HomeMy WebLinkAbout2511 Laurel Ave 91-1772 Load CalcFLORIDA ENERGY EFFICIENCY CODE
FOR BUILDING CONSTRUCTION
y ` SECTION 9 — RESIDENTIAL POINT SYSTEM METHOD CLIMATE ZONES
FORM 900-A-86 DEPARTMENT OF COMMUNITY AFFAIRS CENTRAL 4 5 6
This form may be used to demonstrate compliance with the Energy Code for new single-family detached or multifamily attached dwellings under. Section 9. An alternativeto,lhis method for single-family detached dwellings, and multifamily attached dwellings of three stories or less, is provided in Section 10. Multifamily attached dwellings greater
than three stories must comply under Section 9 or 5. Additions to existing residential buildings must comply under Section 9 or 10. Additional information may be obtainedImmurnsIncalhuBdinndepartmentortheDeoanmentofCommunityAflairs, Energy Code Program, 2571 Executive Center Circle East, Tallahassee, Florida 32301.8244.
IOJECT NAME PEf raITTING OFFICE: .
VD ADDRESS: CIRCLE CLIMATE ZONE: 4 5 6 _
ALDER: PERMIT NO.:
INNER: ' 1
JURISDICTION NO.: to. t A I T-1
DETACHED
NEW ADD.
CACHED
NEW F] ADD.
CHECK IF WORST IF MULTIFAMILY,
CASE CALCULATION: LJ NUMBER OF UNITS:
GLASS AREA AND TYPE + "
CLEAR TINT,FILM SOLAR SCREEN
CONDITIONED
FLOOR AREA
CEILING INSULATION
SGL
DBL
SGL
DBL
UNDERATTICSGL. ASmSEMBLLYY I
rT TrTj—I R =
I I(a I, I ill R _ NET
WALL AREA AAND INSULATION CBS
R= FRAME Rm=
STEEL
STUD Rm= LOG
Rm=
Lt-]= DUCTS
COOLING SYSTEM HEATING SYSTEM HOT WATER SYSTEM IN
UNCOND. SPACE
IJ CENTRAL El NONE y LJ
ELECTRIC STRIP HEAT PUMP 2 ELECTRIC SOLAR R=
ROOM
NATURAL GAS ROOM/PTHP NATURAL GAS HEAT RECOVERY IN
COND. PTAC OTHER FUELS NONE OTHER FUELS DIED. HEAT PUMP SPACE
1
r COP/AFUE _ . ® EF = .
SF/EF = RSEER/EER NUMBER
OF BEDROOMS = W 3 101-111 INFILTRATION
PRACTICE
USED r1
rr
X 100 10
S $ T t = O . TOTAL
AS -BUILT POINTS TOTAL BASE POINTS CALCULATED E.P.I L!
7 a2 a3 CALCULATED ENERGY PERFORMANCE INDEX MUST NOT EXCEED 100 POINTS. In
accordance with c ion o ,1,
y's ere
y ce i a plans Review of the plans and specifications covered by this calculatio n indicates and
specificatco eyed b th*L1N ' C re ou) a it ions hthe compliance with the Florida Energy Code. Before constructioncompleted, this Florida Energy Code
l v t Y c A a T building will be inspected for compliance in accordance with Section 553.908 F.S. L`^• :..;.. OWNER/AGENT: {- ^ ' ``'
d "-
BUILDING OFFICIAL: DATE: 121, r "
e 7 -
DATE:
A I PRESCRIPTIVE
MEASURES Must be met or exceeded by all residences. COMPONENTS SECTION REQUIREMENTSHECK
WINDOWS 904.1
MAXIMUM OF 0.5 CFM PER LINEAR F OT OF PERABLE SASH CRACK. EXTERIOR & ADJACENT DOORS
904.
1 MAXIMUM
OF 0.5 CFM PER SO. FT. OF DOOR AREA. INCLUDES SLIDING GLASS DOORS, SOLID CORE, WOOD PANEL INSULATED
OR GLASS DOORS ONLY. EXT. JOINTS & CRACKS
904.1
TO
BE CAULKED, GASKETED, WEATHERSTRIPPED OR OTHERWISE SEALED. WATER HEATERS 904.
