109 BEACH AVE - ENERGY SHEETS•
OFFICE COPY
FORM R405-2014
FLORIDA ENERGY EFFICIENCY CODE FOR BUILDING CONSTRUCTION
Florida Department of Business and Professional Regulation - Residential Performance Method
Project Name: Guidone 109 Beach Ave Builder Name: Inspried Homes Florida
Street: 109 Beach Ave Permit Office: Atlantic Beach
City,State,Zip: Atlantic Beach , FL, Permit Number:
Owner: Jurisdiction: 261100
Design Location: FL,Jacksonville
1. New construction or existing New(From Plans) 9. Wall Types(2179.5 sqft.) Insulation Area
2. Single family or multiple family Single-family a. Frame Wood, Exterior R=19.0 1880.30 ft'
b. Frame-Wood,Adjacent R=19.0 299.25 ft2
3. Number of units, if multiple family 1 c. N/A R= ft2
4. Number of Bedrooms 2 d. N/A R= ft2
10.Ceiling Types (912.0 sqft.) Insulation Area
5. Is this a worst case? No a. Roof Deck(Unvented) R=21.0 912.00 ft2
6. Conditioned floor area above grade(ft2) 1453 b. N/A R= ft2
c. N/A R= ft2
Conditioned floor area below grade(ft2) 0 11. Ducts R ft2
7. Windows(399.1 sqft.) Description Area a. Sup: 1st System, Ret: 1st System, AH:1st Syste 6 290.6
a. U-Factor: Dbl, U=0.31 399.06 ft2
SHGC: SHGC=0.27
b. U-Factor: N/A ft2 12.Cooling systems kBtu/hr Efficiency
SHGC: a.Central Unit 28.6 SEER:14.00
c. U-Factor: N/A ft2
SHGC: 13. Heating systems kBtu/hr Efficiency
d. U-Factor: N/A ft2 a. Electric Heat Pump 28.6 HSPF:8.20
SHGC:
Area Weighted Average Overhang Depth: 2.052 ft.
Area Weighted Average SHGC: 0.270 14. Hot water systems
a. Propane Tankless Cap:1 gallons
8. Floor Types (912.0 sqft.) Insulation Area EF:0.590
a.Slab-On-Grade Edge Insulation R=0.0 603.00 ft2 b. Conservation features
b. Floor over Garage R=19.0 247.00 ft2 None
c.other(see details) R= 62.00 ft2 15. Credits CF. Pstat
Glass/Floor Area: 0.275 Total Proposed Modified Loads: 46.30 PASS
Total Baseline Loads: 46.29
I hereby certify that the plans and specifications covered by Review of the plans and :;'OFTKEST9T�•••,,,
this calculation are in compliance with the Florida Energy specifications covered by this ti:;; . _ ;•..;0�,\:
%.
Code. calculation indicates compliance f %/,, s,��`'
Home.i.eug ervices r 1Un °,, • •';s;.,o`t‘,∎1:
�•
�i�Al `'far g e� with the Florida Energy Code. s ..
PREPARED BY: y 1 �� �`��^ Before construction is completed ' 'C' ;-�: �:
DATE: ,_1/28/2016 this building will be inspected for ? •:_ I ,E
compliance with Section 553.908 ,`.. ` 4 * c
r'
Florida Statutes. 1 e ...
I hereby certify that this b <s desi ed,ie.nc e •..�C .......... ,:with the Florida Ener•;/o•- OD WE •;''
OWNER/AGENT:/... " BUILDING OFFICIAL: /1
DATE: 4) . 1 - DATE:- Compliance requires certification by the air handler unit manufacturer that the air handler enclosure qualifies as
certified factory-sealed in accordance with R403.2.2.1.
-Compliance requires an Air Barrier and Insulation Inspection Checklist in accordance with R402.4.1.1 and an envelope leakage
test report in accordance with R402.4.1.2.
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FORM R405-201,4
PROJECT
Title: Guidone 109 Beach Ave Bedrooms: 2 Address Type: Street Address
Building Type: User Conditioned Area: 1453 Lot#
Owner: Total Stories: 2 Block/SubDivision:
#of Units: 1 Worst Case: No PlatBook:
Builder Name: Inspried Homes Florida Rotate Angle: 0 Street: 109 Beach Ave
Permit Office: Atlantic Beach Cross Ventilation: County: Duval
Jurisdiction: 261100 Whole House Fan: City, State,Zip: Atlantic Beach,
Family Type: Single-family FL,
New/Existing: New(From Plans)
Comment:
CLIMATE
IECC Design Temp Int Design Temp Heating Design Daily Temp
Design Location TMY Site Zone 97.5% 2.5% Winter Summer Degree Days Moisture Range
FL,Jacksonville FL_JACKSONVILLE_INT 2 32 93 70 75 1281 49 Medium
BLOCKS
Number Name Area Volume
1 Block1 1453 13077
SPACES
Number Name Area Volume Kitchen Occupants Bedrooms Infil ID Finished Cooled Heated
1 1st System 1453 13077 Yes 3 2 1 Yes Yes Yes
FLOORS
V # Floor Type Space Perimeter Perimeter R-Value Area Joist R-Value Tile Wood Carpet
1 Slab-On-Grade Edge Insulatio 1st System 122 ft 0 603 ft2 ____ 0.3 0 0.7
2 Floor over Garage 1st System ____ ____ 247 ft2 19 0.3 0 0.7
3 Raised Floor 1st System ____ ____ 62 ft2 19 0.3 0 0.7
ROOF
Roof Gable Roof Solar SA Emitt Emitt Deck Pitch
# Type Materials Area Area Color Absor. Tested Tested Insul. (deg)
1 Gable or shed Metal 940 ft2 114 ft2 Medium 0.96 No 0.9 No 21 14
ATTIC
V # Type Ventilation Vent Ratio(1 in) Area RBS IRCC
1 Full attic Unvented 0 912 ft2 N N
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FORM R405-2014
CEILING
V # Ceiling Type Space R-Value Area Framing Frac Truss Type
1 Under Attic(Unvented) 1st System 0.1 912 ft2 0 Wood
WALLS
/ Adjacent Space Cavity Width Height Sheathing Framing Solar Below
1/ #Ornt To Wall Type R-Value Ft In Ft In Area R-Value Fraction Absor. Grade%
1 W Garage Frame-Wood 1st System 19 13 0 9 0 117.0 ft2 0 0.23 0.8 0
2 N Exterior Frame-Wood 1st System 19 8 0 9 0 72.0 ft2 0 0.23 0.8 0
3 E Exterior Frame-Wood 1st System 19 13 0 9 0 117.0 ft2 0 0.23 0.8 0
4 E Exterior Frame-Wood 1st System 19 17 0 9 0 153.0 ft2 0 0.23 0.8 0
5 S Exterior Frame-Wood 1st System 19 12 0 9 0 108.0 ft2 0 0.23 0.8 0
6 N Garage Frame-Wood 1st System 19 7.75 0 9 0 69.8 ft2 0 0.23 0.8 0
7 S Exterior Frame-Wood 1st System 19 16.5 0 9 0 148.5 ft2 0 0.23 0.8 0
8 W Exterior Frame-Wood 1st System 19 11.75 0 9 0 105.8 ft2 0 0.23 0.8 0
9 W Exterior Frame-Wood 1st System 19 5.5 0 9 0 49.5 ft2 0 0.23 0.8 0
10 N Garage Frame-Wood 1st System 19 12.5 0 9 0 112.5 ft2 0 0.23 0.8 0
11 N Exterior Frame-Wood 1st System 19 7.75 0 9 0 69.8 ft2 0 0.23 0.8 0
12 E Exterior Frame-Wood 1st System 19 11.5 0 9 0 103.5 ft2 0 0.23 0.8 0
13 E Exterior Frame-Wood 1st System 19 22.5 0 9 0 202.5 ft2 0 0.23 0.8 0
14 S Exterior Frame-Wood 1st System 19 15.66 0 9 0 141.0 ft2 0 0.23 0.8 0
15 W Exterior Frame-Wood 1st System 19 4 0 9 0 36.0 ft2 0 0.23 0.8 0
_16 S Exterior Frame-Wood 1st System 19 13 0 9 0 117.0 ft2 0 0.23 0.8 0
17 W Exterior Frame-Wood 1st System 19 12.5 0 9 0 112.5 ft2 0 0.23 0.8 0
18 W Exterior Frame-Wood 1st System 19 4.75 0 9 0 42.8 ft2 0 0.23 0.8 0
19 W Exterior Frame-Wood 1st System 19 12.75 0 9 0 114.8 ft2 0 0.23 0.8 0
20 N Exterior Frame-Wood 1st System 19 15.25 0 9 0 137.3 ft2 0 0.23 0.8 0
21 N Exterior Frame-Wood 1st System 19 5.5 0 9 0 49.5 ft2 0 0.23 0.8 0
DOORS
V # Ornt Door Type Space Storms U-Value Ft Width In Ft Height Area
1 N Insulated 1st System None .6 2.7 8 21.6 ft2
WINDOWS
Orientation shown is the entered, Proposed orientation.
/ Wall Overhang
V # Ornt ID Frame Panes NFRC U-Factor SHGC Area Depth Separation Int Shade Screening
1 E 3 Vinyl Low-E Double Yes 0.31 0.27 8.0 ft2 1 ft 0 in 1 ft 0 in None None
2 E 4 Vinyl Low-E Double Yes 0.31 0.27 24.0 ft2 1 ft 0 in 1 ft 0 in None None
_ 3 E 4 Vinyl Low-E Double Yes 0.31 0.27 18.0 ft2 1 ft 0 in 1 ft 0 in None None
4 S 5 Vinyl Low-E Double Yes 0.31 0.27 36.0 ft2 4 ft 0 in 1 ft 0 in None None
5 S 7 Vinyl Low-E Double Yes 0.31 0.27 18.0 ft2 1 ft 0 in 1 ft 0 in None None
6 W 8 Vinyl Low-E Double Yes 0.31 0.27 18.0 ft2 1 ft 0 in 1 ft 0 in None None
7 W 9 Vinyl Low-E Double Yes 0.31 0.27 4.0 ft2 1 ft 0 in 1 ft 0 in None None
8 N 11 Vinyl Low-E Double Yes 0.31 0.27 18.0 ft2 1 ft 0 in 1 ft 0 in None None
9 E 12 Vinyl Low-E Double Yes 0.31 0.27 32.4 ft2 1 ft 0 in 1 ft 0 in None None
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FORM R405-2014
WINDOWS
Orientation shown is the entered. Proposed orientation.
