290 BEACH AVE - REVISION ENERGY SHEETS %'��.L�1 fJ�� CITY OF ATLANTIC BEACH
,6' ,.,
800 Seminole Road c,
Atlantic Beach,Florida 32233
±� �r Telephone(904)247-5800
FAX(904)247-5845
'' '' ,. __'ttJi.i.19 .
REVISION REQUEST SHEET
Date: 3 1�/1 to Received by: Resubmitted:
Permit ber: Il9-MECt-1-9 to ra
Original Plans Examiner: Project Name: }',t.1112.7-
Project Address: _ Av. ,
Contractor: , •, _, .I,h &:-Contact Name: b. p.,.1,0,,, 4 •t.,,r..,.,)
Contact Phone : `3l-.(c2.a,_usrn-7 Contact e- '1: flat toLoptrcsvak;w ., t
Revision/Plan Check/Permit Fee (s)Due: $
Description of Proposed Revision to Existing Permit: (�
- - is Vt b b SIt�rMOJtt_ ,: A ;S
Additional Increase in Building Value: $ / 7JR ; 412lSt
Additional S.' I--
Site Plan Revised: Public W/U Approval:
By signing below.I(print name) cA ... affirm that the above revision
is inclusive of the proposed changes.
r•-&,.-17,07,4-../ Yhifia
Signature of Contractor/Agent(Contractor must sign if increase in valuation) Date
Office Use Only
Date: 3/025-1/ 6 Approved: (�Y Rejected:
� Notified by
Plan Review omments: u / / /
,l�Oveo a S S i btnri Hoo . P/fll,S -e AR VP -7;di d
� /7 �t� �'�� copy Old'-3— 71-0 J ��
fix.
Department review required Yes o
Building
Planning &Zoning
Tree Administrator
Public Works
Plans Examiner
Public Utilities 372 V/G
Public Safety
Fire Services Date
Created 8/20/15 Rev.2
ie ECO
FORM R405-2014
FLORIDA ENERGY EFFICIENCY CODE FOR BUILDING CONSTRUCTION
Florida Department of Business and Professional Regulation - Residential Performance Method
Project Name: Pitler 290 Beach Ave Builder Name:
Street: 290 Beach Ave Permit Office: 261100
City,State,Zip: Atlantic Beach, FL,32233 Permit Number:
Owner Jurisdiction: Atlantic Beach
Design Location: FL,Jacksonville
1. New construction or existing New(From Plans) 9. Wall Types(3380.0 sqft.) Insulation Area
2. Single family or multiple family Single-family a. Frame-Wood, Exterior R=19.0 3380.00 ft2
g y p y b. N/A R= ft2
3. Number of units,if multiple family 1 c. N/A R= ft2
4. Number of Bedrooms 3 d. N/A R= ft2
10.Ceiling Types (1319.0 sqft.) Insulation Area
5. Is this a worst case? No a.Roof Deck(Unvented) R=21.0 1319.00 ft2
6. Conditioned floor area above grade(ft2) 3326 b. N/A R= ft2
c. N/A R= ft2
Conditioned floor area below grade(ft2) 0 11. Ducts R ft2
7. Windows(671.0 sqft.) Description Area a. Sup: System 1, Ret:System 1,AH:System 1 6 332.6
a. U-Factor Dbl, U=0.32 671.00 ft2 b.Sup: System 2,Ret:System 2,AH: System 2 6 332.6
SHGC: SHGC=0.30
b. U-Factor: N/A ft2 12.Cooling systems kBtu/hr Efficiency
a.Central Unit 22.2 SEER:14.00
SHGC: b.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 22.2 HSPF:8.20
SHGC: b. Electric Heat Pump 28.6 HSPF:8.20
Area Weighted Average Overhang Depth: 2.896 ft.
Area Weighted Average SHGC: 0.300 14.Hot water systems
a. Electric Tankless Cap: 1 gallons
8. Floor Types (1319.0 sqft.) Insulation Area EF:0.950
a.Slab-On-Grade Edge Insulation R=0.0 1319.00 ft2 b. Conservation features
b.N/A R. ft2 None
c. N/A R= ft2 15.Credits CF, Pstat
Total Proposed Modified Loads: 78.58 PASS
Glass/Floor Area: 0.202
Total Baseline Loads: 78.19
...................
I hereby certify that the plans and specifications covered by Review of the plans and �`'0�' 14E.Sr ...% ,.
this calculation are in compliance with the Florida Energy specifications covered by this •' ti. a ;•.. �
calculation indicates compliance " 47,,';"'
..
Code. Home E r: 'es p .` /,p °/.'
AIexaF en with the Florida Energy Code. •i•-• n,„ ,,. "''.. . „ ��
-B
PREPARED BY: Before construction is completed ` '. ;5 '
DATE: __ __ 3/1/2016 this building will be inspected for 1 0 •.. a
compliance with Section 553.908 . aim° •
,. .. _. n come • - Florida Statutes. • _-
thrthe Florida tEnergy Code. / , • •• COD %)
OWNER/AGENT: -.r+*- BUILDING OFFICI• :
DATE: 3/S b DATE: Hi Mk �I \/ dial
- Compliance requires certification by the air handler unit manufacturer that the air h. �..r enclosure qualifies as
certified factory-sealed in accordance with R403.2.2.1. 1�
-Compliance requires an Air Barrier and Insulation Inspection Checklist in accordanc , R402.4:1. a d nvel. • eakage
test report in accordance with R402.4.1.2.
- Compliance requires a roof absorptance test and a roof emittance test in accordan•• with R405.7.2
3/1/2016 3:50 PM EnergyGauge®USA-FlaRes2014 Section R405.4.1 Compliant Software Page 1 of 5
. '' FORM R405-2014
PROJECT
Title: Pitler 290 Beach Ave Bedrooms: 3 Address Type: Street Address
Building Type: User Conditioned Area: 3326 Lot#
Owner: Total Stories: 3 Block/SubDivision:
#of Units: 1 Worst Case: No PlatBook:
Builder Name: Rotate Angle: 0 Street: 290 Beach Ave
Permit Office: 261100 Cross Ventilation: County: Duval
Jurisdiction: Atlantic Beach Whole House Fan: City,State,Zip: Atlantic Beach ,
Family Type: Single-family FL, 32233
New/Existing: New(From Plans)
Comment:
CLIMATE
/ IECC Design Temp Int Design Temp Heating Design Daily Temp
V 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 1319 10552
2 Block2 2007 16056
SPACES
Number Name Area Volume Kitchen Occupants Bedrooms InfiIID Finished Cooled Heated
1 System 1 1319 10552 Yes 4 0 1 Yes Yes Yes
2 System 2 2007 16056 No 0 3 1 Yes Yes Yes
FLOORS
V # Floor Type Space Perimeter R-Value Area Tile Wood Carpet
1 Slab-On-Grade Edge Insulatio System 1 148 ft 0 1319 ft2 — 0.4 0 0.6
ROOF
/ Roof Gable Roof Solar SA Emitt Emitt Deck Pitch
V # Type Materials Area Area Color Absor. Tested Tested Insul. (deg)
