HomeMy WebLinkAbout700 Lake Minnie Dr Bldg 17 22280 HVAC Load calcsFLORIDA ENERGY TEFFICIENCY 'CODE F?'
FOR BUILDING CONSTRUCTION
- x SECTION 9 ` RESIDENTIA4, POINT SYSTEM, METHOD
9004-86 DEPARTMENT OF COMMUNITY AFFAIRS
.used to demonstrate complianc
bee with the Energy Code for new single-lamily detached or multifaty attached dwellin
it single-family detached dwellings, and multifamily attached dwellings of three stories or less, Is provided 1n $action 10. Mu
es'must comply under Section 9 or 5. Additions to existing residential buildings must comply under Sectidii o or 10. Addbuilding department or the Department of Community Affairs, Energy Code Program, 2571 Executive Centex Ircle East
_a „
CLIMATE ZONES 3T ?
CEN:TRAL.4 -'s'. 6
gs,under'Section 9. An alternahve
ititamily attached dwellings greater
:Ional,Information may be obtained
Tellihassee, Florida 32301-8244.'
NAME
D TM � h nb L]NIf C
PERMITTING OFFIC ;
�..
ll 4t�d�DRESS:
CIRCLE CLIMATE Z0kE, 4
Aa {
PERMIT N0.
�SktY.SyER.
f_.i �j .:. �pn%t' �o�i� .
JURISDICTION NO. r
{JNER.
+
NET WALL AREA AND INSULATION
CBBSm
R =
FRAME
R =
F STEEL STUD
R =
' I OG
R =
DUCTS
COOLING SYSTEM
HEATING SYSTEM
HOT WAT
IN UNCOND.
SPACE
CENTRAL ❑ NONE
❑ ELECTRIC STRIP HEAT PUMP
� ELECTRIC
SOLAII y
R
,LEI
❑TT'RCOVEHYa,
El Room
ElNATURAL GAS ElROOM/PTHP
❑ NATURAL GAS
IN COND.
❑ PTAC
❑ OTHER FUELS ❑ NONE
❑ OTHER FUELS
❑ DE ' �AT l�UtPF
SPACE
R
®.E
M.M..
EF = .13T
SF/EF n�l§
G•
y
SEER/EER =
COP/AFUE _
NUMBER OF BEDROOMS
=
INFILTRATION
PRACTICE USED
} ,�
I' S 3 3 - 2 Z 4 1 �o. x 100 = 9 t!o
0 ❑
..TOTAL AS -BUILT POINTS TOTAL BASE POINTS CALCULATED E.P.I
#1 #2 #3
INDEX MUST NOT EXCEED 1D0 POINTS.
CALCULATED ENERGY PERFORMANCE
In accordance with Section 553.907 F.S., l hereby certify that the plans
Review of the plans and specifications covered by this calculation indicates .
and specificelions cover y- is alculati n are in complia with the
compliance with the Florida Energy Code. Before construction is completed, this
Florida Energy Code.
building will be inspectntopfiance in accordance withSection 553.908 F.SOWNERIAOENT:
DATE:
BUILDING OFFICIAL:C
DATE:
_ _
9A I PRESCRIPTIVE MEASURES
Must be met or exceeded by all residences.
COMPONENTS
SECTION
RE UQ ;REMENTS
CHECK
WINDOWS
904.1
MAXIMUM OF 0.5 CFM PER LINEAR FOOT OF OPERABLE SASH CRACK.
EXTERIOR &
904.1
MAXIMUM OF 0.5 CFM PER SO. FT. OF DOOR AREA. INCLUDES SLIDING GLASS DOORS, SOLID CORE,
ADJACENT DOORS
WOOD PANEL INSULATED OR GLASS DOORS ONLY.
EXT. JOINTS &
904.1
TO BE CAULKED, GASKETED, WEATHERSTRIPPED OR OTHERWISE SEALED.
CRACKS
MUST BEAR LABEL INDICATING COMPLIANCE WITH ASHRAE STANDARD 90 OR COMPLY WITH EFFICIENCY AND
WATER HEATERS
904.2
STANDBY LOSS REQUIREMENTS. SWITCH OR CLEARLY MARKED CIRCUIT BREAKER (ELECTRIC), OR CUT-OFF
t'�
GAS MUST BE PROVIDED. AN EXTERNAL ORBUILT-IN HEAT TRAP MUST BE PROVIDED.