/ Wall Overhang
V # Ornt ID Frame Panes NFRC U-Factor SHGC Area Depth Separation Int Shade Screening
10 E 13 Vinyl Low-E Double Yes 0.31 0.27 72.0 ft2 4 ft 0 in 1 ft 0 in None None
11 E 13 Vinyl Low-E Double Yes 0.31 0.27 10.0 ft2 1 ft 0 in 1 ft 0 in None None
12 S 14 Vinyl Low-E Double Yes 0.31 0.27 18.0 ft2 1 ft 0 in 1 ft 0 in None None
13 S 14 Vinyl Low-E Double Yes 0.31 0.27 18.0 ft2 1 ft 0 in 1 ft 0 in None None
14 W 15 Vinyl Low-E Double Yes 0.31 0.27 10.0 ft2 1 ft 0 in 1 ft 0 in None None
15 S 16 Vinyl Low-E Double Yes 0.31 0.27 9.3 ft2 1 ft 0 in 1 ft 0 in None None
16 W 17 Vinyl Low-E Double Yes 0.31 0.27 9.3 ft2 1 ft 0 in 1 ft 0 in None None
_ 17 W 18 Vinyl Low-E Double Yes 0.31 0.27 4.0 ft2 1 ft 0 in 1 ft 0 in None None
18 W 19 Vinyl Low-E Double Yes 0.31 0.27 48.0 ft2 3 ft 0 in 1 ft 0 in None None
19 N 20 Vinyl Low-E Double Yes 0.31 0.27 20.0 ft2 1 ft 0 in 1 ft 0 in None None
20 N 21 Vinyl Low-E Double Yes 0.31 0.27 4.0 ft2 1 ft 0 in 1 ft 0 in None None
GARAGE
V. # Floor Area Ceiling Area Exposed Wall Perimeter Avg Wall Height Exposed Wall Insulation
1 257 ft2 384 ft2 33 ft 9 ft 1
INFILTRATION
# Scope Method SLA CFM 50 ELA EgLA ACH ACH 50
1 Wholehouse Proposed ACH(50) 000286 1089.8 59.83 112.51 2711 5
HEATING SYSTEM
V # System Type Subtype Efficiency Capacity Block Ducts
1 Electric Heat Pump None HSPF:8.2 28.6 kBtu/hr 1 sys#1
COOLING SYSTEM
\/ # System Type Subtype Efficiency Capacity Air Flow SHR Block Ducts
1 Central Unit None SEER: 14 28.6 kBtu/hr 858 cfm 0.75 1 sys#1
HOT WATER SYSTEM
✓ # System Type SubType Location EF Cap Use SetPnt Conservation
1 Propane Tankless Exterior 0.59 1 gal 50 gal 120 deg None
SOLAR HOT WATER SYSTEM
V FSEC Collector Storage
Cert # Company Name System Model# Collector Model# Area Volume FEF
None None ft'
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FORM R405-2014
DUCTS
/ ----Supply--- ---Return--- Air CFM 25 CFM25 HVAC#
V # Location R Value Area Location Area Leakage Type Handler TOT OUT ON RLF Heat Cool
1 1st System 6 290.6 ft 1st System 72.65 ft Default Leakage 1st System (Default) (Default) 1 1
TEMPERATURES
Programable Thermostat:Y Ceiling Fans:
Cooling l X�Jan l FFeb b X]Mar f 1 Apr l ]14:,,,, Jun [[ Jul 4 X Aug Au [[ Se p [ j]Oc [X]]Nv Dec
Venting Jan X Feb lX Mar [X]A pr [ May [ ]Jun [ ]Jul [ ]Aug [ ]Sep X]Oct [X]
Nov n Dec
Thermostat Schedule: HERS 2006 Reference Hours
Schedule Type 1 2 3 4 5 6 7 8 9 10 11 12
Cooling(WD) 80 80 80
PM 80 80 78 78 78 78 78 78 78 78 78 78
Cooling(WEH) PM 78 78 78 78 78 78 78 78 78 78 78 78
Heating(WD) AM 68 66 66 66 66 68 68 68 68 68 68 66
Heating(WEH) AM 66 66 66 66 66 68 68 68 68 68 66 66
gl4
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FORM R405-2014
ENERGY PERFORMANCE LEVEL (EPL)
DISPLAY CARD
ESTIMATED ENERGY PERFORMANCE INDEX* = 100
The lower the EnergyPerformance Index, the more efficient the home.
109 Beach Ave, Atlantic Beach, FL,
1. New construction or existing New(From Plans) 9. Wall Types Insulation Area
2. Single family or multiple family Single-family a. Frame Wood, Exterior R=19.0 1880.30 ft2
b. Frame-Wood. Adjacent R=19.0 299.25 ft2
Number of units, if multiple family 1 c. N/A R= ft2
4. Number of Bedrooms 2 d. N/A R= ft2
10.Ceiling Types Insulation Area
5. Is this a worst case? No a. Roof Deck(Unvented) R=21.0 912.00 ft2
6. Conditioned floor area(ft2) 1453 b. N/A R= ft2
7. Windows** Description Area c. N/A R= ft z
a. U-Factor: Dbl, U=0.31 399.06 ft2 11. Ducts R ft
a. Sup: 1st System, Ret: 1st System,AH: 1st Syste 6 290.6
SHGC: SHGC=0.27
b. U-Factor: N/A ft2
SHGC: 12.Cooling systems kBtu/hr Efficiency
c. U-Factor: N/A ft2 a.Central Unit 28.6 SEER:14.00
SHGC:
d. U-Factor: N/A ft2 13. Heating systems kBtu/hr Efficiency
SHGC: a. Electric Heat Pump 28.6 HSPF:8.20
Area Weighted Average Overhang Depth: 2.052 ft.
Area Weighted Average SHGC: 0.270
8. Floor Types Insulation Area 14. Hot water systems
Cap:1 gallons
a.Slab-On-Grade Edge Insulation R=0.0 603.00 ft2 a. Propane EF:0.59
b. Floor over Garage R=19.0 247.00 ft2
c.other(see details) R= 62.00 ft2 b. Conservation features
None
15.Credits CF, Pstat
I certify that this home has complied with the Florida Energy Efficiency Code for Building ..................ENE S?A•.
Construction through the above energy savino features which will be installed (or exceeded) :° ov TF
in this home before final inspectio •ther is•, an: EPL Display Card will be completed yk ;;°%.;'
based on installed Code comp t feature .,,,� ''.• ;.....�,�`:.o
Builder Signature: Date: / y'f !L ::�.. ;a
t.Address of New Home: I• se..- '7 City/FL Zip: ph. 32233 •..�,r .... ... •:
I .....cot;wE,i.: .
*Note: This is not a Building Energy Rating. If your Index is below 70, your home may qualify for energy efficient
mortgage (EEM) incentives if you obtain a Florida EnergyGauge Rating. Contact the EnergyGauge Hotline at(321)
638-1492 or see the EnergyGauge web site at energygauge.com for information and a list of certified Raters. For
information about the Florida Building Code, Energy Conservation, contact the Florida Building Commission's support
staff.
**Label required by Section R303.1.3 of the Florida Building Code, Energy Conservation, if not DEFAULT.
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FORM R405-2014
' . Florida Department of Business and Professional Regulations
Residential Whole Building Performance and Prescriptive Methods
ADDRESS: 109 Beach Ave Permit Number:
Atlantic Beach. FL.
MANDATORY REQUIREMENTS See individual code sections for full details.
? 401.3 Energy Performance Level(EPL)display card(Mandatory). The building official shall require that an energy performance level (EPL)
display card be completed and certified by the builder to be accurate and correct before final approval of the building for occupancy. Florida law
[Section 553.9085, Florida Statues]requires the EPL display card to be included as an addendum to each sales contract for both presold and
nonpresold residential buildings.The EPL display card contains information indicating the energy performance level and efficiencies of components
installed in a dwelling unit.The building official shall verify that the EPL display card completed and signed by the builder accurately reflects the plans
and specifications submitted to demonstrate compliance for the building.A copy of the EPL display card can be found in Appendix C.
? R402.4 Air leakage(Mandatory). The building thermal envelope shall be constructed to limit air leakage in accordance with the requirements of
Sections R402.1 through R402.4.4.
? R402.4.1 Building thermal envelope. The building thermal envelope shall comply with Sections R402.4.1.1 and R402.4.1.2.The
sealing methods between dissimilar materials shall allow for differential expansion and contraction.
• R402.4.1.1 Installation. The components of the building thermal envelope as listed in Table R402.4.1.1 shall be installed in
accordance with the manufacturer's instructions and the criteria listed in Table 402.4.1.1,as applicable to the method of construction.
Where required by the code official,an approved third party shall inspect all components and verify compliance.
• R402.4.1.2 Testing. The building or dwelling unit shall be tested and verified as having an air leakage rate of not exceeding 5 air
changes per hour in Climate Zones 1 and 2,and 3 air changes per hour in Climate Zones 3 through 8.Testing shall be conducted with
a blower door at a pressure of 0.2 inches w.g. (50 Pascals).Where required by the code official,testing shall be conducted by an
approved third party.A written report of the results of the test shall be signed by the party conducting the test and provided to the code
official.Testing shall be performed at any time after creation of all penetrations of the building thermal envelope.
During testing:
1. Exterior windows and doors,fireplace and stove doors shall be closed,but not sealed,beyond the intended weatherstripping or
other infiltration control measures;
2. Dampers including exhaust,intake,makeup air, backdraft and flue dampers shall be closed,but not sealed beyond intended
infiltration control measures;
3. Interior doors,if installed at the time of the test,shall be open;
4. Exterior doors for continuous ventilation systems and heat recovery ventilators shall be closed and sealed;
5. Heating and cooling systems, if installed at the time of the test,shall be turned off;and
6.Supply and return registers,if installed at the time of the test,shall be fully open.
? R402.4.2 Fireplaces.New wood-burning fireplaces shall have tight-fitting flue dampers and outdoor combustion air.
? R402.4.3 Fenestration air leakagewindows,skylights and sliding glass doors shall have an air infiltration rate of no more than 0.3 cfm
per square foot(1.5 Us/m2),and swinging doors no more than 0.5 cfm per square foot(2.6 L/s/m2),when tested according to NFRC 400 or
AAMA/WDMA/CSA 101/I.S.2/A440 by an accredited,independent laboratory and listed and labeled by the manufacturer.
Exception: Site-built windows,skylights and doors.
? R402.4.4 Recessed lighting. Recessed luminaires installed in the building thermal envelope shall be sealed to limit air leakage
between conditioned and unconditioned spaces. All recessed luminaires shall be IC-rated and labeled as having an air leakage rate not
more than 2.0 cfm(0.944 Us)when tested in accordance with ASTM E 283 at a 1.57 psf(75 Pa)pressure differential.All recessed
luminaires shall be sealed with a gasket or caulk between the housing and the interior wall or ceiling covering.
? R403.1.1 Thermostat provision(Mandatory). At least one thermostat shall be provided for each separate heating and cooling system.
? R403.1.3 Heat pump supplementary heat(Mandatory).Heat pumps having supplementary electric-resistance heat shall have controls
that,except during defrost, prevent supplemental heat operation when the heat pump compressor can meet the heating load.
? R403.2.2 Sealing(Mandatory)111 ducts,air handlers,and filter boxes and building cavities that form the primary air containment
passageways for air distribution systems shall be considered ducts and plenum chambers,shall be constructed and sealed in accordance
with Section C403.2.7.2 of the Commercial Provisions of this code and shall be shown to meet duct tightness criteria by post-construction
or rough-in testing below.
Duct tightness shall be verified by testing to Section 803 of the RESNET Standards by either an energy rater certified in accordance with Section
553.99, Florida Statutes,or as authorized by Florida Statutes,to be"substantially leak free"by either of the following:
1. Post-construction test:Total leakage shall be less than or equal to 4 cfm(113 Umin)per 100 square feet(9.29 m2)of conditioned floor area
when tested at a pressure differential of 0.1 inches w.g. (25 Pa)across the entire system,including the manufacturer's air handler enclosure. All
register boots shall be taped or otherwise sealed during the test.
2. Rough-in test:Total leakage shall be less than or equal to 4 cfm(113 Umin)per 100 square feet(9.29 m2)of conditioned floor area when tested
at a pressure differential of 0.1 inches w.g. (25Pa)across the system,including the manufacturer's air handler enclosure. All registers shall be
taped or otherwise sealed during the test. If the air handler is not installed at the time of the test,total leakage shall be less than or equal to 3 cfm
(85 L/min)per 100 square feet(9.29 m2)of conditioned floor area.
Exceptions:
1. The total leakage test is not required for ducts and air handlers located entirely within the building envelope.
2. Duct testing is not mandatory for buildings complying by Section R405 of this code.
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FORM R405-2014
MANDATORY REQUIREMENTS - (Continued)
? R403.2.2.1 Sealed air handler. Air handlers shall have a manufacturer's designation for an air leakage of no more than 2 percent of the
design air flow rate when tested in accordance with ASHRAE 193.
? R403.2.3 Building Cavities(Mandatory). Building framing cavities shall not be used as ducts or plenums.
? R403.3 Mechanical system piping insulation(Mandatory). Mechanical system piping capable of carrying fluids above 105°F(41°C)
or below 55°F(13°C)shall be insulated to a minimum of R-3.,
? R403.3.1 Protection of piping insulation. Piping insulation exposed to weather shall be protected from damage, including that caused
by sunlight,moisture,equipment maintenance,and wind,and shall provide shielding from solar radiation that can cause degradation of the
material. Adhesive tape shall not be permitted.
R403.4.1 Circulating hot water systems(Mandatory). Circulating hot water systems shall be provided with an automatic or readily
accessible manual switch that can turn off the hot-water circulating pump when the system is not in use.
