring and plumbing, or
sprayed /blown insulation extends behind piping and wiring.
(f) Corners, headers, narrow framing cavities, and rim joists are insulated.
(g) Shower /tub on exterior wall: Insulation exists between showers /tubs and exterior wall.
Sunrooms:
❑ Sunrooms that are thermally isolated from the building envelope have a maximum fenestration U- factor of 0.50 and the maximum
skylight U- factor of 0.75. New windows and doors separating the sunroom from conditioned space meet the building thermal envelope
requirements.
Materials Identification and Installation:
❑ Materials and equipment are installed in accordance with the manufacturer's installation instructions.
❑ Insulation is installed in substantial contact with the surface being insulated and in a manner that achieves the rated R- value.
❑ Materials and equipment are identified so that compliance can be determined.
❑ Manufacturer manuals for all installed heating and cooling equipment and service water heating equipment have been provided.
❑ Insulation R- values and glazing U- factors are clearly marked on the building plans or specifications.
Duct Insulation:
❑ Supply ducts in attics are insulated to a minimum of R -8. All other ducts in unconditioned spaces or outside the building envelope are
insulated to at least R -6.
Duct Construction and Testing:
❑ Building framing cavities are not used as supply ducts.
❑ All joints and seams of air ducts, air handlers, filter boxes, and building cavities used as return ducts are substantially airtight by means
of tapes, mastics, liquid sealants, gasketing or other approved closure systems. Tapes, mastics, and fasteners are rated UL 181A or
UL 181 B and are labeled according to the duct construction. Metal duct connections with equipment and /or fittings are mechanically
fastened. Crimp joints for round metal ducts have a contact lap of at least 1 1/2 inches and are fastened with a minimum of three
equally spaced sheet -metal screws.
Exceptions: j
Joint and seams covered with spray polyurethane foam.
Where a partially inaccessible duct connection exists, mechanical fasteners can be equally spaced on the exposed portion of the
joint so as to prevent a hinge effect.
Continuously welded and locking -type longitudinal joints and seams on ducts operating at less than 2 in. w.g. (500 Pa).
Project Title: Logemann Residece Report date: 07/21/14
Data filename: Untitled.rck Page 5 of 7
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Lj Duct tightness test has been performed and meets one of the following test criteria: C
(1) Postconstruction leakage to outdoors test: Less than or equal to 8 cfm per 100 ft2 of conditioned floor area.
(2) Postconstruction total leakage test (including air handler enclosure): Less than or equal to 12 cfm per 100 ft2 pressure differential of
0.1 inches w.g.
(3) Rough -in total leakage test with air handler installed: Less than or equal to 6 cfm per 100 ft2 of conditioned floor area when tested at
a pressure differential of 0.1 inches w.g.
(4) Rough -in total leakage test without air handler installed: Less than or equal to 4 cfm per 100 ft2 of conditioned floor area.
Heating and Cooling Equipment Sizing:
[ Additional requirements for equipment sizing are included by an inspection for compliance with the International Residential Code.
F1 For systems serving multiple dwelling units documentation has been submitted demonstrating compliance with 2009 IECC Commercial
Building Mechanical and /or Service Water Heating (Sections 503 and 504).
Circulating Service Hot Water Systems:
Circulating service hot water pipes are insulated to R -2.
F Circulating service hot water systems include an automatic or accessible manual switch to turn off the circulating pump when the
system is not in use.
Heating and Cooling Piping Insulation:
F1 HVAC piping conveying fluids above 105 degrees F or chilled fluids below 55 degrees F are insulated to R - 3.
Swimming Pools:
F1 Heated swimming pools have an on /off heater switch.
F1 Pool heaters operating on natural gas or LPG have an electronic pilot light.
F-I Timer switches on pool heaters and pumps are present.
Exceptions:
Where public health standards require continuous pump operation.
Where pumps operate within solar- and /or waste - heat - recovery systems.
r Heated swimming pools have a cover on or at the water surface. For pools heated over 90 degrees F (32 degrees C) the cover has a
minimum insulation value of R -12.
Exceptions:.
Covers are not required when 60% of the heating energy is from site - recovered energy or solar energy source.
Lighting Requirements:
r A minimum of 50 percent of the lamps in permanently installed lighting fixtures can be categorized as one of the following:
(a) Compact fluorescent
(b) T -8 or smaller diameter linear fluorescent
(c) 40 lumens per watt for lamp wattage <= 15
(d) 50 lumens per watt for lamp wattage > 15 and <= 40
(e) 60 lumens per watt for lamp wattage > 40
Other Requirements:
n Snow- and ice - melting systems with energy supplied from the service to a building shall include automatic controls capable of shutting
off the system when a) the pavement temperature is above 50 degrees F, b) no precipitation is falling, and c) the outdoor temperature is
above 40 degrees F (a manual shutoff control is also permitted to satisfy requirement's').
Certificate:
n A permanent certificate is provided on or in the electrical distribution panel listing the predominant insulation R- values; window
U- factors; type and efficiency of space- conditioning and water heating equipment. The certificate does not cover or obstruct the visibility
of the circuit directory label, service disconnect label or other required labels.
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NOTES TO FIELD: (Building Department Use Only)
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Project Title: Logemann Residece � Report date: 07121114
Data filename: Untitled.rck Page 6 of 7
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2009 IECC Energy
Efficiency Certificate
m m m
Ceiling / Roof 38.00
Wall 13.00
Floor / Foundation 13.00
Ductwork (unconditioned spaces):
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Window 0.29
Door 0.34 NA
6 0 0 0 B B
Heating System:
Cooling System:
Water Heater:
Name: Date:
Comments:
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RES check So ftware Verson 4.4.1
Inspection Checklist
Ceilings:
❑ Ceiling 1: Flat Ceiling or Scissor Truss, R -38.0 continuous insulation
Comments:
Above - Grade Walls:
❑ Wall 1: Wood Frame, 16" o.c., R -13.0 cavity insulation
Comments:
Basement Walls:
❑ Basement Wall 1: Wood Frame, 9.0' ht / 9.0' bg / 9.0' insul, R -19.0 cavity insulation
Comments:
❑ Basement Wall 2: Wood Frame, 9.0' ht / 9.0' bg / 9.0' insul, R -13.0 cavity insulation
Comments:
Windows:
❑ Window 1: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes _ No
Comments:
❑ Window 2: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 3: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 4: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 5: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 6: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments:
❑ Window 7: Wood Frame:Double Pane, U- factor: 0.290
For windows without labeled U- factors, describe features:
#Panes Frame Type Thermal Break? Yes No
Comments: �—
❑ Window 8: Wood Frame:Double Pane, U- factor: 0.290
Report date: 07/21/14
Project Title. L a�Po %m a.-.
ogemann Residece
Data filename: Untitled.rck Page 3 of 7
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