2 MUST BEAR LABEL
INDICATING COMPLIANCE WITH ASHRAE STANDARD 90 OR COMPLY WITH EFFICIENCY AND STANDBY LOSS REQUIREMENTS.
SWITCH OR CLEARLY MARKED CIRCUIT BREAKER (ELECTRIC), OR CUT-OFF GAS1 MUST BE
PROVIDED. AN EXTERNAL OR BUILT-IN HEAT TRAP MUST BE PROVIDED. SWIMMING POOLS SPAS
904.3
SPAS &
HEATED POOLS MUST HAVE COVERS (EXCEPT SOLAR HEATED). NON-COMMERCIAL POOLS MUST HAVE A PUMP
TIMER AS SPA .& PO L HEATED -MUST HAVE MINIMUM THERMAL EFFICIENCY OF 75%. HOT WATER PIPES
904.4
INSULATION
IS REQUIRED ONLY FOR RECIRCULATING SYSTEMS. IN SUCH CASES, PIPING HEAT LOSS SHALL LIMITED TO 175
BTU H/LINEAR FOOT OF PIPE. SHOWER HEADS 904.
5 WATER FLOW MUST BE RESTRICTED TO NO MORE THAN 3 GALLONS PER MINUTE AT 20 TO 80 PSIG. HVAC DUCT CONSTRUCTION
903.2
9046
CONSTRUCTED IN
ACCORDANCE
WITH INDUSTRY STANDARDS & LOCAL MECHANICAL CODES. DUCTS IN NC NDIT N
PA E MUST BE IN QLLATED TO MINIMUM R- 4.2 & JOINTS MUST BE SEALED ASEPARATE READILY ACCESSIBLE
MAN QR yUTOMATIC THERMOSTjj FOR EACH SYSTEM. CEILING INSUL. W4.
MINIMUM R-19. t
rj
S o u t h e r n E n e r g y E v a l u a t i o n S e r v i c e s
L O A D C A L C U L A T I O N -
inter design temp. difference (70/30)=40 TD Summer design temp. difference (75/95)=20 TD
esign Grains @ 50% relitive humidity = 51.0 -> Daily range °L° Average Cen.Fla conditions
irection TYPE Area Loss/Btuh Gain/Btuh
J SINGLE TNT 64 3724.8 1344
SINGLE TNT 4.5 157.5 234
SINGLE TNT 4.5 157.5 234
i SINGLE CLR 80 3440 2400
J SINGLE TNT 9 360 468
omponent type R-Value Area Loss Gain
NORM WT C B 5 914 1590.36 2650.6
EXT.WOOD nia 20 816 254
VENT/ATTIC 19 1253 2631.3 3132.5
SLAB/NO INSL 0 137 4438.8 0
SLAB/NO INSL 0 137 0 0
Infiltration 1741.64
Sub Totals ----> 17316.26 12458.74
Occupant/Appl.(Sens) 3000
Duct Loss 1731.63 Duct Gain 1868.81
Total Sensible Gain 17327.55
Latent Gain 3121.64
TOTAL LOSS, 24190.8203 TOTAL GAIN 20449.19
HIS CALCULATION IS BASED ON A C C A MANUAL °J°,SIXTH EDITION (c), 1981, and is condensed soley for new construction
OOFS ARE CONCIDERED DARK WINO SHADING
LL WINDOW AND GLASS(SLIDING)DOORS ARE CALCULATED THE SAME FOR BOTH HEATING AND COOLING
HE INCH THICK DUCT BOARD FOR A.D.S. CONSTRUCTION WISTANDARD BRANCH TAKEOFFS
HE TOTAL CAPACITY OBTAINED BY THIS CALCULATION REPRESENTS A MINIMUM FIGURE
OUR AC CONTRACTOR MAY ELECT A SIZE THAT IS LARGER OR SMALLER THAN THE SIZE INDICATED BY THE CALCULATION
OUTHERN ENERGY EVALUATION SERVICES ASSUMES NO LIAIBILITY FOR EOUIPHENT PERFORMANCE OR SIZING
E N E R G Y S U M M A R Y *
HEATING COOLING
BTUH needed for 40 TD @ 30 OAT :24190.8203 BTUH needed for 20 Td @ 95 OAT :20449.19