R403.4.3 Heat traps(Mandatory). Storage water heaters not equipped with integral heat traps and having vertical pipe risers shall have
heat traps installed on both the inlets and outlets. External heat traps shall consist of either a commercially available heat trap or a
downward and upward bend of at least 3 1/2 inches(89 mm)in the hot water distribution line and cold water line located as close as possible
to the storage tank.
R403.4.4 Water heater efficiencies(Mandatory). Water heater efficiencies
R403.4.4.1 Storage water heater temperature controls
. R403.4.4.1.1 Automatic controls. Service water heating systems shall be equipped with automatic temperature controls
capable of adjustment from the lowest to the highest acceptable temperature settings for the intended use.The minimum
temperature setting range shall be from 100°F to 140°F(38°C to 60°C).
• R403.4.4.1.2 Shut down. A separate switch or a clearly marked circuit breaker shall be provided to permit the power supplied
to electric service systems to be turned off. A separate valve shall be provided to permit the energy supplied to the main burner(s)
of combustion types of service water heating systems to be turned off.
ri R403.4.4.2 Water heating equipment. Water heating equipment installed in residential units shall meet the minimum efficiencies of
• Table C404.2 in Chapter 4 of the Florida Building Code,Energy Conservation,Commercial Provisions,for the type of equipment installed.
Equipment used to provide heating functions as part of a combination system shall satisfy all stated requirements for the appropriate water
heating category. Solar water heaters shall met the criteria Section R403.4.4.2.1.
• R403.4.4.2.1 Solar water heating systems.Solar systems for domestic hot water production are rated by the annual solar energy
factor of the system.The solar energy factor of a system shall be determined from the Florida Solar Energy Center Directory of
Certified Solar Systems. Solar collectors shall be tested in accordance with ISO Standard 9806,Test Methods for Solar Collectors,
and SRCC Standard TM-1,Solar Domestic Hot Water System and Component Test Protocol,Collectors in installed solar water
heating systems should meet the following criteria:
1. Be installed with a tilt angle between 10 degrees and 40 degrees of the horizontal;and
2. Be installed at an orientation within 45 degrees of true south.
7 R403.5 Mechanical ventilation(Mandatory). The building shall be provided with ventilation that meets the requirements of the
Florida Building Code, Residential or Florida Building Code, Mechanical,as applicable,or with other approved means of ventilation.
Outdoor air intakes and exhausts shall have automatic or gravity dampers that close when the ventilation system is not operating.
? R403.5.1 Whole-house mechanical ventilation system fan efficacy. Mechanical ventilation system fans shall meet the
efficacy requirements of Table R403.5.1.
Exception:Where mechanical ventilation fans are integral to tested and listed HVAC equipment,they shall be powered by an
electronically commutated motor.
7 R403.5.2 Ventilation air. Residential buildings designed to be operated at a positive indoor pressure or for mechanical
• ventilation shall meet the following criteria:
1. The design air change per hour minimums for residential buildings in ASHRAE 62,Ventilation for Acceptable Indoor Air Quality,
shall be the maximum rates allowed for residential applications.
2. No ventilation or air-conditioned system make air shall be provided to conditioned space from attics,crawlspaces,attached closed
garages or outdoor spaces adjacent to swimming pools or spas.
3. If ventilation air is drawn from enclosed spaces(s),then the walls of the space(s)from which air is drawn shall be insulated to a
minimum of R-11 and the ceiling shall be insulated to a minimum or R-19,space permitting,or R-10 otherwise.
? R403.6 Heating and cooling equipment(Mandatory). The following sections are mandatory for cooling and heating equipment.
? R403.6.1 Equipment sizing. Heating and cooling equipment shall be sized in accordance with ACCA Manual S based on the
equipment loads calculated in accordance with ACCA Manual J or other approved heating and cooling calculation methodologies,
based on building loads for the directional orientation of the building.The manufacturer and model number of the outdoor and
indoor units(if split system)shall be submitted along with the sensible and total cooling capacities at the design conditions
described in Section R302.1.This code does not allow designer safety factors,provisions for future expansion or other factors
which affect equipment sizing.System sizing calculations shall not include loads created by local intermittent mechanical ventilation
such as standard kitchen and bathroom exhaust systems.
• R403.6.1.1 Cooling equipment capacity. Cooling only equipment shall be selected so that its total capacity is not less than the
calculated total load,but not more than 1.15 times greater than the total load calculated according to the procedure selected in
Section 403.6,or the closest available size provided by the manufacturer's product lines.The corresponding latent capacity of the
equipment shall not be less than the calculated latent load.
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FORM,R405-2014
MANDATORY REQUIREMENTS - (Continued)
R403.6.1.1 Cooling equipment capacity.(continued) The published value for AHRI total capacity is a nominal, rating-test value and
shall not be used for equipment sizing. Manufacture's expanded performance data shall be used to select cooling-only equipment.This
selection shall be used to select cooling-only equipment.This selection shall be based on the outdoor design dry bulb temperature for the
load calculation(or entering water temperature for water-source equipment),the blower cfm provided by the expanded performance data,
the design value for entering wet bulb temperature and the design value for entering dry bulb temperature.
Design values for entering wet bulb and dry bulb temperature shall be for the indoor dry bulb and relative humidity used for the load
calculation and shall be adjusted for return side gains if the return duct(s)is installed in an unconditioned space.
Exceptions:
1. Attached single-and multi-family residential equipment sizing may be selected so that its cooling capacity is less than the
calculated total sensible load but not less than 80 percent of that load.
2. When signed and sealed by a Florida-registered engineer,in attached single-and multi-family units.the capacity of
equipment may be sized in accordance with good design practice.
R403.6.1.2 Heating equipment capacity
• R403.6.1.2.1 Heat pumps. Heat pumps sizing shall be based on the cooling requirements as calculated according to Section
R403.6.1.1 and the heat pump total cooling capacity shall not be more than 1.15 times greater than the design cooling load.
• R403.6.1.2.2 Electric resistance furnaces. Electric resistance furnaces shall be sized within 4 kW of the design
requirements calculated according to the procedure selected in Section R403.6.1.
• R403.6.1.2.3 Fossil fuel heating equipment. The capacity of fossil fuel heating equipment with natural draft atmospheric burners
shall not be less than the design load calculated in accordance with Section R403.6.1.
R403.6.1.3 Extra capacity required for special occasions. Residences requiring excess cooling or heating equipment capacity on an
intermittent basis,such as anticipated additional loads caused by major entertainment events,shall have equipment sized or controlled to
prevent continuous space cooling or heating within that space by one or more of the following options:
1. A separate cooling or heating system is utilized to provide cooling or heating to the major entertainment areas.
2. A variable capacity system sized for optimum performance during base load periods is utilized.
R403.7 Systems serving multiple dwelling units(Mandatory). Systems serving multiple dwelling units shall comply with Sections
C403 and C404 of the Commercial Provisions in lieu of Section R403.
R403.8 Snow melt system controls(Mandatory). Snow and ice-melting systems, supplied through energy service to the building, shall
include automatic controls capable of shutting off the system when the pavement temperature is above 55°F,and no precipitation is falling
and an automatic or manual control that will allow shutoff when the outdoor temperature is above 40°F.
R403.9 Swimming pools,inground spas and portable spas(Mandatory). The energy requirements for residential pools and
inground spas shall be as specified in Sections R403.9.1 through R403.9.3 and in accordance with ANSI/APSP-15.The energy
requirements for portable spas shall be in accordance with ANSI/APSP-14.
9 R403.9.1 Pool and spa heaters. All pool heaters shall be equipped with a readily accessible on-off switch that is mounted
outside the heater to allow shutting off the heater without adjusting the thermostat setting.
R403.9.1.1 Gas and oil-fired pool and spa heaters. All gas-and oil-fired pool and space heaters shall have a minimum
• thermal efficiency of 82 percent for heaters manufactured on or after April 16,2013 when tested in accordance with ANSI Z 21.56.
Pool heaters fired by natural gas or LP gas shall not have continuously burning pilot lights.
• R403.9.1.2 Heat pump pool heaters. Heat pump pool heaters shall have a minimum COP of 4.0 when tested in accordance
with AHRI 1160,Table 2, Standard Rating Conditions-Low Air Temperature.A test report from an independent laboratory is
required to verify procedure compliance.Geothermal swimming pool heat pumps are not required to meet this standard.
R403.9.2 Time switches. Time switches or other control method that can automatically turn off and on heaters and pumps according to a
preset schedule shall be installed on all heaters and pumps. Heaters, pumps and motors that have built in timers shall be deemed in
compliance with this equipment.
Exceptions:
• 1. Where public health standards require 24-hour pump operations.
2. Where pumps are required to operate solar-and waste-heat-recovery pool heating systems.
3. Where pumps are powered exclusively from on-site renewable generation.
? R403.9.3 Covers. Heated swimming pools and inground permanently installed spas shall be equipped with a vapor-retardant cover on or
at the water surface or a liquid cover or other means proven to reduce heat loss.
Exception: Outdoor pools deriving over 70 percent of the energy for heating from site-recovered energy,such as a heat pump or
• solar energy source computed over an operating season.
RR404.1 Lighting equipment(Mandatory). A minimum of 75 percent of the lamps in permanently installed lighting fixtures shall be
high-efficacy lamps or a minimum of 75 percent of permanently installed lighting fixtures shall contain only high efficacy lamps.
Exception: Low-voltage lighting shall not be required to utilize high-efficacy lamps.
? R404.1.1 Lighting equipment(Mandatory). Fuel gas lighting systems shall not have continuously burning pilot lights
R405.2 Performance ONLY. All ducts not entirely inside the building thermal envelope shall be insulated to a minimum of R-6.
R405.2.1 Performance ONLY. Ceilings shall have minimum insulation of R-19.Where single assemby of the exposed deck and beam type or
concrete deck roofs do not have sufficent space,R-10 is allowed.
1/28/2016 5:00 PM EnergyGauge®USA-FlaRes2014 -Section R405.4.1 Com Page 3 of 3
FORM 8405-2014
TABLE 402.4.1.1
AIR BARRIER AND INSULATION INSPECTION COMPONENT CRITERIA
Project Name: Guidone 109 Beach Ave Builder Name: Inspried Homes Florida
Street: 109 Beach Ave Permit Office: Atlantic Beach
City, State,Zip: Atlantic Beach. FL, Permit Number:
Owner: Jurisdiction: 261100
Design Location: FL,Jacksonville
COMPONENT CRITERIA CHECK
Air barrier and thermal barrier A continuous air barrier shall be installed in the building envelope.
Exterior thermal envelope contains a continuous barrier.
Breaks or joints in the air barrier shall be sealed.
Air-permeable insulation shall not be used as a sealing material.
Ceiling/attic The air barrier in any dropped ceiling/soffit shall be aligned with the
insulation and any gaps in the air barrier shall be sealed.
Access openings, drop down stairs or knee wall doors to unconditioned
attic spaces shall be sealed.
Corners and headers shall be insulated and the junction of the foundation
Walls and sill plate shall be sealed.
The junction of the top plate and the top or exterior walls shall be sealed.
Exterior thermal envelope insulation for framed walls shall be installed in
substantial contact and continuous alignment with the air barrier.
Knee walls shall be sealed.
Windows, skylights and doors The space between window/door jambs and framing and skylights and
framing shall be sealed.
Rim joists Rim joists are insulated and include an air barrier.
Floors (including above-garage Insulation shall be installed to maintain permanent contact with underside
and cantilevered floors) of subfloor decking. v
The air barrier shall be installed at any exposed edge of insulation.
Crawl space walls Where provided in lieu of floor insulation, insulation shall be permanently
attached to the crawlspace walls. N
Exposed earth in unvented crawl spaces shall be covered with a Class I
vapor retarder with overlapping joints taped.
Shafts, penetrations Duct shafts, utility penetrations, and flue shaft openings to exterior or
unconditioned space shall be sealed.
Narrow cavities Batts in narrow cavities shall be cut to fit, or narrow cavities shall be filled
by insulation that on installation readily conforms to the available cavity
spaces.
Garage separation Air sealing shall be provided between the garage and conditioned spaces.