1 Gable or shed Metal 1475 ft2 330 ft2 Medium 0.75 Yes 0.9 Yes 21 26.6
ATTIC
V # Type Ventilation Vent Ratio(1 in) Area RBS IRCC
1 Full cathedral ceilin Unvented 0 1319 ft2 N N
3/1/2016 3:50 PM EnergyGauge®USA-FlaRes2014 Section R405.4.1 Compliant Software Page 2 of 5
FORM R405-2014
CEILING
V # Ceiling Type Space R-Value Area Framing Frac Truss Type
1 Under Attic(Unvented) System 1 0.1 1319 ft2 0.11 Wood
WALLS
/ Adjacent Cavity Width Height Sheathing Framing Solar Below
V__# Ornt To Wall Type _-_------ Space R-Value Ft In Fl In Area --R-Value--fraction-__Absor__ Grade%
1 E Exterior Frame-Wood System 1 19 18 0 8 0 144.0 ft2 0 0.23 0.8 0
2 S Exterior Frame-Wood System 1 19 15.5 0 8 0 124.0 ft2 0 0.23 0.8 0
3 S Exterior Frame-Wood System 1 19 8 0 8 0 64.0 ft2 0 0.23 0.8 0
4 S Exterior Frame-Wood System 1 19 17 0 8 0 136.0 ft2 0 0.23 0.8 0
5 W Exterior Frame-Wood System 1 19 20 0 8 0 160.0 ft2 0 0.23 0.8 0
6 N Exterior Frame-Wood System 1 19 2 0 8 0 16.0 ft2 0 0.23 0.8 0
7 N Exterior Frame-Wood System 1 19 15.5 0 8 0 124.0 ft2 0 0.23 0.8 0
8 W Exterior Frame-Wood System 1 19 15 0 8 0 120.0 ft2 0 0.23 0.8 0
9 N Exterior Frame-Wood System 1 19 18.5 0 8 0 148.0 ft2 0 0.23 0.8 0
10 E Exterior Frame-Wood System 1 19 17.5 0 8 0 140.0 ft2 0 0.23 0.8 0
11 E Exterior Frame-Wood System 2 19 18 0 8 0 144.0 ft2 0 0.23 0.8 0
12 S Exterior Frame-Wood System 2 19 11.5 0 8 0 92.0 ft2 0 0.23 0.8 0
13 N Exterior Frame-Wood System 2 19 3 0 8 0 24.0 ft2 0 0.23 0.8 0
14 S Exterior Frame-Wood System 2 19 8 0 16 0 128.0 ft2 0 0.23 0.8 0
15 S Exterior Frame-Wood System 2 19 6.5 0 8 0 52.0 ft2 0 0.23 0.8 0
16 W Exterior Frame-Wood System 2 19 1 0 8 0 8.0 ft2 0 0.23 0.8 0
17 S Exterior Frame-Wood System 2 19 13.5 0 8 0 108.0 ft2 0 0.23 0.8 0
18 W Exterior Frame-Wood System 2 19 20 0 8 0 160.0 ft2 0 0.23 0.8 0
19 N Exterior Frame-Wood System 2 19 2 0 8 0 16.0 ft2 0 0.23 0.8 0
20 W Exterior Frame-Wood System 2 19 8 0 8 0 64.0 ft2 0 0.23 0.8 0
21 N Exterior Frame-Wood System 2 19 5 0 8 0 40.0 ft2 0 0.23 0.8 0
_22 W Exterior Frame-Wood System 2 19 6.5 0 8 0 52.0 ft2 0 0.23 0.8 0
23 N Exterior Frame-Wood System 2 19 4 0 8 0 32.0 ft2 0 0.23 0.8 0
24 N Exterior Frame-Wood System 2 19 8 0 8 0 64.0 ft2 0 0.23 0.8 0
25 N Exterior Frame-Wood System 2 19 17 0 8 0 136.0 ft2 0 0.23 0.8 0
26 E Exterior Frame-Wood System 2 19 17 0 8 0 136.0 ft2 0 0.23 0.8 0
27 E Exterior Frame-Wood System 2 19 33 0 8 0 264.0 ft2 0 0.23 0.8 0
28 S Exterior Frame-Wood System 2 19 28.5 0 8 0 228.0 ft2 0 0.23 0.8 0
29 W Exterior Frame-Wood System 2 19 35 0 8 0 280.0 ft2 0 0.23 0.8 0
30 N Exterior Frame-Wood System 2 19 22 0 8 0 176.0 ft2 0 0.23 0.8 0
DOORS
V # Ornt Door Type Space Storms U-Value Width Height Area
Ft In Ft In
1 E Insulated System 1 None .6 3 8 24 ft2
3/1/2016 3:50 PM EnergyGauge®USA-FlaRes2014 Section R405.4.1 Compliant Software Page 3 of 5
FORM R405-2014
WINDOWS
Orientation shown is the entered,Proposed orientation.
/ Wall Overhang
V # Omt ID Frame Panes NFRC U-Factor SHGC Area Depth Separation Int Shade Screening
2 S 2 Vinyl Low-E Double Yes 0.32 0.3 21.0 ft2 1 ft 0 in 1 ft 0 in None None
3 S 2 Vinyl Low-E Double Yes 0.32 0.3 4.0 ft2 1 ft 0 in 1 ft 0 in None None
4 S 3 Vinyl Low-E Double Yes 0.32 0.3 24.0 ft2 1 ft 0 in 1 ft 0 in None Exterior 5
5 S 4 Vinyl Low-E Double Yes 0.32 0.3 24.0 ft2 1 ft 0 in 1 ft 0 in None None
6 W 5 Vinyl Low-E Double Yes 0.32 0.3 32.0 ft2 1 ft 0 in 1 ft 0 in None None
7 W 5 Vinyl Low-E Double Yes 0.32 0.3 24.0 ft2 0 ft 0 in 0 ft 0 in None Exterior 5
8 N 7 Vinyl Low-E Double Yes 0.32 0.3 30.0 ft2 1 ft 0 in 15 ft 0 in None None
9 W 8 Vinyl Low-E Double Yes 0.32 0.3 32.0 ft2 28 ft 0 in 0 ft 0 in None Exterior 5
10 N 9 Vinyl Low-E Double Yes 0.32 0.3 30.0 ft2 1 ft 0 in 12 ft 0 in None None
11 E 10 Vinyl Low-E Double Yes 0.32 0.3 48.0 ft2 10 ft 0 in 0 ft 0 in None None
12 E 11 Vinyl Low-E Double Yes 0.32 0.3 62.5 ft2 1 ft 0 in 1 ft 0 in None None
13 S 12 Vinyl Low-E Double Yes 0.32 0.3 30.0 ft2 1 ft 0 in 1 ft 0 in None None
14 N 13 Vinyl Low-E Double Yes 0.32 0.3 10.0 ft2 1 ft 0 in 1 ft 0 in None None
15 S 14 Vinyl Low-E Double Yes 0.32 0.3 30.0 ft2 1 ft 0 in 1 ft 0 in None None
16 S 15 Vinyl Low-E Double Yes 0.32 0.3 8.0 ft2 1 ft 0 in 1 ft 0 in None None
17 S 17 Vinyl Low-E Double Yes 0.32 0.3 30.0 ft2 1 ft 0 in 1 ft 0 in None None
18 W 18 Vinyl Low-E Double Yes 0.32 0.3 45.0 ft2 1 ft 0 in 1 ft 0 in None None
19 W 20 Vinyl Low-E Double Yes 0.32 0.3 14.0 ft2 1 ft 0 in 1 ft 0 in None None
20 N 21 Vinyl Low-E Double Yes 0.32 0.3 8.0 ft2 1 ft 0 in 8 ft 0 in None None
21 W 22 Vinyl Low-E Double Yes 0.32 0.3 8.0 ft2 1 ft 0 in 1 ft 0 in None None
22 N 24 Vinyl Low-E Double Yes 0.32 0.3 4.0 ft2 1 ft 0 in 1 ft 0 in None None
23 N 25 Vinyl Low-E Double Yes 0.32 0.3 30.0 ft2 1 ft 0 in 3 ft 0 in None None
24 N 25 Vinyl Low-E Double Yes 0.32 0.3 15.0 ft2 1 ft 0 in 8 ft 0 in None None
25 E 26 Vinyl Low-E Double Yes 0.32 0.3 45.0 ft2 1 ft 0 in 1 ft 0 in None None
26 E 27 Vinyl Low-E Double Yes 0.32 0.3 40.0 ft2 1 ft 0 in 1 ft 0 in None None
27 S 28 Vinyl Low-E Double Yes 0.32 0.3 22.5 ft2 1 ft 0 in 1 ft 0 in None None
INFILTRATION
# Scope Method SLA CFM 50 ELA EqLA ACH ACH 50
1 Wholehouse Proposed ACH(50) .000254 2217.3 121.73 228.93 .2721 5
HEATING SYSTEM
V # System Type Subtype Efficiency Capacity Block Ducts
1 Electric Heat Pump Split HSPF:8.2 22.2 kBtu/hr 1 sys#1
2 Electric Heat Pump Split HSPF:8.2 28.6 kBtu/hr 2 sys#2