Approx. energy to maintain 70 :4572.6 Kwh Approx. energy to maintain 78 :2405.8 Kwh
APPROX. ANNUAL ENERGY CONSUMPTION FOR HEATING & COOLING :
6978.4 Kwh @ .09 cents per Kwh = $ 628.05
APPROX. ANNUAL ENERGY CONSUMPTION FOR ELECTRIC WATER HEATING :
5232 Kwh @ .09 cents per Kwh = $ 470.88
TOTAL = $ 1098.93
AN APPROVED HEAT RECOVERY UNIT FOR WATER HEATING WOULD SAVE ->$ 178.93 ANNUALLY
THUS SAVING 16.28 % ON YOUR HOMES ELECTRICAL CONSUMPTION ( HEATING/COOLING & HOT WATER )
AND WOULD REPAY THE AVERAGE INSTALLATION COST ( $575.00 ) IN APPROX. 3.21 YEARS
YOUR HOMES ENERGY CONSUMPTION RAIIO IS 5 ( EXCELLANT ) <----
Your energy usage depends on your life style and may vary from these results
YOUR HOMES E.P.I IS : 60.1
LJMNIER C itLG CLIMATE ZONES 4 5 6
TOTAL: BASE BASE O/H SINGLE DOUBLE SOF AS -BUILT
OR GLASSx SPM SUMMER GLASS x S P M or S P M x (9B) GLASS
AREA : POINTS AREA CLEAR . TINT CLEAR . TINT SUM PTS.
N 64 : 47.8 3059.2 64 51.5 0.87 2867.52
E 9 : 102 916 4.5 107.1 0.92 443.39
E 4.5 107.1 1 481.95
S 80 : 90.9 7272 80 100.2 0.32 2565.12
W 9' : 102 918 9 107.1 0.92 886.79
COND TOTAL BASE . BASE ADJUSTED AS -BUILT
15 x FLOOR / GLASS = ADJ. x GLASS = GLASS GLASS
AREA AREA FACTOR : SUBTOTAL BASE W P : SUBTOTAL
1253 : 162 : 1.16 12167.2 14113.95 : 7244.77
COMPONET BASE BASE COMPONET R SUM PT.: AS -BUILT
AREA x SUPS = SUMMER . : VALUE: AREA x MULTI = SUMMER
DESCRIPTION: : PT MUL: POINTS : DESCRIPTION: : (9C-96) POINTS
EXT. WALLS : 914 : 1 : 914 : NORM WT C B: 5 : 914 : 1 : 914
7----------------------------
EXT.DOORS : 20 : 9.9 : 198 EXT.WOOD n/a : 20 ! 9.1 : 182
ATTIC TYPES: 1253 : 0.6 : 751.8 : VENT/ATTIC : 19 : 1253 : 1.1 : 1378.3
FLOOR TYPES: 137 : -31.8 -4356.6 SLAB/GRD . 0 137 -31.9 4370.3
E----------------------------------------------------------------------------------------------
INFILTRN : 1253 : 10.9 : 13657.7 : INFIL # 1 : n/a : 1253 : 13.8 17291.4
7---------------------------------------
TOTAL COMPONET BASE PTS : 25278.9 TOTAL COMPONET AS-BLT SUMMER PTS : 22640.2
BASE TOTAL. BASE TOTAL : AS-BLT: AS-BLT: AS-BLT: AS-BLT
COOLING x BASE = COOLING : AS-BLT x DM x CSM x CCM = COOLING
CSM : SUM PTS POINTS : SUM PTS (9h) : (9k) : (9L) : POINTS
SYSTEM : 0.43 : 25276.9 : 10869.93 : 22640.2 : 1.14 : 0.4 : 1 : 10323.93
HOT NUMBER BASE BASE AS-BLT : NUMBER: AS-BLT: AS-BLT: AS-BLT
OF x = HOT WATER:HOT WATER : OF x HWM x HWCM = HOT WATER
WATER BED RM HWM POINTS : SYSTEM = : BED RM: (9m) : (9n) : POINTS
SYSTEM 3 : 3527 : 10581 : EF= 0.86 : 3 : 3527 : 0.62 : 6560.22
4 _ V.,.