Recessed lighting Recessed light fixtures installed in the building thermal envelope shall be
air tight, IC rated, and sealed to the drywall.
Plumbing and wiring Batt insulation shall be cut neatly to fit around wiring and plumbing in
exterior walls, or insulation that on installation readily conforms to available
space shall extend behind piping and wiring.
Shower/tub on exterior wall Exterior walls adjacent to showers and tubs shall be insulated and the air
barrier installed separating them from the showers and tubs.
Electrical/phone box on The air barrier shall be installed behind electrical or communication boxes or } /
air sealed boxes shall be installed.
HVAC register boots HVAC register boots that penetrate building thermal envelope shall be
sealed to the sub-floor or drywall.
Fireplace An air barrier shall be installed on fireplace walls. Fireplaces shall have N
gasketed doors
1/28/2016 5:00 PM EnergyGauge®USA-FlaRes2014 Section R405.4.1 Compliant Software P ge 1 of 1
OFFICE COPY
Guidone 109 Beach Ave
HVAC Load Calculations
for
lnspried Homes Florida
61E111 914"1111
RHVACRESIDENTIAL.
HVAC LOADS
Prepared By:
Tonya McDuffie
Home Energy Services
2060 Davis Road
Jacksonville, FL 32218
904-757-3569
Thursday,January 28,2016
Rhvac is an ACCA approved Manual J and Manual D computer program.
Calculations are performed per ACCA Manual J 8th Edition, Version 2, and ACCA Manual D.
Rhvac;Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services }} Guidone 109 Beach Ave
Jacksonville. FL 32218 1. Page 2
Project Report
General Project Information
Project Title: Guidone 109 Beach Ave
Project Date: Thursday, January 28, 2016
Client Name: Inspried Homes Florida
Client Comment:
Company Name: Home Energy Services
Company Representative: Tonya McDuffie
Company Address: 2060 Davis Road
Company City: Jacksonville, FL 32218
Company Phone: 904-757-3569
Company E-Mail Address: ecalcs @hesjax.com
Company Website: www.hesjax.com
Design Data
Reference City: Jacksonville, Florida
Building Orientation: Front door faces South
Daily Temperature Range: Medium
Latitude: 30 Degrees
Elevation: 26 ft.
Altitude Factor: 0.999
Outdoor Outdoor Outdoor Indoor Indoor Grains
Dry Bulb Wet Bulb Rel.Hum Rel.Hum Dry Bulb Difference
Winter: 32 29.92 n/a n/a 70 n/a
Summer: 94 77 47% 50% 75 48
Check Figures
Total Building Supply CFM: 980 CFM Per Square ft.: 0.675
Square ft. of Room Area: 1,453 Square ft. Per Ton: 711
Volume (ft3)of Cond. Space: 15,978
Building Loads
Total Heating Required Including Ventilation Air: 21,283 Btuh 21.283 MBH
Total Sensible Gain: 21,546 Btuh 88 %
Total Latent Gain: 2,975 Btuh 12
Total Cooling Required Including Ventilation Air: 24,521 Btuh 2.04 Tons (Based On Sensible + Latent)
Notes
Rhvac is an ACCA approved Manual J and Manual D computer program.
Calculations are performed per ACCA Manual J 8th Edition, Version 2, and ACCA Manual D.
All computed results are estimates as building use and weather may vary.
Be sure to select a unit that meets both sensible and latent loads according to the manufacturer's performance data at
your design conditions.
C:\ ...\Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Guidone 109 Beach Ave
Jacksonville,FL 32218 OLP Page 3
Miscellaneous Report
System 1 1st System Outdoor Outdoor Outdoor Indoor Indoor Grains
Input Data Dry Bulb Wet Bulb Rel.Hum Rel.Hum Dry Bulb Difference
Winter: 32 29.92 80% n/a 70 n/a
Summer: 94 77 47% 50% 75 48.06
Duct Sizing Inputs
Main Trunk Runouts
Calculate: Yes Yes
Use Schedule: Yes Yes
Roughness Factor: 0.00300 0.01000
Pressure Drop: 0.1000 in.wg./100 ft. 0.1000 in.wg./100 ft.
Minimum Velocity: 650 ft./min 450 ft./min
Maximum Velocity: 900 ft./min 750 ft./min
Minimum Height: 0 in. 0 in.
Maximum Height: 0 in. 0 in.
Outside Air Data 1
Winter Summer
Infiltration Specified: 0.250 AC/hr 0.250 AC/hr
67 CFM 67 CFM
Infiltration Actual: 0.250 AC/hr 0.250 AC/hr
Above Grade Volume: X 15,979 Cu.ft. X 15,979 Cu.ft.
3,995 Cu.ft./hr 3,995 Cu.ft./hr
X 0.0167 X 0.0167
Total Building Infiltration: 67 CFM 67 CFM
Total Building Ventilation: 0 CFM 0 CFM
---System 1---
Infiltration &Ventilation Sensible Gain Multiplier: 20.88 = (1.10 X 0.999 X 19.00 Summer Temp. Difference)
I Infiltration &Ventilation Latent Gain Multiplier: 32.65 = (0.68 X 0.999 X 48.06 Grains Difference)
Multiplier: 41.76 = (1.10 X 0.999 X 38.00 Winter Temp. Difference)
&Ventilation Sensible Loss P )
P (
Winter Infiltration Specified: 0.250 AC/hr(67 CFM)
Summer Infiltration Specified: 0.250 AC/hr (67 CFM)
C:\ ...1Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Guidone 109 Beach Ave
Jacksonville. FL 32218 Page 4
Load Preview Reporf
- -- Net ft.'; Sen Lat Net Sen Hts' Cls] Act Duct
Scope Ton /Ton; Area Gain Gain Gain Loss CFMI CFM CFM Size
1
1 Bulking 2.04 711 1453 21,546 2,975 24,521 21,283 430 980 980
System 1 2.04 711 1,453 21,546 2,975 24,521 21,283 430 980 980 12x15
Zone 1 1,453 21,546 2,975 24,521 21,283 430 980 980 12x15
1-Foyer 104 864 305 1,169 3,009 61 39 39 1-4
2-Living 234 3,735 330 4,065 4,339 88 170 170 2-5
3-Bunk Room 195 1,797 254 2,051 3,105 63 82 82 1-5
4-Bath 1 69 441 162 603 1,592 32 20 20 1-4
5-Stair 33 1,565 173 1,738 1,192 24 71 71 1-5
6-Family/Dirrng 338 6,457 979 7,436 3,363 68 294 294 3-6
7-1Gtchen 163 2,878 429 3,307 1,348 27 131 131 2-5
8-WIC 55 274 43 317 558 11 12 12 1-4
9-Owners Suite 194 3266 251 3,517 2,307 47 149 149 2-5
10-Bath 2 69 269 49 318 470 10 12 12 1-4
C:\ ...\Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Guidone 109 Beach Ave
Jacksonville. FL 32218 Page 5
•
Duct Size Preview
• Room or Minimum' Maximum Rough. Design; SP Duct Duct H;g Clg Ac: Duct
Duct Name Source Velocity Velocity Factor L/100 Loss Velocity, Length Flow Flow flow Size
• System 1
Supply Runouts
Zone 1
1-Foyer Built-In 450 750 0.01 0.1 450.5 61 39 39 1-4
2-Living Built-In 450 750 0.01 0.1 623.1 88 z,170 170 2-5
3-Bunk Room Butt-In 450 750 0.01 0.1 599.6 63 IF 82 82 1-5
4-Bab 1 Butt-In 450 750 0.01 0.1 229.9 32 II 20 20 1-4
5-Stair Built-In 450 750 0.01 0.1 522.2 24$,71 71 1-5
6-Family/Dining Butt-In 450 750 0.01 0.1 498.7 68 294 294 3-6
7-Kitchen Built-In 450 750 0.01 0.1 480.2 27 131 131 2-5
8-WIC Built-In 450 750 0.01 0.1 142.9 11 12 12 1-4
9-Owners Suite Built-In 450 750 0.01 0.1 544.9 47 149 149 2-5
10-Bath 2 Built-In 450 750 0.01 0.1 140.2 10 12 12 1-4
Other Ducts in System 1
Supply Main Trunk Built-In 650 900 0.003 0.1 784.2 430 980 980 12x15
Summary
System 1
Heating Flaw: 430
Cooling Flow: 980
C:\ ...\Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Guidone 109 Beach Ave
Jacksonville, FL 32218 C/1' Page 6
Total Building Summary Loads
Component Area Sen Lat Sen Total
Description Quan Loss Gain Gain Gain
4A-6-o: Glazing-Double pane low-e (e = 0.20 or less), 399.1 4,701 0 9,225 9,225
high performance, operable window, e=0.05 on
surface 2, any frame, u-value 0.31, SHGC 0.27 1
11J: Door-Metal - Fiberglass Core 21.6 492 0 246 246
12E-Osw: Part-Frame, R-19 insulation in 2 x 6 stud cavity, 277.6 717 0 358 358
no board insulation, siding finish, wood studs
12E-Osw: Wall-Frame, R-19 insulation in 2 x 6 stud 1481.2 3,828 0 2,156 2,156
cavity, no board insulation, siding finish, wood studs
18B1-21o: Roof/Ceiling-Roof Joists Between Roof Deck 1045.8 1,868 0 1,229 1,229
and Ceiling or Foam Encapsulated Roof Joists,
Spray Foam Insulation, White or Light Color Asphalt
Shingle, Any Wood Shake, Dark or Medium Color
Tile, Slate or Concrete, Light or Unpainted Metal,
Light or Silver Membrane, Light Tar and Gravel, R-21
open cell 1/2 lb. spray foam, 5.5 inches in 2 x 6 joist
cavity, 1 inch on joist
22A-ph: Floor-Slab on grade, No edge insulation, no 122 6,296 0 0 0
insulation below floor, any floor cover, passive, heavy
moist soil
20P-19: Floor-Over open crawl space or garage, Passive, 316.4 601 0 222 222
R-19 blanket insulation, any cover
Subtotals for structure: 18,503 0 13,436 13,436
People: 4 800 920 1,720
Equipment: 0 5,800 5,800
Lighting: 0 0 0
Ductwork: 0 0 0 0
Infiltration: Winter CFM: 67, Summer CFM: 67 2,780 2,175 1,390 3,565
Ventilation: Winter CFM: 0, Summer CFM: 0 0 0 0 0
Total Building Load Totals: 21,283 2,975 21,546 24,521
Check Figures
Total Building Supply CFM: 980 CFM Per Square ft.: 0.675
Square ft. of Room Area: 1,453 Square ft. Per Ton: 711
Volume (ft3) of Cond. Space: 15,978
Building Loads
Total Heating Required Including Ventilation Air: 21,283 Btuh 21.283 MBH
Total Sensible Gain: 21,546 Btuh 88 %
Total Latent Gain: 2,975 Btuh 12 %
Total Cooling Required Including Ventilation Air: 24,521 Btuh 2.04 Tons (Based On Sensible + Latent)
Notes
Rhvac is an ACCA approved Manual J and Manual D computer program.
Calculations are performed per ACCA Manual J 8th Edition, Version 2, and ACCA Manual D.
All computed results are estimates as building use and weather may vary.
Be sure to select a unit that meets both sensible and latent loads according to the manufacturer's performance data at
your design conditions.
