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04-1517-000
FORM 60OA -2001 FLORIDA ENERGY EFFICIENCY CODE FOR BUILDING CONSTRUCTION Florida Department of Community Affairs Residential Whole Building Performance Method A Project Name" LANG RES. ADD. & REM. Address. 5941 SW 86 ST. City, State- SOUTH MIAMI, FL 33143- Owner Debbie & John Lang Climate Zone- South Builder" Permitting Office: Permit Number. Jurisdiction Number DADE 233300 104 I- _ z calculation indicates compliance -11, C-1.5 ; °- :; ':';,. with the Florida Energy Code 1 New construction or existing Addition _ 12 Cooling systems 2. Single family or multi -family Single family _ a Central Unit Cap 28.6 kBtu/hr — 3. Number of units, if multi - family 1 — i SEER 12 00 _ 4. Number of Bedrooms 4 _ b. Central Unit Cap 35 6 kBtu /hr _ 5. Is this a worst case9 No _ SEER 12 00 _ 6. Conditioned floor area (ft2) 2390 ft2 c N/A _ 7 Glass area & type Single Pane Double Pane _ a Clear glass, default U- factor 456 9 ft2 0 0 ft'- _ 13 Heating systems b Default tint 0 0 ft2 0 0 ft2 _ a Electric Strip Cap- 17 0 kBtu /hr _ c Labeled U or SHGC 0 0 ft'- 0 0 ft2 COP 1 00 _ 8. Floor types _ b Electric Strip Cap 17 0 kBtu/hr _ a. Slab -On -Grade Edge Insulation R =0 0, 269 0(p) ft _ COP 1 00 _ b N/A _ c N/A _ c. N/A — 9 Wall types _ 14. Hot water systems a. Concrete, Int Insul, Exterior R=4 1, 1515 0 112 _ a Electric Resistance Cap 4 0 gallons _ b Frame. Steel. Exterior R =1 1 0, 140 0 ft2 _ EF. 0 90 _ c. N/A _ b Electric Resistance Cap 3 0 gallons _ d N/A _ EF• 0 90 _ e N/A c Conservation credits _ 10 Ceiling types _ (HR -Heat recovery, Solar a Under Attic R =19 0, 2390 0 ft'- _ DHP- Dedicated heat pump) b N/A _ 15 HVAC credits CF, _ c N/A (CF- Ceiling fan, CV -Cross ventilation, I 1 Ducts _ HF -Whole house fan, a Sup Unc Ret Con AH Garage Sup. R =6 0, 25.0 ft _ PT- Programmable Thermostat, b Sup. Unc Ret Con AH Interior Sup R =6.0, 25 Oft MZ- C- Multizone cooling, MZ- H- Multizone heating) Glass /Floor Area. 0 19 Total as -built points- 36644 PASS Total base points 38146 I hereby certify that the plans and specifij; lions covered by this calculation are in comph 0t be _rorAda Energy Code `��� w •.,� ;, PREPARED BY: DATE: I hereby certify that this b5l*4, as de ned, is in compliance with the Florida Energy C OWNER/AGENT: DATE: /67/ Review of the plans and THE sr specifications covered by this 104 I- _ z calculation indicates compliance -11, C-1.5 ; °- :; ':';,. with the Florida Energy Code Before construction is completed this budding will be inspected for I compliance with Section 553 908 Florida Statutes COD WE ( BUILDING OFFICIAL: i DATE: i EnergyGauge® (Version FLRCPB v3 30) FORM 600A =2001 SUMMER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS- 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT # EnergyGauge© DCA Form 60OA -2001 EnergyGauge® /FIaRES'2001 FLRCPB v3 30 BASE AS -BUILT GLASS TYPES 18 X Conditioned X BSPM = Points Overhang Floor Area Type /SC Ornt Len Hgt Area X SPM X SOF = Points .18 2390.0 32.50 13981 5 Single, Clear N 20 70 333 3646 092 11237 Single, Clear N 80 45 533 3646 064 12526 Single, Clear W 150 70 350 7053 043 1071 5 Single, Clear N 80 70 700 36 46. 