WINTER CALCULATIONS CLIMATE ZONES 4 5 6
TOTAL: BASE BASE . O/H SINGLE DOUBLE WOF AS -BUILT
OR : GLASSx WPM = WINTER : GLASS x W P.M or W P M x (9B) GLASS
AREA . POINTS : AREA CLEAR TINT : CLEAR TINT WIN PTS.
N 64 5,6 . 358.4 . 64 9.6 1.08 663.55
E . 9 5.6 -50.4 4.5 2 0.57 5.13
E 4.5 2 1 9
S 80 14 -1120 . 80 10.9 0.7 610.4
W 9 5.6 -50.4 . 9 2 0.57 10.26
COND TOTAL BASE : BASE ADJUSTED AS -BUILT
15 x FLOOR GLASS = ADJ. x GLASS = GLASS GLASS
AREA AREA FACTOR SUBTOTAL BASE W P : SUBTOTAL
1253 162 : 1.16 862.4 .-1000.38 1249.56
COMPONET : BASE BASE COMPONET R WIN PT.: AS -BUILT
AREA x WIN = WINTER DESCRIPTION: VALUE: AREA x MULTI = WINTER
DESCRIPTIONi: PT MUL: POINTS POINTS 9C-9G) POINTS
EXT. WALLS : 914 : 1.1 : 1005.4 NORM WT C B: 5 : 914 2.9 : 2650.6
EXT.DOORS . 20 . 10.E . 210 EXT.WOOD n/a . 20 9.5 . 190
ATTIC TYPES: 1253 : 0.6 : 751.8 V'ENT/ATTIC : 19 : 1253 i : 1253
FLOOR TYPES: 137 . -31.8 : -260.3 SLAB/GRD : 0 : 137 2.5 : 342.5
INFILTRN : 1253 : 4.1 : 5137.3 INFIL # i : n/a : 1253 6.2 : 7768.6
TOTAL COMPONET BASE PTS : 5843.8 TOTAL COMPONET AS-BLT WINTER PTS : 13454.3
7---------
BASE TOTAL, BASE TOTAL : AS-BLT: AS-BLT: AS-BLT: AS-BLT
HEATING x BASE = HEATING : AS-BLT x DM x HSM x HCM HEATING
HSM : WIN PTS POINTS : WIN PTS : 9h) : 9i) : (9j) POINTS
SYSTEM 1.14 : 5843.8 : 6661.93 : 13454.3 : 1.14 1 : 0 0
T : BASE BASE BASE TOTAL : As-Blt : As-Blt As-Blt Total
0 : COOLING HEATING + HOT WATER= BASE COOLING + HEATING HOT WATER: AS-BLT
T : POINTS POINTS POINTS . POINTS : POINTS : POINTS POINTS POINTS
A..
L 10869.93: 6661.93 : 10581 28112.86 : I0323.93 : 0 6560.22 16884.15
i 4
FORM 90OD-96
elMT, p=OVM _tWIT JWW), XA=, ZZATZRJ)ES13pzjt -ammat
XMITICKTION
TESTS CONDUCTED IN ACCORDANCE WITH
ARI STD. 470-80 WITH FLOR'IDA'REGULATORY MODIFICATIONS
LABORATORY: it
Q
REPORT NO. DATE OF TEST
REPORT APPROVED By
I
MANUFACTURER
MODEL NO. CONSTRUCTION TYPE
RECOMKENDED -TOR USE "ITS
REFRIGERATION SYSTEM CAPArXTI'ZS -1z) TONS
DESIGN PRESSURE:. '.WATEA SIDE LIS PSIG
REFRIGEWT SIQE PSIG
TEST RESULTS AT STANDARD CONDITIONS3
TEST 'REFRIGERANT DESIGNATION
TE
TONS
A7 SYSTZK - CAPACITY
OTAL _ SYSTEM -3= rOAS SUPZUEAT"
BTUR
TOTAL -.USEFUL BEAT =CRMGZ EFFECT..
WATER PUMP INPUT
WATTS
NET SUPERHEAT RECOVERY
C)o
9-70 Revised 1/67
31a r'
a 511 Lau
III- 1-7-7a