C:\ ...\Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
Rhvac-Residential &Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Guidone 109 Beach Ave
Jacksonville.FL 32218 1/ Page 7
Building Pie Chart
Infiltration 13%
Door 2%
Floor 32%
Building
Loss Glass 22%
21,283
Btuh
Roof 9%
Wall 21%
Floor 1%
Roof 5%
Infiltration 15%
Wall 10%
Building
Gain Equipment 24%
24,521
Btuh
Glass 38%
People 7%
Door 1%
C:\ ...\Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Guidone 109 Beach Ave
Jacksonville. FL 32218 Page 8
Equipment Data - System 1 - 1st System
Cooling
System Type: Air Source Heat Pump
Outdoor Model: 25HHA430A"30
Indoor Model: FFMANP037
Tradename: CARRIER AIR CONDITIONING
Outdoor Manufacturer: CARRIER AIR CONDITIONING
Description: Air Source Heat Pump
AHRI Reference No.: 7810962
Nominal Capacity: 28600
Adjusted Capacity: 24775
Adjusted Sensible Capacity: 17868
Adjusted Latent Capacity: 6907
Efficiency: 14 SEER
Heating
System Type: Air Source Heat Pump
Model: 25HHA430A**30
Tradename: CARRIER AIR CONDITIONING
Manufacturer: CARRIER AIR CONDITIONING
Description: Air Source Heat Pump
Capacity: 28600
Efficiency: 8.2 HSPF
C:\ ...1Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
Rhvac-Residential &Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Guidone 109 Beach Ave
Jacksonville. FL 32218 Page 9
Manual S Performance Data - System 1 - 1st System
Cooling Loads and Design Conditions
Outdoor Dry Bulb: 94 Sensible Gain: 21,546
Outdoor Wet Bulb: 77 Latent Gain: 2,975
Indoor Dry Bulb: 75 Total Gain: 24,521
Indoor RH: 50 Load SHR: 0.88
Elevation: 26 Supply Airflow: 980
Latitude: 30 Entering Dry Bulb: 75
Altitude Factor: 1 Entering Wet Bulb: 62.5
Equipment Performance Data at System Design Conditions
Air Source Heat Pump Model: 25HHA430A**30+FFMANP037, Nominal Capacity: 28,600
Entered Interpolation Data:
1 EDB
Total Power 75 °F
EWB Air Flow ODB Capacity Input Sensible
CFM °F MBtuh kW
S/T Capacity
MBluh
85 30.52 2.06 0.709 21.65
62 95 28.4 2.28 0.735 20.86
875
85 28.23 2.07 0.995 28.08
67
95 26.61 2.29 1 26.61
Other Adjustments:
Elevation Derating: 1, Miscellaneous: 1, Direct Capacity Adjustment: -3.653
Interpolation Results:
Percent
Load of Load
Sensible Capacity: 17,868 21,546 83%
Latent Capacity: 6,907 2,975 232%
Total Capacity: 24,775 24,521 101%
Power Input: 2.26
C:\ ...1Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
Rhvac-Residential &Light Commercial HVAC Loads --. Elite Software Development,Inc.
Home Energy Services -i Guidone 109 Beach Ave
Jacksonville. FL 32218 1 Page 10
System 1 Room Load Summary
Htg Min Run Run Clg Clg Min Act
Room Area Sens Htg Duct Duct Sens Lat Clg Sys
No Name SF Btuh CFM Size Vel Btuh Btuh CFM CFM
---Zone 1---
1 Foyer 104 3,009 61 1-4 450 864 305 39 39
2 Living 234 4,339 88 2-5 623 3,735 330 170 170
3 Bunk Room 195 3,105 63 1-5 600 1,797 254 82 82
4 Bath 1 69 1,592 32 1-4 230 441 162 20 20
5 Stair 33 1,192 24 1-5 522 1,565 173 71 71
6 Family/Dining 338 3,363 68 3-6 499 6,457 979 294 294
7 Kitchen 163 1,348 27 2-5 480 2,878 429 131 131
8 WIC 55 558 11 1-4 143 274 43 12 12
9 Owners Suite 194 2,307 47 2-5 545 3,266 251 149 149
10 Bath 2 69 470 10 1-4 140 269 49 12 12
System 1 total 1,453 21,283 430 21,546 2,975 980 980
System 1 Main Trunk Size: 12x15 in.
Velocity: 784 ft./min
Loss per 100 ft.: 0.095 in.wg
Cooling System Summary
Cooling Sensible/Latent Sensible Latent Total
Tons Split Btuh Btuh Btuh
Net Required: 2.04 88%/ 12% 21,546 2,975 24,521
Actual: 2.38 75%/25% 21,450 7,150 28,600
Equipment Data
Heating System Cooling System
Type: Air Source Heat Pump Air Source Heat Pump
Model: 25HHA430A'"30 25HHA430A"30
Indoor Model: FFMANP037
Brand: CARRIER AIR CONDITIONING CARRIER AIR CONDITIONING
Description: Air Source Heat Pump Air Source Heat Pump
Efficiency: 8.2 HSPF 14 SEER
Sound: 0 0
Capacity: 28,600 Btuh 28,600 Btuh
Adjusted Capacity: n/a 24,775 Btuh
Sensible Capacity: n/a 21,450 Btuh
Adjusted Sensible Capacity: n/a 17,868 Btuh
Latent Capacity: n/a 7,150 Btuh
Adjusted Latent Capacity: n/a 6,907 Btuh
AHRI Reference No.: n/a 7810962
C:\ ...\Guidone 109 Beach Ave.rh9 Thursday. January 28. 2016. 5:56 PM
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EsICC EVALUATION Most Widely Accepted and Trusted
SERVICE
ICC-ES Report ESR-1826
ICC-ES 1 (800)423-6587 I (562) 699-0543 1 www.icc-es.org Valid:02/15 to 02/16
DIVISION: 07 00 00—THERMAL AND MOISTURE PROTECTION
SECTION: 07 21 00—THERMAL INSULATION
OFFICE COPY
REPORT HOLDER:
ICYNENE, INC.
6747 CAMPOBELLO ROAD
MISSISSAUGA, ONTARIO L5N 2L7
CANADA
EVALUATION SUBJECT:
ICYNENE CLASSIC, CLASSIC MAX, CLASSIC ECO AND CLASSIC PLUS
,•••••
ICC ICC ICC
ThEO cc
Look for the trusted marks of Conformity! G�-`i
"2014 Recipient of Prestigious Western States Seismic Policy Council I'TEPC.,NA:
(WSSPC)Award in Excellence" A Subsidiary of coDECOwta1
ICC-ES Evaluation Reports are not to be construed as representing aesthetics or any other attributes not specifically
addressed, nor are they to be construed as an endorsement of the subject of the report or a recommendation for its use. ANSI
There is no warranty by ICC Evaluation Service, LLC, express or implied, as to any finding or other matter in this report,
NMI Awe/Pled PM,.
or as to any product covered by the report.
EZ ICC EVALUATION
`,. SERVICE Most Widely Accepted and Trusted
ICC-ES Evaluation Report ESR-1826
Reissued February 2015
This report is subject to renewal February 2016.
www.icc-es.org I (800)423-6587 I (562) 699-0543 A Subsidiary of the International Code Council®
DIVISION: 07 00 00—THERMAL AND MOISTURE The Classic, Classic Max and Classic Eco insulations are
PROTECTION for use in Type V construction under the IBC and dwellings
Section: 07 21 00—Thermal Insulation under the IRC; fire-resistance-rated construction when
installed in accordance with Section 4.5; and in Types I
REPORT HOLDER: through IV construction when installed in accordance with
Section 4.6.
ICYNENE, INC. The Classic Plus insulation are for use in Type V-B
6747 CAMPOBELLO ROAD construction under the IBC and nonfire-resistance-rated
MISSISSAUGA,ONTARIO L5N 2L7 construction under the IRC.
CANADA
(905)363-4040 3.0 DESCRIPTION
www.icynene.com 3.1 General:
EVALUATION SUBJECT: 3.1.1 Classic and Classic Max: Icynene Classic and
Classic Max are low-density, open-cell, polyurethane foam
ICYNENE CLASSIC, CLASSIC MAX, CLASSIC ECO AND plastic insulations and air barrier systems that are
CLASSIC PLUS 100 percent water-blown with an installed nominal
density of 0.5 pcf (8 kg/m3). The insulations are two-
1.0 EVALUATION SCOPE component, spray-applied products. The two components
Compliance with the following codes: of the insulation are polymeric isocyanate (A-Component,
P 9 also known as Base Seal) and proprietary resin
• 2012 and 2009 International Building Code'(IBC) (B-Component, Classic or Classic Max Resin). When
® stored at temperatures between 50°F (10°C) and 100°F
• 2012 and 2009 International Residential Codes(IRC) (38°C),the components have a shelf life of six months.
• 2012 and 2009 International Energy Conservation 3.1.2 Classic Eco: The Icynene Classic Eco foam plastic
Codee(IECC) insulation is two-component, low-density, open cell, spray-
• 2013 Abu Dhabi International Building Code(ADIBC)t applied, foam plastic with a nominal density of
'The ADIBC is based on the 2009 IBC.2009 IBC code sections referenced 0.5 pcf (8 kg/m3). The polyurethane foam is produced by
in this report are the same sections in the ADIBC. combining a polymeric isocyanate (A component) and
proprietary resin, Classic Eco (B component).When stored
• Other Codes(see Section 8.0) at temperatures between 50°F (10°C) and 100°F (38°C),
Properties evaluated: the components have a shelf life of six months.
• Surface burning characteristics 3.1.3 Classic Plus: The Icynene Classic Plus foam
plastic insulation is two-component, low density, open cell,
• Physical properties spray-applied, foam plastic with a nominal density of
• Thermal performance(R-values) 0.7 pcf (11 kg/m3). The polyurethane foam is produced by
combining a polymeric isocyanate (A component) and
• Attic and crawl space installation proprietary resin, Classic Plus (B component). When
• Fire resistance stored at temperatures between 50°F (10°C) and 100°F
(38°C),the components have a shelf life of twelve months.
• Air permeability
3.2 Surface Burning Characteristics:
• Noncombustible construction
3.2.1 Classic and Classic Max: When tested in
2.0 USES accordance with ASTM E84/UL 723, at a thickness of
Icynene Classic, Classic Max, Classic Eco and Classic 6 inches (152 mm) and a nominal density of 0.5 pcf
Plus are used to provide thermal insulation in buildings and (8 kg/m ), Icynene Classic and Classic Max have a flame
to seal areas such as plumbing and conduit penetrations spread index of 25 or less and a smoke-developed index
against air infiltration. The insulations are for use in wall of 450 or less. Thicknesses of up to 71/2 inches(190.5 mm)
cavities and floor assemblies; and in attic and crawl space for wall cavities and 111/2 inches (292 mm) for ceiling
installations as described in Section 4.4. cavities are recognized based on room corner fire testing
I I('('-Es l:va/uunon Reports are not to he consumed as representing aesthetics or any other attributes not specifically addressed,nor are the;to he construed ANSI
as an endorsement al.the subject of the report or a recommendation for ice use.there is no warraufi by l('('Evuhtation Service,l.L(',express or implied.as
to ant'.finding or other mutter in tins report,or as to our product covered by the report. o°ina=
in accordance with NFPA 286, when covered with equipment specified by Icynene, Inc. The foam plastic
minimum '/z-inch-thick (13 mm) gypsum board or an must not be sprayed onto a substrate that is wet, or
equivalent thermal barrier complying with the applicable covered with frost or ice, loose scales, rust, oil or grease.
code. Greater thicknesses of insulation are recognized as The foam plastic insulation must not be used in electrical
described in Section 4.4.1.2.1. outlet or junction boxes or in contact with rain or water,
3.2.2 Classic Eco: When tested in accordance with and must be protected from the weather during and
after application. Where the insulation is used as air-
ASTM E84/UL 723, at a thickness of 6 inches (152 mm) impermeable insulation, such as in unvented attic spaces
and a nominal density of 0.5 pcf(8 kg/m3), Icynene Classic
regulated by IRC Section R806, the insulation must be
Eco has a flame spread index of 25 or less and a smoke-
installed at a minimum thicknesses noted in Section 3.4.
developed index of 450 or less. Greater than 6-inch The insulation can be installed in one pass to the
(152 mm) thicknesses of insulation are recognized, based maximum thickness. Where multiple passes are required,
on the flame spread index of 25 or less, when the the cure time between passes is negligible.
insulation is covered with minimum '/-inch-thick (13 mm)
gypsum wallboard or equivalent thermal barrier complying 4.2.2 Classic and Classic Max: The insulation must be
with the applicable code. used in areas where the maximum service temperature is
no greater than 180°F (82°C). The insulation must be
3.2.3 Classic Plus: When tested in accordance with applied when the temperature is at or above 14°F (-10°C)
ASTM E84/UL 723, at a thickness of 4 inches (152 mm) and be protected from the weather during and after
and a nominal density of 0.7 pcf (11 kg/m ), Icynene application.