3/1/2016 3:50 PM EnergyGauge®USA-FlaRes2014 Section R405.4.1 Compliant Software Page 4 of 5
FORM R405-2014
COOLING SYSTEM
1 # System Type Subtype Efficiency Capacity Air Flow SHR Block Ducts
1 Central Unit Split SEER: 14 22.2 kBtu/hr 666 cfm 0.75 1 sys#1
2 Central Unit Split SEER: 14 28.6 kBtu/hr 858 cfm 0.75 2 sys#2
HOT WATER SYSTEM
V # System Type SubType Location EF Cap _ Use SetPnt Conservation
1 Electric Tankless Exterior 0.95 1 gal 60 gal 120 deg None
SOLAR HOT WATER SYSTEM
V FSEC Collector Storage
Cert # Company Name System Model# Collector Model# Area Volume FEF
None None ftz
DUCTS
/ ---Supply— — Return— Air CFM 25 CFM25 HVAC#
V # Location R-Value Area Location Area Leakage Type Handler TOT OUT QN RLF Heat Cool
1 System 1 6 332.6 ft System 1 83.15 ft Default Leakage System 1 (Default) (Default) 1 1
2 System 2 6 332.6 ft System 2 83.15 ft Default Leakage System 2 (Default) (Default) 2 2
TEMPERATURES
Programable Thermostat:Y Ceiling Fans:
Cooling - ' Jan - Feb : 1 Mar A r Ma X Jun X Jul X Aug X Sep - Oct -Nov - Dec
Heating .20 Jan Xi Feb X Mar Apr May Jun Jul Aug Sep Oct X Nov Dec
Venting , , Jan _Feb X' Mar X Apr € May Jun Jul Aug Sep X Oct X Nov Dec
Thermostat Schedule: HERS 2006 Reference Hours
Schedule Type 1 2 3 4 5 6 7 8 9 10 11 12
Cooling(WD) AM 78 78 78 78 78 78 78 78 80 80 80 80
PM 80 80 78 78 78 78 78 78 78 78 78 78
Cooling(WEH) AM 78 78 78 78 78 78 78 78 78 78 78 78
PM 78 78 78 78 78 78 78 78 78 78 78 78
Heating(WD) AM 66 66 66 66 66 68 68 68 68 68 68 68
PM 68 68 68 68 68 68 68 68 68 68 66 66
Heating (WEH) AM 66 66 66 66 66 68 68 68 68 68 68 68
PM 68 68 68 68 68 68 68 68 68 68 66 66
3/1/2016 3:50 PM EnergyGauge®USA-FlaRes2014 Section R405.4.1 Compliant Software Page 5 of 5
FORM R405-2014
ENERGY PERFORMANCE LEVEL (EPL)
DISPLAY CARD
ESTIMATED ENERGY PERFORMANCE INDEX* = 100
The lower the EnergyPerformance Index, the more efficient the home.
290 Beach Ave, Atlantic Beach, FL, 32233
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 3380.00 ft2
b.N/A R= ft
3. Number of units,if multiple family 1 c.N/A R= ft2
4. Number of Bedrooms 3 d.N/A R= ft2
5. Is this a worst case? No 10.Ceiling Types Insulation Area
a.Roof Deck(Unvented) R=21.0 1319.00 ft2
6. Conditioned floor area(ft2) 3326 b.N/A R= ft2
7. Windows** Description Area c. N/A R= ft2
2
a. U-Factor: DbI,U=0.32 671.00 ft2 11•Ducts R ft
a.Sup:System 1,Ret:System 1,AH:System 1 6 332.6
SHGC: SHGC=0.30 b.Sup: System 2,Ret System 2,AH:System 2 6 332.6
b. U-Factor: N/A ft2
SHGC: 12.Cooling systems kBtu/hr Efficiency
c. U-Factor: N/A ft2 a.Central Unit 22.2 SEER:14.00
SHGC: b.Central Unit 28.6 SEER:14.00
d. U-Factor: N/A ft2
SHGC: 13. Heating systems kBtu/hr Efficiency
a.Electric Heat Pump 22.2 HSPF:8.20
Area Weighted Average Overhang Depth: 2.896 ft.
b.Electric Heat Pump 28.6 HSPF:8.20
Area Weighted Average SHGC: 0.300
8. Floor Types Insulation Area 14.Hot water systems
Cap:1 gallons
a.Slab-On-Grade Edge Insulation R=0.0 1319.00 ft2 a. Electric EF:0.95
b.N/A R= ft2
c.N/A R= ft2 b. Conservation features
None
15.Credits CF, Pstat
I certify that this home has complied with the Florida Energy Efficiency Code for Building .•••�"
0;TKE.srgT...,.*'
Construction through the above energy saving features which will be installed (or exceeded) , o 1.
in this home before final inspection. • herwise, a new EPL Display Card will be completed r'� ;,,° ` '�
based on installed Code compli.�- f'a r 'F- «i` -.it; 5.
Builder Signature: -4'/ C Date: ✓t �� 02
Address of New Home: ,„2 pt dCe/ t City/FL Zip: 3 2 2.33 i1. -'-y,
COD .. _..
*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.
3/1/2016 3:50 PM EnergyGauge®USA-FlaRes2014 -Section R405.4.1 Compliant Software Page 1 of 1
FORM R405-2014
Florida Department of Business and Professional Regulations
Residential Whole Building Performance and Prescriptive Methods
ADDRESS: 290 Beach Ave Permit Number:
Atlantic Beach ,FL,32233
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.
9 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.
3/1/2016 3:51 PM EnergyGauge®USA-FlaRes2014 -Section R405.4.1 Corn Page 1 of 3
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'/z 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
7 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.
7 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.
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.
3/1/2016 3:51 PM EnergyGauge®USA-FlaRes2014 -Section R405.4.1 Com Page 2 of 3
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.
7 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.
7 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.
7 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.
3/1/2016 3:51 PM EnergyGauge®USA-FlaRes2014 -Section R405.4.1 Com Page 3 of 3
VI
Ei t t
0 o o
.0 Ul CO 0 CA-4 in CA E 07...1 01 07 El CO V 0
. 0
m ,3 .
43 CD is,CO ha 41 co h,co is,ca on F.to fu --a t
-4 0 SV--.0 ha 10_1,3-0 N 0,'N---..0 NI 0 Da Ca M 03 0 m CD 41.,.• 0-
cc N IS CO 0 ha hl N Ca Ca 1.0 na N3 1.1 C.a
0 10 -4 cn Oa co co-.4 0 -4 v CO 0 ca
-4 -4 in 1:0 -4 in go iv 0 in b up in ip io
3
4
gg gg Ft 2.-- Eg ti Pg 8 ii 2 Eg gg -,
W CO Co
g e la
E
in CD Ca 0 0-4 CO CD-4 0 0-4 0 .p. 0
tn co
n3 na ha n7 N31.1 ha ba na IV
s g g g 6 ia b C3 ka ap cc). 4)4,43 43 lf,
1 1 1 i
h3 -4-4 -4-4 CD-4-4-4-4 V be io io ip■4■4 V V,.4 V V V
-4 -4-4 010 0 10 0 CD-4 v 4 01 •0
Pa na n7 Ca Ca ta Pa na Ca 4,MY PO Iv Iv ca
--4 C.0 0 Ca V -4 V CI 0 CA 03 V tO na -1 IV IV N iv-4 IV IV 11.1-4-4 Al ro .