SWIMMING POOLS
904.3
SPAS & HEATED POOLS MUST HAVE COVERS (EXCEPT SOLAR HEATED). NON-COMMERCIAL POOLS MUST
A) A
& SPAS
HAVE A PUMP TIMER. GAS SPA & POOL HEATERS MUST HAVE MINIMUM T ERMAL EFFICIENCY F 75%.
HOT WATER
904.4
INSULATION IS REQUIRED ONLY FOR RECIRCULATING SYSTEMS. IN SUCH CASES, PIPING HEAT LOSS SHALL
N �1
PIPE
BE LIMITED T 17.5 BTUIH/LINEAR FOOT F PIPE.
/'
SHOWER HEADS
904.5
1 WATER FLOW MUST BE RESTRICTED TO NO MORE THAN 3 GALLONS PER MINUTE AT 20 TO 80 PSIG.
✓
HVAC DUCT
903.2
CONSTRUCTED IN ACCORDANCE WITH INDUSTRY STANDARDS ✓4 LOCAL MECHANICAL CODES. DUCTS IN
CONSTRUCTION
904.6
UNCONDITIONED SPACE MUST BE INSULATED TO MINIMUM R- 4.2 6 JOINTS MUST BE SEALED.
HVAC CONTROLS
904.7
SEPARATE READILY ACCESSIBLE MANUAL OR AUTOMATIC THERMOSTAT FOR EACH SYSTEM.
[CEILING IN
.9
MINIMUM R-1 .
:'1
1
UMMER^'CALCULATIONS 4 = [MATE ZONES 4 '� g
AS -BUILT
,GLASS
SUBTOTAL
IF
COMPONENT
DESCRIPTION
SUM. PT.
AREA x MULT.
9C THRU 9G
AS -BUILT
= SUMMER
POINTS
oa <'Anl�
33
_
--
�:.�
'
K.?
< z
T
i J;Svca:z=104.1
s
>•„
v
T
2
s
p
GLASS
r-
BASE
t
SUMMER.H r
INT
S S
478102.0
7
N
71.7
E
4lpn^
-
W
102.0
(D^
NW
71,7
••
OEM
. I COND. I TOTAL., BASE I BASE I ADJUSTED
.15 x FLOOR + GLASS = ADJ. x GLASS = GLASS
BASE
COMPONENT
BASE SUM.
AREA x
_
— SUMMER
DESCRIPTION
PT. MULT.
POINTS
EXTERIOR
1.0
3�
a
ADJACENT
7
Z 2
3
v
v
UNDER ATTIC
OR SINGLE
o
ASSEMBLY
.6
IF
TOTAL
. BASE
TOTAL I
AS -BUILT
I AS -BUILT I
AS -BUILT
AS -BUILT
COOLING
BASE CSM x BASE
= COOLING
AS -BUILT x
DM
x CSM x
CCM
= COOLING
SYSTEM
I SUM,PTS,
I POINTS
UM PT
9
9K
9L
POINTS_
.43
1 23Z(o7 .
I DDOS
ZZ/btj
1.14
. 43 1
/.o
b873.
NUMBER
BASE
BASE
HOT
OF x
= HOT WATER
HWM
'
WATER
BEDROOMS
POINTS
.SYSTEM Z 3527
AID $ 4
AS -BUILT
NUMBER
I AS -BUILT
I AS -BUILT
AS -BUILT
HOT WATER
OF x HWM x HWCM
= HOT WATER
SYSTEME
R M
9M
9N
POINT
ELEG,
-Z .13512-11
/.0
I 7054
H = Horizontal Glass (Skylights)
For Shading Coefficient less than 0.83. see sec. 903.2(a). Tint MultiDliers may be used for oass with solar screens. film. or tint.
.2.
SUMMER POINT MULTIPLIERS
y,
(SOF) For single and double parie glass. CLIMATE ZONES 4
v -- OVERHANG
RATIO
ORIEN
TATION
r ,0 0
17 =
� "0.18=`
0.26
0.27
0.3
0 36
0.46
0.47-
0. 7
, "_0.58-
7.
0.70
:. 0.71- "=
83 "
0.84-
1.18
1 19
1.72
1 73'-'
2.7
2174
5.66
`.f 5 67
U
N
1. ;r
, w 1 ..
87 `
.79
.7
.72
69
.62
.50
.44
NE/NW
: 1.0 ,;.:
:. 1 .
"'; .8
79
.72
.68
5
5
40
'.36
''.30:,,
E.,a
.70
4
4
:26
2
E�
;.
.81
62
.55
4
4
2
22
1
;.,
1 •
7 ,
77 .
67 .. - .