070 17837 Single, Clear E 150 70 350 7871 0.39 10826 Single, Clear N 20 75 333 3646 093 11340 Single, Clear S 40 5.5 450 6693 058 1735.8 Single, Clear S 20 60 360 6693 079 19149 Single, Clear S 20 60 11 3 6693 079 5984 Single, Clear W 20 63 225 7053 087 13785 Single, Clear W 20 60 150 7053 086 9088 Single, Clear E 20 53 267 7871 082 17255 Single, Clear E 20 68 180 7871 088 12532 Single, Clear E 20 63 22.5 7871 087 15352 As -Built Total: 456.9 18498.5 WALL TYPES Area X BSPM = Points Type R -Value Area X SPM = Points Adjacent 00 000 00 Concrete, Int Insul, Exterior 41 1515.0 232 35072 Exterior 16550 270 44685 Frame, Steel, Exterior 11 0 1400 420 5880 Base Total: 16550 4468.5 As -Built Total: 16550 4095.2 DOOR TYPES Area X BSPM = Points Type Area X SPM = Points Adjacent 200 260 520 Exterior Wood 200 940 1880 Exterior 200 640 1280 Adjacent Insulated 200 260 520 Base Total: 40.0 1800 As -Built Total: 40.0 2400 CEILING TYPES Area X BSPM = Points Type R -Value Area X SPM X SCM = Points Under Attic 23900 280 66920 Under Attic 190 2390 0 3 72 X 1 00 88908 Base Total 2390.0 6692.0 As -Built Total: 23900 8890.8 FLOOR TYPES Area X BSPM = Points Type R -Value Area X SPM = Points Slab 269 0(p) -200 -53800 Slab -On -Grade Edge Insulation 0 0 269 0(p -2000 -53800 Raised 00 000 00 Base Total- -5380 0 1 As -Built Total: 269.0 -538001 EnergyGauge© DCA Form 60OA -2001 EnergyGauge® /FIaRES'2001 FLRCPB v3 30 FORM "600A -2001 SUMMER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS. 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT #: EnergyGaugeT'l DCA Form 60OA -2001 EnergyGauge& /FIaRES'2001 FLRCPB v3 30 BASE AS- BUILT INFILTRATION Area X BSPM = Points Area X SPM = Points 23900 1879 44908.1 23900 1879 449081 Summer Base Points: 64850.1 Summer As -Built Points: 71252.6 Total Summer X System = Cooling Total X Cap X Duct X System X Credit = Cooling Points Multiplier Points Component Ratio Multiplier Multiplier Multiplier Points (DM x DSM x AHU) 712526 0 445 (1 067 x 1 165 x 1 00) 0.284 0 950 101191 712526 0 555 (1 067 x 1.165 x 0 90) 0.284 0 950 125958 64850.1 0.4266 27665.1 71252.6 1.00 1.181 0.284 0.950 22714.9 EnergyGaugeT'l DCA Form 60OA -2001 EnergyGauge& /FIaRES'2001 FLRCPB v3 30 FORM 60OA -2001 WINTER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS. 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT #- EnergyGauge& DCA Form 60OA -2001 EnergyGaugeO /FlaRES'2001 FLRCPB v3 30 BASE AS -BUILT GLASS TYPES I 18 X Conditioned X BWPM = Points Overhang Floor Area Type /SC Ornt Len Hgt Area X WPM X WOF = Points 18 2390.0 2.36 1015.3 Single, Clear N 20 70 333 603 099 1991 Single, Clear N 80 45 533 603 095 3072 Single, Clear W 150 70 350 549 1 03 1984 Single, Clear N 80 70 700 603 096 4067 Single, Clear E 150 70 350 477 1 24 2069 Single, Clear N 20 75 333 603 099 1993 Single, Clear S 40 55 450 449 1 24 251 7 Single, Clear S 20 60 360 449 1 05 1698 Single, Clear S 20 60 11 3 449 1 05 531 Single, Clear W 20 63 225 549 1 00 1236 Single, Clear W 20 60 150 549 1 00 824 Single, Clear E 20 53 267 477 1 03 131 6 Single, Clear E 20 68 180 477 1 03 881 Single, Clear E 20 63 225 477 1 03 1104 As -Built Total: 456.9 2528.1 WALL TYPES Area X BWPM = Points Type R -Value Area X WPM = Points Adjacent 00 000 00 Concrete, Int Insul, Exterior 41 15150 1.03 15680 Exterior 16550 060 9930 Frame, Steel, Exterior 11 0 1400 1 10 1540 Base Total: 1655.0 993.0 As -Built Total: 1655.0 17220 DOOR TYPES Area X BWPM = Points Type Area X WPM = Points Adjacent 200 1 30 260 Exterior Wood 200 280 560 Exterior 200 1 80 360 Adjacent Insulated 200 1 30 260 Base Total: 400 62.0 As -Built Total: 40.0 82.0 CEILING TYPES Area X BWPM = Points Type R -Value Area X WPM X WCM = Points Under Attic 23900 010 2390 Under Attic 190 23900 0 14 X 1 00 3346 Base Total. 2390.0 239.0 As -Built Total, 2390.0 3346 FLOOR TYPES Area X BWPM = Points Type R -Value Area X WPM = Points Slab 269 0(p) -2 1 -5649 Slab -On -Grade Edge Insulation 0 0 269 0(p -2 10 -5649 Raised 00 000 00 Base Total: -564.9 1 As -Built Total. 2690 •564.9 EnergyGauge& DCA Form 60OA -2001 EnergyGaugeO /FlaRES'2001 FLRCPB v3 30 FORM 60OA -2601 WINTER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS. 