0 ia-m Ea in 4.in 43-is,go V ha 0 0 0 0
pp na 0 0 0 4.0 0 4 o
.7 I
CO ro Cri ,C)ta Co Iv-4 0 0 0 4.ny na V ES ES 2 it ES g iS El 2 Eg'St ig g ii
it EL
ru h3 ha na-4 ha 0.1 K2 10-4 K1 IV....ru mm C/1 CDg g ru C g
-4 CO N 43 07 -4 -4-4 K3-4 CD 43 10 Ca Oa II 44 0 0-4 Ca CO CD 01 43 CO(A CD.3 r ill'
0 6 ta ia Eu 4,.ia En in 4)6 in in.-.4 L4 0 5.13 i„,U3 V 43 10 iD V ha ha go in in z
co n3 4. -4 co co -4 ha co cD on in 43 n3 0 Z. 0 Ca co cn-4 Oa 0 0 Co 0 0 co 10 44
03
ha h3 N3 PO ha ma K3 Ka K7 ha re h.,!..ha na 31.4 ha ha na pa 0 NI ' ii g
ha ha is,ha ha ha ha im,ha k, ' - ". at a
Ca Ca Ca Ca Ca Co V-4 V.4 -',.., •a;a; 6 b b,gp go io 4)43 4,4)a2 40 2.! g
K1 h3-4 Do 43 0 CD CD Co 03-4 0 ,0_ .
0
-2 Z
"•
0 4 1 n
0 "Ti 1
e, n, i
na 110 14 N 43 ha 10 Ka N CO ra IV IV 0 ra . .4 -- --K7 ra-4 -4 IQ b3-4--.10 h2 .4 Ill 'y
CD CO C. CO-a CD CO cn co m. Us(n Ur V cs a 0 0 02 CD-4 Ca 01 to 0 ha CM CO 0 IV c) fa 0
41 i0 in in ko ia 6 im in in Ea 4..43 43 io . .. 0 V in in-m mm ha■4 bo 4.43 im im . a; o
- 11
0 0
!z2 0
0 a 0 0
- 0
I M
4
V/
c 1 2
2g 2g 1-2,2g 74 2g 2g!'2!I:1 2Z 2g;I;2g Z: 2- r al g
in m Z
co CA 74 C 4 CO UN ce na CD 44 Us NI = 17 E. Us m 1 '
go gp V ■4 V La gp ho La b 47 ha-4 -4 ; ?,, w TS : V in to:11 m.in N 0,4.i.i,,.....; ?., .. b; 3; 8
z
-4 co 0
Pa 113 IV PO ha ha Pa Is)03 10 PO IV Pa fa.2 T. ,CmT-4 m na iv 1,3 h3 n3 n3 na to n3 tO pa pa ,,.
1 ..<
tg Eg P.Eg Eg tg Eg 12 2 2 tg 2 2 :g i; z
cD a,a,CD 07 to 0 in.cm 4.---..-. 0 0 Li o a z
-o CI .
0 35 to
r- 55
-1 -4
Pa ns ha ru NI ha 10 N3 ha IV NI ha n3 PO A3 -O .4 1T1 -- ---4 N3-4 --4-4 N-4-4-4 IV 5 A 10
CT 0 us V co CD Ul 44 cD 03 Ca J.D.Oa 0 13. fa 0 C CO 03 CO-4 Co 0 0-4-4 V OD-4 cl o C)
be 4mmin iu -.in in in be iu h) . a, re C
in in :-. 1.. 43 o'mi.43 Co L4 6 b 0 0 1m 0 a 0
h.,in na J. cn ua is)4m in CD 03-4 CD aa in 9, - 12 -0
m m r 0.e.Ca-4 CD 0 0 0 CD 0 CO .9., - Na
rn
0 il 32 w 8 33
47
-4 .,
.:7f 30
= C "L C 6 m -• c
cc 31
03 03 us m
CD 03 01 IV 07(37 cn ha 74 0 44:4 .3 E CO
in▪ in b 0 io--Ea ia En i:o.....in in in 0 = aa • ha to 40 to v-•10 0.0 U.CO l. ...
0 11 4, I'l
•-3 .",i
0 0
0 W
IV Pa n3 ha h) h2 le N3 na na m pa ha 03!.., p 64 IV n3 hl ha na na ha pa 10.7 na ha X--4
0 4.C.I 43 0 :ii G in 0 in in tn in 4. 4.:h. k Il li if,.
,, N-.00001000 Da rie
9-
ha na g IV 10 N ha 11.1.3 Pa K7 N3 na n3 pp -4
° -
0. -.-a pj-.....■A„........o.... _4
-4 -4 Co 0 V-4 CD 0 co ce co Fa 0
1.J. 0 V ta 43 CJ Cn-4 ha n3 na 4.7. 2 Co ha in im to 6 La h.,44 L4 Ca IQ o al
co cn cn 4. CO 4. -4 co co-. 0-4 IV CD 00 - 1 03 Ca CD 113 N IV In-4--4 CD CD 42 - 1
a Et
. .7 •Z
c ...
c ...
40 R Ca 4
03 m
m_- _. to 07 co
ft) IV N3-4 K1 n3-a Pa-.4 p4 e -. V in 07 ha-.4 4.•CO-.CO .7- e c
c,--co c.Ca CO 0 0 ts,ru-4 Oa 4.
En Co
L.-.cp ta 4a. ■i■4 op in 43 iD 0 43 , r, 41.
n3 VI 07 la 14-4-4 40-4 0 0 0 44.
Ca Uf 03 (71 0 la V Ca-4-4 0 -4 03 ra-4 40 t: 14
W
. 0
CA C..GY 0 41 Ca Ca Ca Ca Ca hl ha Ila IN. i 0 ro h)pa n3 ha ha h,ha ma ha ha n3 I 51
V:4
sEnel:?!iggi.z4).-Gs to Op :g F-
43
3 - 3
(
S.-
:7c)
PO pa ha ha ha ha CD 0-4 as 0 0-4 co 0 01 03 93 i 0
TT ui gg(2g.2 2!!!Is2 Isi gg V,
,..,ho --•Co.1J1 O.) . . i.,,i. i 2 '''' 2R(0- ES 2 2 .:.=2 2 ig 2 ER a
Co a.in im be na 0 in ha-4 ha _ .\,. ... -0 8
0 c.,a, -.,u, a,CO 14 v -4 -4 0 8 _.
=:
CD R m co. R to
-
Er 0▪ Cy3 4.4 0 01 03
c.) CO 50 5.3 5.a 5J co 9)co 5.)so co iils st
co CO 6..)43 CA 43 La Ca Ca(a 43 Ca Ca 5.,pa ts
.