4
2 : -
2
.25
22
9C WALL SUMMER POINT MULTIPLIERS (SPM)
9D DOOR SUMMER POINT MULTIPLIERS (SPM)
DOOR TYPE
EXT
ADJ
WOOD
2.9
INSULATED
9.9
3.2
9G INFILTRATION SUMMER POINT MULTIPLIERS
INFILTRATION PRACTICE
SPM
(See Table 9P)
PRACTICE # 1
13.8
_PRACTICE # 2
tU
PRACTICE " 3
7.6
26.29.9
.7
9-10.9
3.3
14.20.9
2.0
2.1
30-37.9
38&U
.6
4
11-12.9
13.18.9
2.7
2.4
21&U
�x ••�
14
13
CREDIT MULTIPLIER FOR ATTIC RADIANT
BARRIER = .53
nr rl nno cuuucD Dn1A1T Ul11 TIDI IFGC 14ZPUI
SLAB -ON -GRADE
EDGE INSULATION
RAISED
CONCRETE
RAISED WOOD
(See 903.2(e))
R-VALUE
SPM
R-VALUE
SPM
R-VALUE
SPM
0-2.9
-31.9
0.2.9
-1.0
0- 6.9
- .7
3-4.9
-31.
3.4.9
-1.7
7.10.9
- .8
5-6.9
-31.7
5 6.9
-1.7
11-18.9
- .8
7&U
-31.6
11 7 &U
-1.7
19&U
- •7
ow nurT uni TlD pnQ rnutl
R-VALUE
With Return
A I
W/O Return
Alr Duct _
4.2 - 4.9
1.14
1.10
5.0 - 6.6
1.08
6.7 & Up
1.09
1.06
DUCTS IN CONDITIONED SPACE
1.00
1.00
-3-
MOM
Rim
�yy
�6•��
rim
=E
- -
WA r.=
I COND. I TOTAL I" BASE I BASE I ADJUSTED
.15 x FLOOR + GLASS ADJ. x GLASS = GLASS
COMPONENT
BASE WIN. BASE
DESCRIPTION
INTER
AREA x PT. MOLT. —
P
EXTERIOR
331
a
ADJACENT
i
3
¢
EXTERIOR
10.5
o
ADJACENT
0
E
UNDER ATTIC
OR SINGLE
ASSEMBLY
AS -BUILT
GLASS
COMPONENT
DESCRIPTION
WIN. PT. AS -BUILT
AREA x MULT. = WINTER
9C THRU 9G POINTS
wao F'AML
1
6Z
w0abCAM e
2
TOTAL COMPONENT BASE WINTER POINTS
9
TOTAL MP
NEN AS -BUILT WINTER POINTS
BASE
BASE
BASE
TOTAL
TOTAL
AS -BUILT
AS -BUILT
AS -BUILT
_j
COOLING
+ HEATING
+ HOT WATER
= BASE
COOLING '
+ HEATING +
HOT WATER =
AS -BUILT
a
f-
POINTS
POINTS
POINTS
POINTS
POINTS
POINTS
POINTS
POINTS
f-
Fr P•2
From P.2
Ent on P.1
From P.2
From P-2
Enter on P.,
l 0005
.� 35
os4
2z41 to
/a 8 37
.3 yZ
o S4
2 t 533 -
TOTAL
BASE
TOTAL
AS -BUILT
AS -BUILT
AS -BUILT
AS -BUILT
HEATING
BASE HSM
x -BASE
= HEATING
AS -BUILT x
DM x
HSM x
NCM
= HEATING
SYSTEM
9
91
9J
POINTS
,.,4
4
S�
.54
/, 0
136z4z
H = Horizontal Glass (Skylights)
" For Shading Coefficient less than 043., see sec. 903.2(a). Tint Multipliers may be used for glass with solar screens, film, or tint.
-4-
98 r HINTER OVERHANG FACTORS (WOF) ; x. �- ' 'a p.� * , CLIMATE ZONES 4 5 B rt
. _ VERHANG RATI
0 0 0 18- 0 27 - 0.38 0 84 1 19 T.73 z 2.74 5.67
I c
# ORIEN-
"U. 7 58
TATION 0 4 0 = 0.71
1 0.2 4 1'
7 .7 1
g
N E PANE GLASS
N L1.05 1.08 1.1 J3 1 1.1 4 1. 1.38 sn
a� NE/NW `t. i. �2 12 ''� 1; 1.67`iJ4
E/yy 57 , 19 -°` .20 - .65 1.05 1 48 = 2.03 4.06 - 5.04 '- 5.71
SE/SW 0 90 8 68 39 22 1 -1.01 " -1.20 s
1 92 36" . 1 1 7 - -1 09 =1.16
.