Classic Plus has a flame spread index of 25 or less and a
smoke-developed index of 450 or less. Greater than 4.2.3 Classic Eco: The insulation may be used in areas
4-inch (102 mm) thicknesses of insulation are recognized, where the maximum service temperature is no greater than
based on the flame spread index of 25 or less, when the 180°F (82°C). The insulation must be applied when the
insulation is covered with minimum 1/2-inch-thick (13 mm) temperature is at or above 14°F (-10°C) and be protected
gypsum wallboard or equivalent thermal barrier complying from the weather during and after application.
with the applicable code. 4.2.4 Classic Plus: The insulation may be used in areas
3.3 Thermal Resistance: where the maximum service temperature is no greater than
180°F (82°C). The insulation must be applied when the
Icynene Classic, Classic Max, Classic Eco and Classic temperature is at or above 14°F (-10°C) and be protected
Plus have thermal resistance (R values) at a mean from the weather during and after application.
temperature of 75°F(24°C)as shown in Table 1.
4.3 Thermal Barrier:
3.4 Air Permeability:
Icynene spray-applied foam plastic insulations are
4.3.1 Classic and Classic Max:
considered air-impermeable insulation in accordance with 4.3.1.1 Application with a Prescriptive Thermal
2012 IRC Sections R202 and R806.5 and 2009 IRC Barrier: Icynene Classic and Classic Max foam plastic
Sections R202 and R806.4, at the following thicknesses: insulations must be separated from the interior of the
• Classic and Classic Max: Minimum, 3 inches(76 mm) building by an approved thermal barrier, such as '/z-inch
based on testing in accordance with ASTM E2178. (12.7 mm) gypsum wallboard installed using mechanical
fasteners in accordance with the applicable code, or an
• Classic Eco: Minimum, 5'/2 inches(140 mm) based on equivalent 15-minute thermal barrier complying with the
testing in accordance with ASTM E283. applicable code. When installation is within an attic or
• Classic Plus: Minimum, 2 inches (51 mm) based on crawl space as described in Section 4.4, a thermal barrier
testing in accordance with ASTM E2178. is not required between the foam plastic and the attic or
crawl space, but is required between the foam plastic
3.5 Intumescent Coatings: insulation and the interior of the building. Thicknesses of
3.5.1 No Burn Plus XD: No Burn Plus XD intumescent up to 7'/2 inches (190.5 mm) for wall cavities and
coating is a latex-based coating supplied in 1-gallon (4L) 11 /z inches (292 mm) for ceiling cavities are recognized
based on room corner fire testing in accordance with NFPA
and 5-gallon (19L) pails and 55 gallon (208 L) drums. The 286, when covered with minimum '/2-inch-thick (13 mm)
coating material has a shelf life of 12 months when stored gypsum board or equivalent thermal barrier complying with
in factory-sealed containers at temperatures between 40°F the applicable code.
(4.4°C) and 90°F (32.2°C).
4.3.1.2 Application without a Prescriptive Thermal
3.5.2 DC 315: DC 315 intumescent coating is a water- Barrier or Ignition Barrier: The prescriptive 15-minute
based coating supplied in 5-gallon (19L) pails and thermal barrier or ignition barrier may be omitted when
55-gallon (208L) drums. The coating material has a shelf installation is in accordance with this section. The
life of 24 months when stored in factory-sealed containers insulation and coating may be spray-applied to the interior
at temperatures between 41°F (5°C)and 95°F (35°C). facing of walls, the underside or roof sheathing of roof
4.0 INSTALLATION rafters, and in crawl spaces, and may be left exposed as
an interior finish without a prescribed 15-minute thermal
4.1 General: barrier or ignition barrier. The thickness of the foam plastic
The manufacturer's published installation instructions and applied to the underside of the roof sheathing must not
this report must be strictly adhered to and a copy of these exceed 14 inches (356 mm). The thickness of the spray
instructions and this evaluation report must be available on foam insulation applied to vertical wall surfaces must not
the jobsite at all times during installation. exceed 6 inches (152 mm). The foam plastic must be
covered on all surfaces with DC 315 coating at a minimum
4.2 Application: thickness of 20 wet mils [13 dry mils(0.33 mm)], applied at
4.2.1 General: Icynene Classic, Classic Max, Classic Eco a rate of 1.25 gallons (4.7 L) per 100 square feet (9.2 m2).
and Classic Plus foam plastic insulations must be applied The coating must be applied over the insulation in
nn the. inhcifa i icinn f■ein_rmmnnne.nt 1_tn_1 rafin cnrow a ••nrAanria with tha rnatinn man'ifarfi,re.r'c incfn irtinnc
and this report. Surfaces to be coated must be dry, clean, may be spray-applied to the underside of the roof
and free of dirt, loose debris and other substances that sheathing and/or rafters, as described in this section. The
could interfere with adhesion of the coating. The coating is thickness of the foam plastic applied to the underside of
applied in one coat with low-pressure airless spray the roof sheathing must not exceed 14 inches (356 mm).
equipment. The thickness of the spray foam insulation applied
to vertical wall surfaces must not exceed 5.5 inches
4.3.2 Classic Eco: (140 mm). The insulation must be covered on all surfaces
4.3.2.1 Application with a Prescriptive Thermal with one of the coatings described in Section 3.5. The
Barrier: lcynene Classic Eco polyurethane foam plastic coating must be applied over the insulation in accordance
insulation must be separated from the interior of the with the coating manufacturer's instructions and this report.
building by an approved thermal barrier of 1/2-inch-thick Surfaces to be coated must be dry, clean, and free of dirt,
(13 mm) gypsum wallboard or an equivalent 15-minute loose debris and other substances that could interfere with
thermal barrier complying with, and installed in accordance adhesion of the coating. The coating is applied in one coat
with, IBC Section 2603.4 or IRC Section R316.4, as with low-pressure airless spray equipment. The coating
applicable. must be applied to a thickness as follows:
4.3.3 Classic Plus: • No Burn Plus XD at a minimum thickness of 6 wet mils
(0.15 mm) [4 dry mils (0.1 mm) dry film thickness],
4.3.3.1 Application with a Prescriptive Thermal applied at a rate of 0.4 gallon (1.5 L) per 100 square
Barrier: lcynene Classic Plus polyurethane foam plastic feet(9.2 m2).
insulation must be separated from the interior of the
building by an approved thermal barrier of 1/2-inch-thick • DC 315 at a minimum thickness of 4 wet mils (0.1 mm)
(13 mm) gypsum wallboard or an equivalent 15-minute [3 dry mils], applied at a rate of 0.3 gallon (1.1 L) per
thermal barrier complying with, and installed in accordance 100 square feet(9.2 m2).
with, IBC Section 2603.4 or IRC Section R316.4, as The coatings must be applied when ambient and
applicable. substrate temperature is at least 60°F (16°C) and no more
4.4 Attics and Crawl Spaces: than 95°F (35°C). All other surfaces (including glass) must
4.4.1 Classic and Classic Max: be protected against damage from the coating. The
insulation may be installed in unvented attics when the
4.4.1.1 Application with a Prescriptive Ignition Barrier: foam plastic is applied at a minimum thickness of
When Icynene Classic and Classic Max foam plastic 3.5 inches (89 mm) as described in this section in
insulations are installed within attics where entry is made accordance with 2012 IRC Section R806.5 or 2009 IRC
only for service of utilities, an ignition barrier must be Section R806.4,as applicable.
installed in accordance with IBC Section 2603.4.1.6 and 4.4.1.2.2 Attics—Classic Max: When Classic Max is
IRC Sections R316.5.3 and R316.5.4, as applicable. The applied in unvented attics conforming to 2012 IRC Section
ignition barrier must be consistent with the requirements R806.5 or 2009 IRC Section R806.4,the insulation may be
for the type of construction required by the applicable code applied to the underside of roof sheathing and/or rafters to
and must be installed in a manner so that the foam plastic a minimum thickness of 31/2 inches (90 mm) and may be
insulation is not exposed. The Classic or Classic Max applied to vertical wall surfaces to a minimum thickness of
insulation may be installed in unvented attics when the
31/2 inches (90 mm). Maximum thickness on the underside
foam plastic is applied at a minimum thickness of 3 inches of roof sheathing or on vertical wall surfaces is 20 inches
(76 mm) in accordance with 2012 IRC Section R806.5 or (508 mm). The insulation may be left exposed to the attic
2009 IRC Section R806.4, as applicable. without a prescriptive ignition barrier or an intumescent
4.4.1.2 Application without a Prescriptive Ignition coating.
Barrier: Where lcynene Classic and Classic Max foam The attic must have attic access complying with IRC
plastic insulations are installed in an attic or crawl space Section R807, horizontally placed in the floor, and opening
without a prescriptive ignition barrier, in accordance with outward toward the living space. Items penetrating the roof
Sections 4.4.1.2.1, 4.4.1.2.2, 4.4.1.2.3 and 4.4.1.2.4, the deck or walls, such as skylight wells and vents, must be
following conditions apply: covered with a minimum of 31/2 inches (90 mm) of the
1. Entry to the attic or crawl space is only for service of Classic Max insulation.
utilities and no storage is permitted. 4.4.1.2.3 Crawl Spaces: In crawl spaces, Icynene
2. There are no interconnected attic, crawl space or Classic and Classic Max insulations may be spray-applied
basement areas. to vertical walls and the underside of floors, as described in
this section. The thickness of the foam plastic applied to
3. Air in the attic or crawl space is not circulated to other the underside of the floors must not exceed 14 inches
parts of the building. (356 mm). The thickness of the spray foam plastic
4. Combustion air is provided in accordance with IMC insulation applied to vertical wall surfaces must not exceed
Section 701. 31/2 inches (88.9 mm). The foam plastic does not require
5. Attic ventilation is provided when required by IBC
an ignition barrier or a coating.
Section 1203.2 or IRC Section R806, except when 4.4.1.2.4 Use on Attic Floors: When used on attic floors,
air-impermeable insulation is permitted in unvented Icynene Classic and Classic Max foam plastic insulations
attics in accordance with 2012 IRC Section R806.5 or may be installed at a maximum thickness of 111/2 inches
2009 IRC Section R806.4,as applicable. (292 mm) between joists in attic floors.The insulation must
be separated from the interior of the building by an
6. Under floor(crawl space) ventilation is provided when approved thermal barrier.The coatings specified in Section
required by IBC Section 1203.3 or IRC Section 4.4.1.2.1 and the ignition barrier in accordance with IBC
R408.1,as applicable. Section 2603.4.1.6 and IRC Section R316.5.3, may be
4.4.1.2.1 Attics – Classic and Classic Max: In attics, omitted.
Irvnena Classic. and Classic Max foam nlastir. insulations
Y
4.4.2 Classic Eco: Icynene Classic Eco insulation may be installed in
unvented attics when the foam plastic is applied at a
4.4.2.1 Application with a Prescriptive Ignition Barrier: minimum thickness of 51/2 inches(140 mm)as described in
When Icynene Classic Eco is installed within attics or crawl this section, in accordance with 2012 IRC Section R806.5
spaces where entry is made only for service of utilities, an or 2009 IRC Section R806.4, as applicable.
ignition barrier must be installed in accordance with IBC
Section 2603.4.1.6 and IRC Sections R316.5.3 and 4.4.2.2.2 Crawl Spaces: In crawl spaces, Icynene
R316.5.4, as applicable. The ignition barrier must be Classic Eco insulation may be spray-applied to vertical
consistent with the requirements for the type of walls and the underside of floors, as described in this
construction required by the applicable code and must be section. The thickness of the foam plastic applied to the
installed in a manner so that the foam plastic insulation is underside of the floors must not exceed 14 inches
not exposed. Icynene Classic Eco may be installed in (356 mm). The thickness of the spray foam plastic
unvented attics when the foam plastic is applied at a insulation applied to vertical wall surfaces must not exceed
minimum thickness of 5.5 inches (140 mm) in accordance 31/2 inches (88.9 mm). The foam plastic does not require
with 2012 IRC Section R806.5 or 2009 IRC Section an ignition barrier or a coating.