I La 0 Ea 0 c3 cp 0 0 Ea ia ia La ia ca ca ir i
c.CO CD CD co 01 C.01 01 V OD ha ha h1 ca •3 03 CO CD V 07 -4 CO CA J.0 4.Ca :ir s
3
- - -
. 9I
_,D 9.N,700 N -• Cr) 111
m m xm Q J
cn
D H
D f a3 g m a
. ii.(IC g
O Pgg
l
m O 8 im ^N J N V NmV N J a m p ^ N N 1 z E T c if o . N N N N 9 C, 3,O 71m p p O Om J W N 0 m c' aw ; v m�rt =y4 =�� v /l_ � �
w q w
m 5,a 3 O
a amCmm al
O
Q' 8�8o8WA888Ne3reeT , n C"
Fn- „,1,.g. 9.1 .N Op O)A1D V O)mN V A s
g-T 00 0 5 a 9 W V V V m -•V IO O 0)V 1
0 O ti �0 9 C V
a x NNAO0m CA y pp N
o 10 N N m O50 500DF.5..P.F, Bet
n
JJ G N O V A 4 J A V 0 N 4Tm ,t m 9 K n m
be_
8. » S 0 n
a 0 o a3.5 4 0"0505 50WGlmmWwWf(Jlp 3.5g
3 v.m
qq �
d g m m m
O ° gog� U1
m m. . ;r N N N N co N N CNJ V N 0+1 N.OND W o A '
pm� O0' co co X01 V y o 0) s /4
g N �'O 3 W(till 8 T88J Nro�23A V wf0 — 9 \1
`wG 2 <A< :i S Q 4 m O
g e m n• O1 N A A N N A p N N N A A(J N m O1I
v y g--0_41a Pp�V ty0 pNp 53 p?ppp OD tmt90 O N N GD N 7 2 �y7
3. 'O w m W N OD A 9.N at 88 N OD A N N-+ i�!! v 11
m � 8
D2Q 1�
•o = m ►+J
ttu�-N ap p co CO p�
a = W5 v v V f0 N co O-•N cn co A t co co N , .. t
0 ? a—� z 3
m. w A. D
J N,p O
F O-p*O O1 O1 N N Ol A N N NN A A A O1 NO _4
p
h
.D.V1 1'��O CA 0 fl tt{p0p pOp O AAA fy0 CO �O N CO Q q m
m 0)CO V N f0 OD A W 01 V CO 10 CO N O G 1
8 $ 0 C z
co 0
-a 71 41 NN A yy 1v A N 4.4.(o AN yy A 1v m tp 0
. w 'rim m W V m O co N cn OD O O N A j 7 'e7 ;
a--P3 A 01-. W o O W Ja,-1-.Co 10 W O = m
ma OD-t^ op -�W V m OD-V A t V Ol N N
V O 03 "5 73
p, m
a m yO X 2
Q 2.. A A A A A A A A A A A A A A A 0 O M
5'2. [J b f0 A•A W W to La to N N N N 4) z .._
10 ;I:'61 1O f0 CD W NNNA V NNN V O Z
w O N T1
j 5. A AANN A A A A A010 r -1 111
a (O m m co V V V CD CO 0)V O
3
79,-.B —A m0)J0CDA W pi.-•JO) a 10 0) m�m A O CO CO N-+ 0
O a O a
Ay
O m
m . ..1
D,a m m A p0�p 0)V V 1 N�A A Ca yA p)m w�+N a g 0 CO E {-a N cr
vi N V 0)0)(J O)A O 10 N$0)N 0)co A a p .
N c
o w 0 C)
0 T to-I
w N 13#.1 AAA AOOApp pAp AA A AAA A
O V 13 V V 0 0 0 N N 4tl(t0 A Cg m li•N n
O
C
a
o
CO y A y y
0)m N 03 W CA��N/l A OD N.(Ail fJ A J N Q
O_
0 m J N v 0 0)N(Cl 0) A-.N CO CO s
to 4
N W p yy yy A AA N O N(iN W W
O 23 21 N
j y Nm CO v A 0g N m+11 p A T•
1p O)(W $
w
O r
0
5 to
Ow cn yNy yNy 0y)N N N N N CA pNp N pN N(0)
m ttgtV8O8mAm2fONA .1E
O,
3
w
O && y N N A A W-'t y
t a-4 o
C OA
08T8 8 m ANA V Ai-4.88 a E t
PO
N Ca m•(Ail W N 10 CO -,-.-•W CO p 0�p a
gaS V CIt AO V[N71A m m A0
W
0)0p)l co 0))co 0)0))m CA 0)U)I(C)f)Np Np
88 V 8N N S C HOJAAA88 i E
FILE COPY
Pitler 290 Beach Ave
HVAC Load Calculations
for
Bosco Builders
IMIL31 14WIN
RHVACRESIDENTIAL
HVAC LOADS
ECEOVE
1-111?
MAR 142016
Prepared By:
Tonya McDuffie
Home Energy Services
2060 Davis Rd.
Jacksonville, FL 32218
904 757-3569
Monday, March 14, 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 r., Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Av
Jacksonville,FL 32218 I Pat I
Project Report i
IMIIIIIIIID Information
Project Title: Pitler 290 Beach Ave
Designed By: Tonya McDuffie
Project Date: Thursday, July 30, 2015
Client Name: Bosco Builders
Company Name: Home Energy Services
Company Representative: Tonya McDuffie
Company Address: 2060 Davis Rd.
Company City: Jacksonville, FL 32218
Company Phone: 904 757-3569
Company E-Mail Address: ecalcs @hesjax.com
i Company Website: www.hesjax.com
Company Comment:
i
Design Data
■
Reference City: Jacksonville AP, Florida
Building Orientation: Front door faces East
Daily Temperature Range: Medium
i 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: 95 77 45% 50% 75 46
heck Figures
Total Building Supply CFM: 1,568 CFM Per Square ft.: 0.472
Square ft. of Room Area: 3,325 Square ft. Per Ton: 1,009
Volume (ft3)of Cond. Space: 32,688
Building Loads ;
Total Heating Required Including Ventilation Air: 37,728 Btuh 37.728 MBH
Total Sensible Gain: 34,458 Btuh 87 %
Total Latent Gain: 5,096 Btuh 13 %
Total Cooling Required Including Ventilation Air: 39,554 Btuh 3.30 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:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville, FL 32218 Page 3
Miscellaneous Report
ystem 1 System 1 Outdoor Outdoor Outdoor Indoor Indoor Grains
put Data Dry Bulb Wet Bulb ReLHum Rel.Hum Dry B ulb _ Difference,
Winter: 32 29.92 80% n/a 70 n/a
Summer: 95 77 45% 50% 75 46.43
ystem 2 System 2 Outdoor Outdoor Outdoor Indoor Indoor Grains
iput Data Dry Bulb Wet Bulb Rel.Hum ReLHum Dry Bulb Difference
Winter: 32 29.92 80% n/a 70 n/a
Summer: 95 77 45% 50% 75 46.43
Duct Sizing Inputs
Main Trunk Runouts
Calculate: Yes Yes
Use Schedule: Yes Yes
Roughness Factor: 0.01000 0.01000
Pressure Drop: 0.1000 in.wg./100 ft. 0.1000 in.wg./100 ft.
Minimum Velocity: 550 ft./min 450 ft./min
Maximum Velocity: 600 ft./min 750 ft./min
Minimum Height: 0 in. 0 in.
Maximum Height: 0 in. 0 in.
Outside Air Data
Winter Summer
Infiltration Specified: 0.250 AC/hr 0.250 AC/hr
136 CFM 136 CFM
Infiltration Actual: 0.250 AC/hr 0.250 AC/hr
Above Grade Volume: X 32,688 Cu.ft. X 32,688 Cu.ft.