UBLE PANE GLASS
N .. 1. 1. 7 1.11 1.14 1 1 1.21 24 1.2 1. 1.40 1.47 1.53
NE/NW 1.0 1.16
1.24 1.32 1.41 1.48 1.5 1 1. 2.08 2.18
EMI 1.0 2 .66 5 31 1 _..26 -1.10 -1.50 -1.78
SE/SW 1.0 92 85 76 65 54 41 8 1 - - .52 - .67
S 1:0 94 87 78 .6 51 1 - .30 - 1 - .60 - .65
OVERHANG RATIO = L/H
1
L '
HT �i- L H H s
!r
9C WALL WINTER POINT MULTIPLIERS (WPM) i
FRAME CONCRETE BLOCK FACE 8 ICK LOG
R-VALUE
"vvv
EXT
AN
-VALUE
I Who
EXT
PY 1.
AN
1 L.I n I
EXT
nvnm
EX
I L 1 n
.a
7
1 •v
1
UE
EX
- 6.9
6.8
5.3
- 2.9
6.0
3.1
4.7
6.0
47
11 -1
-2.9
2.2
7-10.9
2.5
2.1
- 4.9
3.8
2.3
3.1
2.8
2.3
1 -25.9
-1.0
.9
1.2
11-12.9
'.8
5- 6.9
2.9
1.9
2.4
2.0
1.7
26& Up
.6
7 & Up
•9
13 - 1 .9
1.8
1.6
7. 1 .9
2.3
1.5
1.9
1
1.2
FI-VALUE
BLOCK
INCH
19 - 25.9
1.1
1.0
11 - 18.9
1.5
1.1
1.3
8
0 - 2.9
.7
R-VALUE
E T
26&U
.7
.7
19-25.9
.8
.7
8
3 .9
2.
-2.
1.2
STFFI
9R R I In
r.
r,
F
7 - A 9
t.8
3.8.9
.9 -
26&UP I 1.4 I 1.2 I`
9D DOOR WINTER POINT MULTIPLIERS (WPM)
DOOR TYPE
EXT
ADJ
WOOD
9.5
6.9
INSULATED
10.5
7:6
9E CEILING WINTER POINT MULTIPLIERS (WPM)
UNDER
ATTIC
SINGLE ASSEMBLY
CON RETE DECK ROOF
CEILIN TYPE
R-VALUE
WPM
R-VALUE
WPM '
19 - 21.9
1.0
- 6.9
4.1
R-VALUE
DROPPED
EXPOSED
22-25.9
.9
7- 8.9
2.6
10-13.9
1.2
1.3
26 - 29.9
.7
9. 10.9
2.0
14 20.9
.7
J
30.37.9
6
11-12.9
1.6
21&U
.4 .3
38&U .4 1 -1 1.5
19-25.9 1.1
26&U .6
CREDIT MULTIPLIER FOR ATTIC RADIANT
= .63
BARRIER
OF CI Onn WINTFR P01NT Wit TIPLIFRS fWPM1
SLAB -ON -GRADE
EDGE INSULATION-
RAISED
CONCRE E
RAISED WOOD
See 903.2 a)
R-VALUE
WPM
R-V LUE
WPM
R-VALUE
WPM
0-2.9
2.
4.
.5
-4.9
- 7
3-4.9
1.
7 0.9
1.1
.9
1.1
1 8.9
.8
7 & Up
&
1
.4
9G , INFILTRATION WINTER POINT MULTIPLIERS 9H DUCT MULTIPLIERS (DM)
INFILTRATION PRACTICE
WPM -
(See Table 9P) ,
PRACTICE N 1
6.2
PRACTICE or 2
.1
PRACTICE # 3
2.2 -
R-VALUE
With Rot
Air Dui
4.2 - 4.9
5.0 - 6.6
6.7 & Up
1.09
DUCTS IN CONDITIONED SPACE
1.00
.=..�
91 `HEATINGI SYSTEM MULTIPLIERS (HSM) ;w..
i a7
' 9J HEATING CREDIT MULTIPLIERS (HCM)
_ L
YSTEM TYPE•
'- HEATING SYSTEM MULTIPLIER
Heal Pump
-.4
7
EIeCtriC..,
_
Gail
-r Fuels
1.0 Table for Credit MUltlDliersl
Units
_ 'f r COP 2.2 - Z49 =` .63. See a v6 forQOP>2.49.
tMinimums: Central Units 2.5 COP ;PTHP & Room Units 2.2 COP
COP means Coefficient'of Performance. ' x
SYSTEMEA
SYSTEM MULTIPLIERS
Multizon
HCM
.90
AF
-
,6 6
.7
7
0 .