R806.4,as applicable. 4.4.2.2.3 Use on Attic Floors: Icynene Classic Eco
4.4.2.2 Application without a Prescriptive Ignition insulation may be installed at a maximum thickness of
Barrier: Where Icynene Classic Eco insulation is installed 51/2 inches (152 mm) between joists in attic floors when
in accordance with Sections 4.4.2.2.1, 4.4.2.2.2 and covered with one of the coatings applied as described in
4.4.2.2.3,the following conditions apply: Section 4.4.2.2.1. The insulation must be separated from
the interior of the building by an approved thermal barrier.
1. Entry to the attic or crawl space is to service utilities,
and no storage is permitted. 4.4.3 Classic Plus:
2. There are no interconnected attic or crawl space 4.4.3.1 Application with a Prescriptive Ignition Barrier:
areas. When Icynene Classic Plus is installed up to a maximum
thickness of 4 inches (102 mm) within attics or crawl
3. Air in the attic or crawl space is not circulated to other spaces where entry is made only for service of utilities, an
parts of the building. ignition barrier must be installed in accordance with IBC
4. Combustion air is provided in accordance with IMC Section 2603.4.1.6 and IRC Sections R316.5.3 and
Section 701. R316.5.4, as applicable. The ignition barrier must be
consistent with the requirements for the type of
5. Attic ventilation is provided when required by IBC construction required by the applicable code and must be
Section 1203.2 or IRC Section R806, except when installed in a manner so that the foam plastic insulation is
air impermeable insulation is permitted in unvented not exposed. Icynene Classic Plus may be installed in
attics in accordance with 2012 IRC Section R806.5 or unvented attics when the foam plastic is applied at a
2009 IRC Section R806.4,as applicable. minimum thickness of 2 inches (51 mm) in accordance
6. Under-floor(crawl space)ventilation is provided when with 2012 IRC Section R806.5 or 2009 IRC Section
required by IBC Section 1203.3 or IRC Section R806.4, as applicable.
R408.1, as applicable. 4.4.3.2 Application without a Prescriptive Ignition
4.4.2.2.1 Attics and Crawl Spaces: In attics and crawl Barrier: Where Icynene Classic Plus insulation is installed
spaces, Icynene Classic Eco insulation may be spray- in accordance with Sections 4.4.3.2.1, 4.4.3.2.2, and
applied to the underside of the roof sheathing and/or 4.4.3.2.3,the following conditions apply:
rafters, the underside of wood floors, and vertical surfaces, 1. Entry to the attic or crawl space is to service utilities,
as described in this section. The thickness of the foam and no storage is permitted.
plastic applied to the underside of the top of the space
must not exceed 131/2 inches (343 mm). The thickness of 2. There are no interconnected attic or crawl space
the spray foam plastic insulation applied to vertical wall areas.
surfaces must not exceed 5'/2 inches (140 mm). The foam 3. Air in the attic or crawl space is not circulated to other
plastic must be covered on all surfaces with one of the parts of the building.
coatings described in Section 3.5. The coating must be
applied over the Icynene Classic Eco insulation in 4. Combustion air is provided in accordance with IMC
accordance with the coating manufacturer's instructions Section 701.
and this report. Surfaces to be coated must be dry, clean, 5. Attic ventilation is provided when required by IBC
and free of dirt, loose debris and other substances that Section 1203.2 or IRC Section R806, except when
could interfere with adhesion of the coating. The coating is air-impermeable insulation is permitted in unvented
applied in one coat with low-pressure airless spray attics in accordance with 2012 IRC Section R806.5 or
equipment. The coating must be applied to a thickness as 2009 IRC Section R806.4,as applicable.
follows:
• 6. Under-floor(crawl space) ventilation is provided when
No Burn Plus XD at a minimum thickness of 10 wet mils
required by IBC Section 1203.3 or IRC Section
(0.3 mm) [6 dry mils (0.2 mm)], applied at a rate of R408.1, as applicable.
0.63 gallon(2.4 L) per 100 square feet(9.2 m2)
4.4.3.2.1 Attics: In attics, Icynene Classic Plus insulation
• DC 315 at a minimum thickness of 8 wet mils (0.2 mm)
may be spray-applied to the underside of the roof
[6 dry mils (0.2 mm)], applied at a rate of 0.5 gallon
(1.9 L) per 100 square feet(9.2 m2) sheathing and/or rafters, the underside of wood floors, and
vertical surfaces, as described in this section. The
The coating must be applied when ambient and thickness of the foam plastic applied to the underside of
substrate temperature is at least 60°F (16°C) and no more the top of the space must not exceed 14 inches (356 mm).
than 95°F (35°C). All other surfaces (including glass) must The thickness of the spray foam plastic insulation applied
be protected against damage from the coating. to vertical wall surfaces must not exceed 8 inches
(203 mm). The foam plastic insulation must be covered on (51 mm) long and spaced 24 inches (610 mm) on center
all exposed surfaces with DC315 intumescent coating at a along the studs. The stud cavity contains Icynene Classic
minimum thickness of 4 wet mils (0.1 mm) [3 dry mils or Classic Max insulation nominally 2 inches(51 mm)thick.
(0.08 mm)], applied at a rate of 0.25 gallon (0.95 L) per Axial loads applied to the wall assembly must be limited
100 square feet (9.2 m2). The coating must be applied to the least of the following:
over the Icynene Classic Plus insulation in accordance with
the coating manufacturer's instructions and this report. • 1,805 pounds(8029 N) per stud.
Surfaces to be coated must be dry, clean, and free of dirt, ■ Design stress of 0.78 Pc.
loose debris and other substances that could interfere with
adhesion of the coating. The coating is applied in one coat • Design stress of 0.78 F'c at a maximum le/d of 33.
with low-pressure airless spray equipment.
4.5.1.3 Assembly 3 (Floor/Ceiling): Minimum nominally
The coating must be applied when ambient and 2-by-10 [1'/2 by 91/4 inches (38 mm by 235 mm)] Douglas
substrate temperature is at least 60°F (16°C) and no more fir, No. 2 grade wood joists spaced 24 inches (610 mm)on
than 95°F (35°C). All other surfaces (including glass) must center, with minimum 1-by-3 [3/4 by 21/2 inches (19.1 by
be protected against damage from the coating. 64 mm)] spruce bridging at mid-span. Floor decking
Icynene Classic Plus insulation may be installed in must be minimum 1/2-inch-thick (12.7 mm) exterior grade
unvented attics when the foam plastic is applied at a plywood installed perpendicular to joists and fastened with
minimum thickness of 2 inches (51 mm) as described in 2-inch-long (51 mm) ring shank nails 6 inches(152 mm)on
this section, in accordance with 2012 IRC Section R806.5 center at the joints and 12 inches (305 mm) on center at
or 2009 IRC Section R806.4, as applicable. the intermediate joists. Plywood joints must occur over
joists. Icynene Classic or Classic Max insulation must be
4.4.3.2.2 Crawl Spaces: In crawl spaces, Icynene applied to the underside of the plywood deck between the
Classic Plus insulation may be spray-applied to vertical joists to a depth of 5 inches (127 mm). Two layers of
walls and the underside of floors, as described in this minimum 5/8-inch-thick (15.9 mm), Type X gypsum
section. The thickness of the foam plastic applied to the wallboard must be attached perpendicular to the joists on
underside of the floors must not exceed 14 inches the ceiling side of the assembly. The first layer must be
(356 mm). The thickness of the spray foam plastic attached with 11/4-inch-long (32 mm), Type W drywall
insulation applied to vertical wall surfaces must not exceed screws, spaced 24 inches (610 mm) on center. The
8 inches (203 mm). The insulation must be covered with second layer must be applied perpendicular to the joists,
DC-315 coating is described in Section 4.4.3.2.1. offset 24 inches(610 mm)from the base layer.The second
4.4.3.2.3 Use on Attic Floors: Icynene Classic Plus layer must be attached with 2-inch-long (51 mm), Type S
insulation may be installed at a maximum thickness of drywall screws spaced 12 inches (305 mm) on center.
13 inches (330 mm) between joists in attic floors. The Additional fasteners must be installed along the butt joints
insulation must be separated from the interior of the of the second layer, securing the two layers together.
building by an approved thermal barrier. The insulation These fasteners must be 11/2-inch-long (38 mm), Type G
does not require an ignition barrier or a coating. drywall screws placed 2 inches (51 mm) back from each
4.5 One-hour Fire-resistance-rated Assemblies: end of the butt joint and spaced 12 inches (305 mm) on
center. The wallboard joints on the exposed side must be
4.5.1 Classic and Classic Max: treated with paper tape embedded in joint compound and
4.5.1.1 Assembly 1 (Limited Load-bearing Wood Stud topped with an added coat of compound, and the fastener
Wall): Minimum nominally 2-by-4 [11/2 by 31/2 inches heads must be coated with joint compound in accordance
(38 mm by 89 mm)] southern pine (G =0.55), No. 2 grade with ASTM C840 or GA 216.
studs spaced 16 inches (406 mm) on center with a base 4.5.1.4 Assembly 4(Non-loadbearing Steel Stud Wall):
layer of 1/2-inch-thick (12.7 mm) wood fiber sound board Nominally 6-inch-deep (152.4 mm), No. 18 gage,
installed horizontally on each face with vertical joints galvanized steel studs spaced 16 inches (406.4 mm) on
located over the studs, attached with 6d box nails, 2 inches center, are friction-fit into No. 18 gage galvanized steel
(51 mm) long and spaced 24 inches (610 mm) on center floor and ceiling track with a layer of 5/8-inch-thick
along the studs, and a second layer of 5/8-inch-thick (15.9 mm),Type X gypsum board applied to the interior
(15.9 mm) Type X gypsum wallboard installed vertically on side with the long edge parallel to steel studs and secured
each face, attached with 8d box nails, 21/2 inches (64 mm) using No. 6, 11/4-inch-long (31.7 mm), self- drilling drywall
long and spaced 7 inches (178 mm) on center along the screws spaced 8 inches (203 mm) on center around the
studs. The stud cavity contains Icynene Classic or Classic perimeter and 12 inches (305 mm) on center in the field.
Max insulation nominally 2 inches(51 mm)thick. The gypsum board joints must be treated with vinyl or
Axial loads applied to the wall assembly must be limited casein, dry or premixed joint compound applied in two
to the least of the following: coats to cover all exposed screw heads and gypsum board
butt joints, and a minimum 2-inch-wide (51 mm) paper,
• 1,805 pounds(8029 N) per stud. plastic, or fiberglass tape embedded in the first layer of
• Design stress of 0.78 Pc.
compound over butt joints of the gypsum board. The stud
cavity is filled with Icynene Classic or Classic Max
• Design stress of 0.78 F'c at a maximum le/d of 33. insulation up to 6 inches (152 mm) thick. DensGlass°
4.5.1.2 Assembly 2 (Limited Load-bearing Wood Stud Exterior Sheathing, 1/2 inch (12.7 mm) thick, is installed
Wall): Minimum nominally 2-by-4 [11/2 by 31/2 inches parallel to steel studs with vertical joints offset a minimum
(38 mm by 89 mm)] southern pine (G = 0.55), No. 2 grade of 16 inches (406 mm) from the vertical joints of the
studs spaced 16 inches (406 mm) on center with two gypsum board and the horizontal joints offset a minimum of
layers of 1/2-inch-thick (12.7 mm) Type X gypsum 24 inches (610 mm) from the horizontal joints of the
wallboard installed vertically with joints staggered on each gypsum board. The sheathing is attached using No. 6,
face, attached with 8d box nails, 21/2 inches (64 mm) long 1 /4-inch-long (31.7 mm), self-drilling drywall screws
and spaced 7 inches (178 mm) on center along the studs spaced 8 inches (203 mm) on center around the perimeter
�,,.♦I...i.,..,, I...,....,n.l Q.l ^^.++..� ^^^^� I+^ ^^'I^ '> '^^�`^^ onri in the 4101x1 1-Inhm,nn R. P rnorri n AL1f hrin4 Hoe
6 inches (152 mm) long by 11/2-inches (38 mm) wide, are inch of thickness
spaced 16 inches (406.4 mm) on center vertically on each • Classic Eco: 168 Btu/ft` (1.9 MJ/m2) per inch of
steel stud,and secured, using two 15/8-inch-long (41.3 mm) thickness.
self-drilling screws, through 4-inch (102 mm) red clay brick
[31/2 inches (88.9 mm) by 21/4 inches (57.1 mm) by 4.6.2 Exterior Face: Nominally 6-inch-deep (152 mm),
73/4 inches (197 mm)] laid in a running bond pattern with No. 18 gage, galvanized steel studs spaced 16 inches
Type S mortar, leaving a nominally 1-inch (25.4 mm) air (406 mm) on center, are fastened to No. 18 gage,
gap between the brick and the exterior sheathing. galvanized steel floor and ceiling track using No. 8,
Optional: It is permitted to add code-complying, /8 inch long (22.2 mm), self-tapping pan head framing
expanded polystyrene (EPS), extruded polystyrene (XPS), screws. GP DensGlass Exterior Sheathing, /z inch
foil-faced, rigid polyurethane board stock or polyurethane (12.7 mm) thick, is installed over the exterior side of steel
studs with the long end perpendicular to the steel studs,
spray foa® on the exterior of the wall (between the using No. 6, Type S. 11/4-inch (31.7 mm) long, self tapping
DensGlass sheathed wall and the brick), while bugle head screws spaced 8 inches (203 mm) on center
maintaining the 1-inch (25.4 mm) air space. The length of around the perimeter and in the field. The stud cavity is
the brick ties must be increased to account for the filled with Icynene Classic, Classic Max or Classic Eco
thickness of the insulation. insulation to a nominal thickness of 6 inches(152 mm).