8,172 Cu.ft./hr 8,172 Cu.ft./hr
X 0.0167 X 0.0167
Total Building Infiltration: 136 CFM 136 CFM
Total Building Ventilation: 0 CFM 0 CFM
---System 1---
Infiltration &Ventilation Sensible Gain Multiplier: 21.98 = (1.10 X 0.999 X 20.00 Summer Temp. Difference)
Infiltration &Ventilation Latent Gain Multiplier: 31.54 = (0.68 X 0.999 X 46.43 Grains Difference)
Infiltration &Ventilation Sensible Loss Multiplier: 41.76 = (1.10 X 0.999 X 38.00 Winter Temp. Difference)
Winter Infiltration Specified: 0.250 AC/hr(53 CFM)
Summer Infiltration Specified: 0.250 AC/hr(53 CFM)
---System 2---
Infiltration &Ventilation Sensible Gain Multiplier: 21.98 = (1.10 X 0.999 X 20.00 Summer Temp. Difference)
Infiltration &Ventilation Latent Gain Multiplier: 31.54 = (0.68 X 0.999 X 46.43 Grains Difference)
II Infiltration &Ventilation Sensible Loss Multiplier: 41.76 = (1.10 X 0.999 X 38.00 Winter Temp. Difference)
Winter Infiltration Specified: 0.250 AC/hr (84 CFM)
Summer Infiltration Specified: 0.250 AC/hr(84 CFM)
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 '1 Page 4 II
Load Preview Report
Net ft.° Sen Lat Net Sen Sys. Sys Act! Duct
Scope Ton /Ton Area Gain Gain Gain Loss CFM� CFM' CFM1 Size
Building 3.30 1,009 3,325 34,458 5,096 39,554 37,728 763 1,568 1,568
System 1 1.38 954 1,319 14,138 2,460 16,598 17,446 353 643 643 14
Zone 1 1,319 14,138 2,460 16,598 17,446 353 643 643
1-Foyer 279 2266 407 2,673 4,260 86 103 103 7
2-Bath 54 159 0 159 0 0 7 7 4
3-Kitchen/Pantry 384 6226 717 6,943 5,492 111 283 283 7
4-Dining 233 1568 335 2,003 3,571 72 76 76 7
5-Living 370 3,819 1,001 4,820 4,123 83 174 174 6,6
i System 2 1.91 1,048 2,006 20,320 2,636 22,956 20,282 410 925 925 14
Zone 1-01g.:72%, Htg.:65% 1,334 15,646 1,502 17,148 13,253 268 712 712
6-Bedroom/Study 234 3,597 311 3,908 4,186 85 164 164 8
7-Hall And Stair Area 120 884 153 1,037 820 17 40 40 5
8-Bath 2nd Story 105 376 72 448 527 11 17 17 4
9-Bedroom 1 280 4,552 340 4,892 2,932 59 207 207 8
10-Master Bath 114 1,852 124 1,976 1,066 22 84 84 5
11-Master Toilette 39 807 100 907 569 12 37 37 4
12-Walk In Closet 1 56 150 0 150 0 0 7 7 4
13-Walk In Closet 2 63 254 77 331 425 9 12 12 4
14-Master Bedroom And Hall 323 3,174 325 3,499 2,728 55 144 144 8
Zone 2-Clg.:28%, Htg.:35% 672 6,101 1,134 7,235 7,029 142 278 278
15-3rd Floor 672 6,101 1,134 7235 7,029 142 278 278 7,7,5
I Sum of room airflows may be greater than system airflow because
system has multiple zones.
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads
G Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 Page 5
i _
Duct Size Preview
1 Room or source 1 Minimum Maximum Rough.1 Design SPs Duct Duct Ht Clg Act. Duct
Duct Name Velocity Velocity Factor. L/100 Loss) Velocity) Length, Flow Flow Flow Size
1
Supply Runouts
Zone 1
1-Foyer(SR-280) TMDD 0 0 0.01 0.08 0.00077 385.4 1 86 103 103 7
2-Bath (SR-140) TMDD 0 0 0.01 0.08 0.00033 80.2 4 0 sk. 7 7 4
3-Kitchen/Pantry(SR-130) TMDD 0 0 0.01 0.08 0.06805 1058.9 12 111 E83 283 7
4-Dining (SR-120) TMDD 0 0 0.01 0.08 0.00424 284.4 10 721176 76 7
5-Living(SR-100,SR-110) TMDD 0 0 0.01 0.08 0.00751 443.1 6 83 174 174 6
0 0 0.01 0.08 0.00751 443.1 6 6
Other Ducts in System 1
Supply Main Trunk(ST-100) TMDD 0 0 0.0003 0.08 0.00479 601.5 12 353 643 643 14
RT-100 TMDD 0 0 0.01 0.08 0.00072 561.2 1 643 643 643 11x15
RR-100 TMDD 0 0 0.01 0.08 0.00073 601.5 1 643 643 643 14
System 2
Supply Runouts
Zone 1
6-Bedroom/Study(SR-150) TMDD 0 0 0.01 0.08 0.00662 469.8 7 85 164 164 8
7-Hall And Stair Area(SR-210) TMDD 0 0 0.01 0.08 0.00287 293.4 4 17 40 40 5
8-Bath 2nd Story(SR-230) TMDD 0 0 0.01 0.08 0.00532 194.8 12 11 lik.17 17 4
9-Bedroom 1 (SR-220) TMDD 0 0 0.01 0.08 0.01198 593 8 59.07 207 8
10-Master Bath(SR-190) TMDD 0 0 0.01 0.08 0.01236 616.1 4 22 Ilk 84 5
11-Master Toilette(SR-200) TMDD 0 0 0.01 0.08 0.02023 424 10 12 IN 37 4
12-Walk In Closet 1 (SR-170) TMDD 0 0 0.01 0.08 0.00033 80.2 4 0 Illr7 7 4
13-Walk In Closet2(SR-180) TMDD 0 0 0.01 0.08 0.00215 137.5 9.5 9 1112 12 4
14-Master Bedroom And Hall TMDD 0 0 0.01 0.08 0.00073 412.5 1 55 44 144 8
(SR-160)
Zone 2
15 3rd Floor(SR-250, SR-260, 0 0 0.01 0.08 0.00063 348 1 7
TMDD 0 0 0.01 0.08 0.00063 348 1 142 278 278 7
SR-270) 0 0 0.01 0.08 0.00378 682.1 1 5
Other Ducts in System 2
Supply Main Trunk(ST-110) TMDD 0 0 0.01 0.08 0.02682 865.3 18 411 925 925 14
ST-120 TMDD 0 0 0.01 0.08 0.00661 511.5 8 141 279 279 10
RT-110 TMDD 0 0 0.01 0.08 0.00074 662.5 1 925 925 925 16
RR-110 TMDD 0 0 0.01 0.08 0.00074 662.5 1 925 925 925 16
Summary
System 1
Heating Flow: 353 Design Friction Rate: 0.286 TEL Return: 2
Cooling Flow: 643 Total Cumulative SP Loss: 0.074 TEL Supply: 24
Fan ESP: 0.074 Device SP Loss: 0 TEL Total: 26
Fan SP Available: 0.074 Return Loss Added to Supply: 0.001
System 2
Heating Flow: 410 Design Friction Rate: 0.162 TEL Return: 2
Cooling Flow: 925 Total Cumulative SP Loss: 0.049 TEL Supply: 28
Fan ESP: 0.049 Device SP Loss: 0 TEL Total: 30
Fan SP Available: 0.049 Return Loss Added to Supply: 0.001
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads r, Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 i Page 6
Tabular Manual D Ductsize Grid - System 1
Ducts Room Zones Flow Diam Vel
System 1 -System 1' i L.
O E>Supply i !
8 ST-100 1 1 643 '14 602
,SR-100 Living 1 87 6 443
.SR-110 Living 1 87 6 443
SR-120 Dining 1 76 7 284 '
*SR-130 Kitchen/Pantry 1 283 17 1059 I
SR-140 Bath 1 7 4 80
SR-280 Foyer 1 103 7 385
El Return
E RT-100 1 i 643 14 561
RR-100 643 '14 602
i
4
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville, FL 32218 Page 7
Tabular Manual D Ductsize Grid - System 2
Ducts Room Feeds Flow Diam Vel
Zones
System 2-System 2
0 a>Sup ply
El t ST-110 1,2 925 14 865
SR-150 Bedroom/Study 1 164 8 470
.SR-160 Master Bedroom And Hal 1 144 8 412
*SR-170 Walk In Closet 1 1 7 4 80
SR-180 Walk In Closet 2 1 12 4 1381
SR-190 Master Bath 1 84 5 6161
SR-200 Master ToilettE 1 37 4 424
SR-210 Hall And Stair AreE 1 40 5 293
SR-220 Bedroom 1 1 207 8 593
;.SR-230 Bath 2nd Story 1 17 4 195
0 51 ST-120 2 279 10 512
SR-250 3rd Floor 2 93 7 348
SR-260 3rd Floor 2 93 7 348
SR-270 3rd Floor 2 93 5 682
D Return
0 RT-11C 925 16 662
*RR-110 925 16 662
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services f Paler 290 Beach Ave
Jacksonville,FL 32218 G.