8
90
Natural Gas
HM
44_,:
41
3
1
.3
Other Fuels,.,A,,
HCM
9
Where more than one credit is claimed, multiply RCM's together. Enter product on page 4.
AFUE means Annual Fuel Utilization Efficiency.
9K COOLING SYSTEM MULTIPLIERS (CSM)
SYSTEM TYP
COOL
IN SYSTEM MULTIPLIERS
7.8• 8.0-
8.5
9.0•
9,5- 10.0 10.5- 11.0- tt.5 12.0-
SEER
Central Units
7.9 .4
.4
9.9 10.4 10.9 11.4 11.9 8
M
44
4.
4
2
1
.30
PTAC & Room Unit
for EER 7. - 7.7 = .46. For ER' >7.7 use multipliers above.
Minimums: Central Units 7.8 SEER.Room Units 7.5 EER. PTAC under 13,000 BTU/H 7.5 EER, and over 13,000 BTU/H 7.0 EER.
SEER means Seasonal Energy Efficiency Ratio. EER means Energy Efficiency Ratio.
9L COOLING CREDIT MULTIPLIERS (CCMI
SYSTEM TYPE
COOLING CREDIT MULTIPLIERS
Ceiling Fans
CM
.86
M I izon
CrossVentilation or Whole HouseFan (Credit for only nnA)
Where more than one credit is claimed multiply CCM's together. Enter product on page 2.
9M HOT WATER MULTIPLIERS (HWMI
SYSTEM TYPE
HOT WATER
MULTIPLIERS
Electric
EF
.80 - ,81
.82 - .83
.84 - .85'
.86 - .87
.88 - .90
.91 - .93
.94 • .96
.97 & UP
Resistance
HWM
3879
3785
3695
3609
27
3411
02
3200
EF
.4 - .49
• . 1
2 - .53
• .5
57
- .59
.60 - .61
.62 &
Natural Gas
HWM
1722
1653
1589
1530
1476
1425
1377
1333
Other Fuels
HWM
2662
9rr1R
2458
2367
2282
2203
2130
2061
Water heaters must comply with prescriptive means of Table 9A. EF means Energy Factor.
9N HOT WATER CREDIT MULTIPLIERS (HWCMI
SYSTEM TYPE
HOTWATER RE)M
U I
LIERS
SF
1
2
.3
.4
.6
.7
1 .8
Solar Water Heater
W M
.7
.2
1 .1
1 .0
'
With
Air -conditioner
Heat Pump
Heat Recovery Unit
HWCM
6
EF
2. -2.4 2. -2.
.49
. 5
Dedicated Heat Pump
HWQM
44 1 .3
.29
2
A HWM must be used in conjunction with all HWCM. See Table 9M.
SF means Solar Fraction. EF means Energy Factor.
9P INFILTRATION REDUCTION PRACTICE COMPLIANCE CHECKLIST (See Section 903.2(f))
COMPONENTS
REQUIREMENTS EACH PRACTICE
--CHECK
PRACTICE "1
COMPLY WITH ALL INFILTRATION PRESCRIPTIVE$ ON TABLE 9A.
PRACTICE " .
COMPLY WITH PRACTICE "1 AND THE FOLLOWING:
✓
Exterior Walls nd Floors
Iate penetrations seaI d Infiltration barrier installed, Ie plale/floor loint caulked or sealed.
✓
Exterior Walls ilin
Penetrations, ioi r k n interior uricaulked. I n k
Ductwork
DuctwQrk in unconditioned spacee l d.
✓
FireQlaces
Eauioped with outside combustionit doors, n flue damoers.-
Exha t n
i with dampers. Combustiondevices
PRACTIQE #3
COMPLYT T #1 AND #2 AND THE FOLLOWING:
CeilinQs
Infiltrationbarrier installed.
Interior Walls
Top plateonetrations sealedint S cracks on interior llcaulked, al r gasketed.
Recessed Llahtsfrom
n i i Insulated from ventilated i
DuctworkAll
twr located in conditioned
Combustion Appliances
Be in unconditioned space (except direct vent), draw air from unconditioned space, exhaust
by-products to outside. Stoves see 903.2 .
-6-