4.5.2 Classic Eco (Non-loadbearing Steel Stud Wall): 4.6.3 Interior Face: Type X gypsum board, 5/8 inches
Nominally 6-inch-deep (152 mm) deep, No. 18 gage, (15.9 mm) thick, is installed with the long dimension
galvanized steel studs spaced 16 inches (406 mm) on perpendicular to steel studs with No. 6, Type S, 11/4 inch-
center, are friction-fit into No. 18 gage galvanized steel long (31.7 mm), self-tapping, bu le head screws spaced
floor and ceiling track with a layer of 5/8-inch-thick 8 inches (203 mm) on cnter around the perimeter and in
(15.9 mm), Type X gypsum board installed to the interior the field. The gypsum board joints must be treated with
side with the long edge parallel to steel studs and secured vinyl or casein, dry or premixed joint compound applied in
using No. 6, 11/4-inch-long (31.7 mm), self-drilling drywall two coats to cover all exposed screw heads and gypsum
screws spaced 8 inches (203 mm) on center around the board butt joints, and a minimum 2-inch-wide (51 mm)
perimeter and 12 inches (305 mm) on center in the field. paper, plastic, or fiberglass tape embedded in the first
The gypsum board joints must be treated with vinyl or layer of compound over butt joints of the gypsum board.
casein, dry or premixed joint compound applied in two
coats to cover all exposed screw heads and gypsum board 4.6.4 Exterior Wall Covering: Details of the exterior wall
butt joints, with a minimum 2-inch-wide (51 mm) paper, covering must be provided to the code official by the report
plastic, or fiberglass tape embedded in the first layer of holder, designer or specifier, with an engineering analysis
compound over butt joints of the gypsum board. The stud demonstrating that (1) the exterior wall covering conforms
cavity is filled with Icynene Classic Eco insulation up to to ASTM E136 and (2) the addition of the wall covering to
6 inches (152 mm) thick. DensGlass® Exterior Sheathing, the assembly described in this section does not negatively
1/2 inch (12.7 mm) thick, is installed parallel to steel studs affect conformance of the assembly with the requirements
with vertical joints offset a minimum of 16 inches(406 mm) of IBC Section 2603.5.
from the vertical joints of the gypsum board and the 5.0 CONDITIONS OF USE
horizontal joints offset a minimum of 24 inches (610 mm)
from the horizontal joints of the gypsum board. The The Icynene Classic, Classic Max,Classic Eco and Classic
sheathing is attached using No. 6, 11/4-inch-long Plus spray-applied polyurethane foam plastic insulations
(31.7 mm), self-drilling drywall screws spaced 8 inches described in this report comply with, or are suitable
(203 mm) on center around the perimeter and in the field. alternatives to what is specified in, those codes listed in
Hohmann & Barnard DW-10 brick ties, 6 inches (152 mm) Section 1.0 of this report, subject to the following
long by 11/2 inches (38 mm) wide and spaced 16 inches conditions:
(406 mm) on center vertically on each steel stud, are 5.1 This evaluation report and the manufacturer's
secured, using two 15/8-inch-long (41.3 mm) self-drilling published installation instructions, when required by
screws,through 4-inch (102 mm) red clay brick[31/2 inches the code official, must be submitted at the time of
(88.9 mm) by 21/4 inches (57.1 mm) by 73/4 inches permit application.
(197 mm)] laid in a running bond pattern with Type S
mortar. A nominally 1-inch (25.4 mm) air gap is left 5.2 The insulation must be installed in accordance with
between the brick and the exterior sheathing. the manufacturer's published installation instructions,
this evaluation report and the applicable code. If there
Optional: It is permitted to add code-complying EPS, is a conflict between the installation instructions and
XPS, foil-faced, rigid polyurethane board stock or this report,this report governs.
polyurethane spray foam on the exterior of the wall 5.3 The insulation must be separated from the interior of
(between the DensGlass sheathed wall and the brick), the building by an approved 15 minute thermal
while maintaining the 1-inch (25.4 mm) air space. The barrier,except as noted in this report.
length of the brick ties must be increased to account for the
thickness of the insulation. 5.4 Since the performance of Classic Max,when installed
in unvented attics without a code-prescribed ignition
4.6 Exterior Walls in Type I, II, III and IV Construction: barrier or an intumescent coating, is based on fire
4.6.1 General: When used on exterior walls of Types I, II, performance of an unvented attic, the installation
III or IV construction, the assembly must comply with IBC must be approved by the code official as conforming
Section 2603.5 and this section, and the Classic, Classic with the provisions of Section 4.4.1.2.2 and
Max and Classic Eco insulations must be installed at a Conditions 1 to 5 of Section 4.4.1.2.
maximum thickness of 6 inches (152 mm). The potential 5.5 When Classic Max insulation is installed under
heat of Icynene insulations tested in accordance with Section 4.4.1.2.2 of this report, a certificate must be
NFPA 259 is as follows: placed in the attic stating that the foam plastic
r,,...�;.- —,4 r-,..—;.. RA nv• Ao,, Qf,,,H2 ,A a Kn 1,..,2N „e, insulation has been installed in accordance with
Conditions 1 to 5 of Section 4.4.1.2 and the terms of 6.10 For Classic Max, an engineering evaluation, including
' Section 4.4.1.2.2 of ESR-1826; any alterations to the full-scale fire testing, small-scale testing and fire
attic or insulation must be consistent with those modeling (Section 4.4.1.2.2).
requirements. 7.0 IDENTIFICATION
5.6 The insulation must not exceed the thicknesses and All packages and containers of Classic, Classic Max,
densities noted in this report. Classic Eco and Classic Plus insulations must be labeled
5.7 The insulation must be protected from the weather with the Icynene, Inc., name and address; the product
during and after application. name; component designation (A or B); the flame spread
index and the smoke-developed index; the shelf life
5.8 The insulation must be applied by licensed dealers expiration date; the name of the inspection body (ICC-ES);
and installers certified by Icynene, Inc. and the evaluation report number(ESR-1826).
5.9 Use of the insulation in areas where the probability of Intumescent coatings are identified with the
termite infestation is "very heavy" must be in manufacturer's name and address,the product trade name
accordance with IRC Section R318.4 or IBC Section and use instructions.
2603.8,as applicable.
5.10 Jobsite certification and labeling of the insulation must
8.0 OTHER CODES
comply with IRC Sections N1101.4 and N1101.4.1 8.1 Scope:
and IECC Sections 303.1.1 and 303.1.2, as In addition to the codes referenced in Section 1.0, the
applicable. products recognized in this report were evaluated for
5.11 A vapor retarder must be installed in accordance with compliance with the requirements of the following codes:
the applicable code. • 2006 International Building Code(2006 IBC)
5.12 Icynene Classic, Classic Max, Classic Eco and • 2006 International Residential Codes(2006 IRC)
Classic Plus foam plastic insulations are
manufactured in Mississauga, Ontario, Canada,under • 2006 International Energy Conservation Code® (2006
a quality control program with inspections by ICC-ES. IECC)
6.0 EVIDENCE SUBMITTED 8.2 Uses:
6.1 Data in accordance with the ICC-ES Acceptance The products comply with the above-mentioned codes as
Criteria for Spray-applied Foam Plastic Insulation described in Sections 2.0 to 7.0 of this report, with the
(AC377), dated November 2012 (editorially corrected revisions noted below.
April 2013). • Application with a Prescriptive Ignition Barrier: See
6.2 Reports of tests in accordance with AC377 Appendix Sections 4.4.1.1 (Classic and Classic Max) 4.4.2.1
X [Classic and Classic Max (Section 4.4.1.2.1); (Classic Eco) and 4.4.3.1 (Classic Plus), except attics
Classic Eco (Section 4.4.2.2.1) and Classic Plus must be vented in accordance with 2006 IBC Section
(Sections 4.4.3.2.1 and 4.4.3.2.3)] and Appendix C 1203.2, and crawl space ventilation must be in
[Classic and Classic Max (Section 4.4.1.2.3); and accordance with 2006 IBC Section 1203.3, as
Classic Eco(Section 4.4.2.2.2)]. applicable. Additionally, an ignition barrier must be
installed in accordance with 2006 IRC Section R314.5.3
6.3 Test reports on air leakage rate in accordance with or R314.5.4,as applicable.
ASTM E283(Classic Eco).
• Application without a Prescriptive Ignition Barrier:
6.4 Test report on air leakage rate in accordance with See Sections 4.4.1.2 (Classic and Classic Max), 4.4.2.2
ASTM E2178 (Classic, Classic Max and Classic (Classic Eco) and 4.4.3.2 (Classic Plus), except attics
Plus). must be vented in accordance with 2006 IBC Section
6.5 Reports of room corner fire testing in accordance with 1203.2 or 2006 IRC Section R806, and crawl space
NFPA 286 (Classic, Classic Max, Classic Eco, and ventilation must be in accordance with 2006 IBC Section
Classic Plus). 1203.3 or 2006 IRC Section R408,as applicable.
6.6 Test reports in accordance with ASTM E119 (Classic, • Jobsite Certification and Labeling: See Section 5.10,
Classic Max and Classic Eco). except jobsite certification and labeling must comply
with 2006 IECC Sections 102.1.1 and 102.1.11, as
6.7 Test report in accordance with NFPA 285,and related applicable.
engineering analysis (Classic, Classic Max and
Classic Eco). • Protection Against Termites: See Section 5.9, except
use of the insulation in areas where the probability of
6.8 Reports of tests in accordance with NFPA 259 termite infestation is "very heavy" must be in
(Classic, Classic Max and Classic Eco). accordance with 2006 IRC Section R320.5.
6.9 Reports of fire tests in accordance with ASTM E970
(Classic,Classic Max and Classic Plus).
• TABLE 1—THERMAL RESISTANCE(R-VALUES)
R-VALUE(°F•ft2•h/Btu)
THICKNESS Classic and Classic Max Classic Eco Classic Plus
(inches)
1 3.7 3.7 4.0
2 7.4 7 4 8.0
3 11 11 12
3.5 13 13 14
4 14 14 16
5 18 18 20
5.5 20 20 22
6 22 22 24
7 25 25 28
7.5 27 27 30
8 29 29 32
9 32 32 36
9.5 34 34 38
10 36 36 40
11.5 41 41 42
13 5 — 49 54
14 50 50 56
For SI: 1 inch=25.4 mm, 1"F•fl2•h/Btu=0.176 110°K•m2NV.
'R-values are calculated based on tested K values at 1-and 3.5-inch thicknesses
2R-values greater than 10 are rounded to the nearest whole number.