Page 8
LTotal Building Summary Loads
omponent Area Sen La Sen i otai
scrjtion _ Quan Loss Gain Gain Gann
4A-6-o: Glazing-Double pane low-e(e=0.20 or less), 585 7,106 0 13,289 13,289
high performance, operable window, e=0.05 on
surface 2, any frame, u-value 0.32, SHGC 0.3
4A-2a-d: Glazing-Double pane low-e (e = 0.20 or less), 80 1,430 0 2,299 2,299
sliding glass door, e=0.20 on surface 3, wood with
metal clad frame, outdoor insect screen with 50%
coverage, u-value 0.47, SHGC 0.52
10D-f: Glazing-French door, double pane low-e glass (e = 48 766 0 722 722
0.10), insulated fiberglass frame, u-value 0.42,
SHGC 0.32
11J: Door-Metal- Fiberglass Core 20.1 458 0 374 374
12E-Osw: Wall-Frame, R-19 insulation in 2 x 6 stud 2678.9 6,924 0 4,079 4,079
cavity, no board insulation, siding finish, wood studs
18A1-21o: Roof/Ceiling-Roof Joists Between Roof Deck 1554 2,776 0 2,264 2,264
and Ceiling or Foam Encapsulated Roof Joists,
Spray Foam Insulation, Dark or Bold-Color Asphalt
Shingle, Dark Metal, Dark Membrane, Dark 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 185 9,546 0 0 0
insulation below floor, any floor cover, passive, heavy
moist soil
20P-19-c: Floor-Over open crawl space or garage, 1595.5 3,033 0 1,197 1,197
Passive, R-19 blanket insulation, carpet covering
Subtotals for structure: 32,039 0 24,224 24,224
People: 4 800 920 1,720
Equipment: 0 5,500 5,500
Lighting: 0 0 0
Ductwork: 0 0 0 0
Infiltration: Winter CFM: 136, Summer CFM: 136 5,689 4,296 2,995 7,291
Ventilation: Winter CFM: 0, Summer CFM: 0 0 0 0 0
AED Excursion: 0 0 819 819
Total Building Load Totals: 37,728 5,096 34,458 39,554
Check Figures
Total Building Supply CFM: 1,568 CFM Per Square ft.: 0.472
Square ft. of Room Area: 3,325 Square ft. Per Ton: 1,009
Volume(ft3)of Cond. Space: 32,688
3uilding Loads
Total Heating Required Including Ventilation Air: 37,728 Btuh 37.728 MBH
Total Sensible Gain: 34,458 Btuh 87
Total Latent Gain: 5,096 Btuh 13
Total Cooling Required Including Ventilation Air: 39,554 Btuh 3.30 Tons(Based On Sensible + Latent)
Notes Miliiiiiiii
Rhvac is an ACCA approved Manual J and Manual D computer program.
j Calculations are performed per ACCA Manual J 8th Edition, Version 2, and ACCA Manual D.
j 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:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services } Pitler 290 Beach Ave
Jacksonville,FL 32218 Page 9
Building Pie Chart
Infiltration 15%
Floor 33% Door 1%
Building
Loss
37,728
Btuh Glass 25%
Roof 7%
Wall 18%
Roof 6%FI or 3% AED Excursion 2%
Infiltration 18%
Wall 10%
Building
Gain
39,554 Equipment 14%
Btuh
People 4%
Glass 41% Door 1
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 Page 10
Equipment Data - System 1 - System 1
Cooling
System Type: Air Source Heat Pump
Outdoor Model: 214DNA024****A
Indoor Model: FB4CNP030L
Tradename: BRYANT HEATING AND COOLING SYSTEMS
Outdoor Manufacturer: BRYANT HEATING AND COOLING SYSTEMS
Description: Air Source Heat Pump
AHRI Reference No.: 7706143
Nominal Capacity: 22200
Adjusted Capacity: 16672
Adjusted Sensible Capacity: 13576
Adjusted Latent Capacity: 3096
Efficiency: 14 SEER
Heating
System Type: Air Source Heat Pump
Model: 214DNA024****A
Tradename: BRYANT HEATING AND COOLING SYSTEMS
Manufacturer: BRYANT HEATING AND COOLING SYSTEMS
Description: Air Source Heat Pump
Capacity: 22200
Efficiency: 8.2 HSPF
This system's equipment was selected in accordance with ACCA Manual S.
Manual S equipment sizing data: SODB: 95F, SOWB: 77F, WODB: 32F, SIDB: 75F, SIRH: 50%, WIDB: 70F, Sen. gain:
14,138 Btuh, Lat. gain: 2,460 Btuh, Sen. loss: 17,446 Btuh, Entering clg. coil DB: 75F, Entering clg. coil WB: 62.5F,
Entering htg. coil DB: 70F, CIg. coil TD: 20F, Htg. coil TD: 45F, Req. clg. airflow: 643 CFM, Req. htg. airflow: 353 CFM
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 Page 11
Equipment Data - System 2 - System 2
Cooling
System Type: Air Source Heat Pump
Outdoor Model: 214DNA030****A
Indoor Model: FB4CNP030L
Tradename: BRYANT HEATING AND COOLING SYSTEMS
Outdoor Manufacturer: BRYANT HEATING AND COOLING SYSTEMS
Description: Air Source Heat Pump
AHRI Reference No.: 7839724
Nominal Capacity: 28600
Adjusted Capacity: 22452
Adjusted Sensible Capacity: 19457
Adjusted Latent Capacity: 2995
Efficiency: 14 SEER
Heating
System Type: Air Source Heat Pump
Model: 214DNA030****A
Tradename: BRYANT HEATING AND COOLING SYSTEMS
Manufacturer: BRYANT HEATING AND COOLING SYSTEMS
Description: Air Source Heat Pump
Capacity: 28600
Efficiency: 8.2 HSPF
This system's equipment was selected in accordance with ACCA Manual S.
Manual S equipment sizing data: SODB: 95F, SOWB: 77F, WODB: 32F, SIDB: 75F, SIRH: 50%, WIDB: 70F, Sen. gain:
20,320 Btuh, Lat. gain: 2,636 Btuh, Sen. loss: 20,282 Btuh, Entering clg. coil DB: 75F, Entering clg. coil WB: 62.5F,
Entering htg. coil DB: 70F, Clg. coil TD: 20F, Htg. coil TD: 45F, Req. clg. airflow: 925 CFM, Req. htg. airflow: 410 CFM
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 it Page 12
1 f Manual S Performance Data - System 1 - System 1
,.Cooling Loads and Design Conditions
Outdoor Dry Bulb: 95 Sensible Gain: 14,138
Outdoor Wet Bulb: 77 Latent Gain: 2,460
Indoor Dry Bulb: 75 Total Gain: 16,598
Indoor RH: 50 Load SHR: 0.85
Elevation: 26 Supply Airflow: 643
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: 214DNA024****A+FB4CNP030L, Nominal Capacity: 22,200
Entered Interpolation Data:
EDB
Total Power 75°F
WB Air Flow ODB Capacity Input i
°F CFM °F MBtuh kW Sensible
SIT Capacity
1 MBtuh
85 19.2 1.98 1 19.2
700
57 105 17.6 2.49 1 17.6
800 85 19.98 2 1 19.98
105 18.27 2.5 1 18.27
85 21.49 1.97 0.73 15.68
700
Ill 180555 19.29 2.48 0.766 14.78
21.88 1.99 0.765 16.74
800 10 19.6 2.49 0.807 15.82
Other Adjustments:
Elevation Derating: 1, Miscellaneous: 1, Direct Capacity Adjustment: -2.922
Interpolation Results:
Percent
Load of Load
Sensible Capacity: 13,576 14,138 96%
Latent Capacity: 3,096 2,460 126%
Total Capacity: 16,672 16,598 100%
Power Input: 2.23
This system's equipment was selected in accordance with ACCA Manual S.
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 Page 13
Manual S Performance Data - System 2 - System 2
Cooling Loads and Design Conditions
Outdoor Dry Bulb: 95 Sensible Gain: 20,320
I Outdoor Wet Bulb: 77 Latent Gain: 2,636
Indoor Dry Bulb: 75 Total Gain: 22,956
Indoor RH: 50 Load SHR: 0.89
Elevation: 26 Supply Airflow: 925
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: 214DNA030***"A+FB4CNP030L, Nominal Capacity: 28,600
Entered Interpolation Data:
EDB
WB Air Flow ODB
Total Power 75°F
°F CFM °F Capacity h Input Sensible
Srr Capacity
MBtuh
875 85 26.74 2.17 0.918 24.55
62 105 24.07 2.67 0.963 23.17
85 27.62 2.21 0.991 27.37
1050
105 25.12 2.71 1 25.12
85 29.42 2.17 0.704 20.72
875
105 28.39 2.67 0.687 19.5
67
85 30.15 2.21 0.749 22.59
1050 105 26.95 2.71 0.791 21.32
Other Adjustments:
Elevation Derating: 1, Miscellaneous: 1, Direct Capacity Adjustment: -3.653
Interpolation Results:
Percent
Load of Load
Sensible Capacity: 19,457 20,320 96%
Latent Capacity: 2,995 2,636 114%
Total Capacity: 22,452 22,956 98%
Power Input: 2.42
This system's equipment was selected in accordance with ACCA Manual S.
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 Page 14
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 279 4,260 86 7 - 2,266 407 103 103
2 Bath 54 0 0 4 - 159 0 7 7
3 Kitchen/Pantry 384 5,492 111 7 - 6,226 717 283 283
4 Dining 233 3,571 72 7 - 1,668 335 76 76
5 Living 370 4,123 83 6,6 - 3,819 1,001 174 174
System 1 total 1,319 17,446 353 14,138 2,460 643 643
System 1 Main Trunk Size: 14 in.
j Velocity: 602 ft./min
i Loss per 100 ft.: 0.040 in.wg
Duct size results above are from Manual D Ductsize.
Runout duct velocities are not printed with duct size results from Manual D Ductsize since they can vary within the room.
See the Manual D Ductsize report for duct velocities and other data.
Cooling System Summary
Cooling Sensible/Latent Sensible Latent Total
Tons Split Btuh Btuh Btuh
Net Required: 1.38 85% / 15% 14,138 2,460 16,598
Actual: 1.85 75%/25% 16,650 5,550 22,200
Equipment Data
Heating System Cooling System
Type: Air Source Heat Pump Air Source Heat Pump
Model: 214DNA024****A 214DNA024****A
Indoor Model: FB4CNP030L
Brand: BRYANT HEATING AND COOLING BRYANT HEATING AND COOLING
SYSTEMS SYSTEMS
Description: Air Source Heat Pump Air Source Heat Pump
Efficiency: 8.2 HSPF 14 SEER
Sound: 0 0
Capacity: 22,200 Btuh 22,200 Btuh
Adjusted Capacity: n/a 16,672 Btuh
Sensible Capacity: n/a 16,650 Btuh
Adjusted Sensible Capacity: n/a 13,576 Btuh
Latent Capacity: n/a 5,550 Btuh
Adjusted Latent Capacity: n/a 3,096 Btuh
AHRI Reference No.: n/a 7706143
This system's equipment was selected in accordance with ACCA Manual S.
i Manual S equipment sizing data: SODB: 95F, SOWB: 77F, WODB: 32F, SIDB: 75F, SIRH: 50%, WIDB: 70F, Sen. gain:
14,138 Btuh, Lat. gain: 2,460 Btuh, Sen. loss: 17,446 Btuh, Entering clg. coil DB: 75F, Entering clg. coil WB: 62.5F,
Entering htg. coil DB: 70F, Clg. coil TD: 20F, Htg. coil TD: 45F, Req. clg. airflow: 643 CFM, Req. htg. airflow: 353 CFM
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
It
!Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 Page 15
System 2 Room Load Summary
Htg Min Run Run Clg Gig 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---
6 Bedroom/Study 234 4,186 85 8 - 3,597 311 164 164
7 Hall And Stair Area 120 820 17 5 - 884 153 40 40
8 Bath 2nd Story 105 527 11 4 - 376 72 17 17
9 Bedroom 1 280 2,932 59 8 - 4,552 340 207 207
10 Master Bath 114 1,066 22 5 - 1,852 124 84 84
11 Master Toilette 39 569 12 4 - 807 100 37 37
12 Walk In Closet 1 56 0 0 4 - 150 0 7 7
13 Walk In Closet 2 63 425 9 4 - 254 77 12 12
14 Master Bedroom 323 2,728 55 8 - 3,174 325 144 144
And Hall
Zone 1 subtotal 1,334 13,253 268 15,646 1,502 712 712
I ---Zone 2---
15 3rd Floor 672 7,029 142 7,7,5 6,101 1,134 278 278
Zone 2 subtotal 672 7,029 142 6,101 1,134 278 278
System 2 total 2,006 20,282 410 20,320 2,636 925 925
System 2 Main Trunk Size: 14 in.
Velocity: 865 ft./min
Loss per 100 ft.: 0.149 in.wg
Duct size results above are from Manual D Ductsize.
Runout duct velocities are not printed with duct size results from Manual D Ductsize since they can vary within the room.
{ See the Manual D Ductsize report for duct velocities and other data.
Note: Since the system is multizone, the Peak Fenestration Gain Procedure was used to determine glass sensible gains
at the room and zone levels, so the sums of the zone sensible gains and airflows for cooling shown above are not intended
to equal the totals at the system level. Room and zone sensible gains and cooling CFM values are for the hour in which
the glass sensible gain for the zone is at its peak. Sensible gains at the system level are based on the "Average Load
Procedure+ Excursion" method.
111Pinalfrtem Summary
Cooling Sensible/Latent Sensible Latent Total
Tons Split Btuh Btuh,;
Net Required: 1.91 89%/ 11% 20,320 2,636 22,956
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: 214DNA030.."A 214DNA030****A
Indoor Model: FB4CNP030L
Brand: BRYANT HEATING AND COOLING BRYANT HEATING AND COOLING
SYSTEMS SYSTEMS
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 22,452 Btuh
Sensible Capacity: n/a 21,450 Btuh
' Adjusted Sensible Capacity: n/a 19,457 Btuh
Latent Capacity: n/a 7,150 Btuh
Adjusted Latent Capacity: n/a 2,995 Btuh
AHRI Reference No.: n/a 7839724
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM
Rhvac-Residential&Light Commercial HVAC Loads Elite Software Development,Inc.
Home Energy Services Pitler 290 Beach Ave
Jacksonville,FL 32218 Page 16
System 2 Room Load Summary (cont'd)
Equipment Data
This system's equipment was selected in accordance with ACCA Manual S.
Manual S equipment sizing data: SODB: 95F, SOWB: 77F, WODB: 32F, SIDB: 75F, SIRH: 50%, WIDB: 70F, Sen. gain:
20,320 Btuh, Lat. gain: 2,636 Btuh, Sen. loss: 20,282 Btuh, Entering clg. coil DB: 75F, Entering clg. coil WB: 62.5F,
Entering htg. coil DB: 70F, Clg. coil TD: 20F, Htg. coil TD: 45F, Req. clg. airflow: 925 CFM, Req. htg. airflow: 410 CFM
C:\ ...\Pitler290BeachAve.rh9 Monday, March 14, 2016, 12:07 PM