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT #. EnergyGaugeT1° DCA Form 60OA -2001 EnergyGaugeOlFIaRES'2001 FLRCPB v3 30 BASE AS -BUILT INFILTRATION Area X BWPM = Points Area X WPM = Points 23900 -006 -1434 23900 -006 -1434 Winter Base Points: 1601.0 Winter As -Built Points: 3958.4 Total Winter X System = Heating Total X Cap X Duct X System X Credit = Heating Points Multiplier Points Component Ratio Multiplier Multiplier Multiplier Points (DM x DSM x AHU) 39584 0 500 (1 085 x 1 137 x 1 00) 1 000 1 000 2331 8 39584 0 500 (1 085 x 1 137 x 0 91) 1 000 1 000 2331 8 1601.0 0.6274 1004.4 3958.4 1.00 1.178 1.000 1.000 4663.6 EnergyGaugeT1° DCA Form 60OA -2001 EnergyGaugeOlFIaRES'2001 FLRCPB v3 30 FORM 600A -2001 WATER HEATING & CODE COMPLIANCE STATUS Residential Whole Building Performance Method A - Details ADDRESS: 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT #: BASE CODE COMPLIANCE STATUS AS -BUILT WATER HEATING AS -BUILT Cooling + Heating + Points Points Hot Water Points = Total Points Number of X Multiplier = Total Tank EF Number of X Tank X Multiplier X Credit = Total Bedrooms Volume Bedrooms Ratio _ Multiplier 4 236900 94760 40 090 4 057 231636 1 00 52945 30 090 4 043 231636 1 00 39709 As -Built Total: 9265.4 I P ASS '114E ST,y1�G^n Q ll! /f t == •• �� LL1 h `SOD WE � EnergyGaugelll DCA Form 60OA -2001 EnergyGaugeD /FIaRES'2001 FLRCPB v3 30 CODE COMPLIANCE STATUS BASE AS -BUILT Cooling + Heating + Points Points Hot Water Points = Total Points Cooling Points + Heating + Hot Water = Total Points Points Points 27665 1004 9476 38146 22715 4664 9265 36644 I P ASS '114E ST,y1�G^n Q ll! /f t == •• �� LL1 h `SOD WE � EnergyGaugelll DCA Form 60OA -2001 EnergyGaugeD /FIaRES'2001 FLRCPB v3 30 FORM 600A =2001 Code Compliance Checklist Residential Whole Building Performance Method A - Details ADDRESS 5341 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT #- 6A-21 INFILTRATION REDUCTION COMPLIANCE CHECKLIST COMPONENTS I SECTION REQUIREMENTS FOR EACH PRACTICE CHECK Exterior Windows & Doors 1606 1 ABC 1 1 Maximum 3 cfm/sq ft window area 5 cfm/sq ft. door area I / V Exterior & Adjacent Walls 606 1 ABC 1 21 Caulk, gasket, weatherstrip or seal between windows /doors & frames, surrounding wall, Swimming Pools & Spas 6121 foundation & wall sole or sill plate, joints between exterior wall panels at comers, utility ul penetrations, between wall panels & top /bottom plates, between walls and floor EXCEPTION Frame walls where a continuous infiltration barrier is installed that extends Shower heads 6121 from and is sealed to the foundation to the top plate Floors 606 1.ABC 1 2 2 Penetrations /openings >1/8" sealed unless backed by truss or joint members. EXCEPTION Frame floors where a continuous infiltration barrier is installed that is sealed to the perimeter, penetrations and seams Ceilings 6061 ABC 1 2 3 Between walls & ceilings, penetrations of ceiling plane of top floor, around shafts, chases, Insulation 604 1,602 1 soffits, chimneys, cabinets sealed to continuous air barrier, gaps in gyp board & top plate, ✓ attic access EXCEPTION Frame ceilings where a continuous infiltration barrier is installed that is sealed at the perimeter, at penetrations and seams Recessed Lighting Fixtures 606 1 ABC 1 2 4 Type IC rated with no penetrations, sealed, or Type IC or non -IC rated, installed inside a sealed box with 1/2" clearance & 3" from insulation, or Type IC rated with < 2 0 cfm from conditioned space, tested Multi -stop( Houses 606.1 ABC 1 2 5 Air barrier on perimeter of floor cavity between floors Additional Infiltration reqts 6061 ABC 1 3 Exhaust fans vented to outdoors, dampers, combustion space heaters comply with NFPA, have combustion air v RA -22 0THFR PRFSCRIPTIVF MEASURES (must be met or exceeded by all residences -1 COMPONENTS I SECTION I REQUIREMENTS I CHECK Water Heaters 6121 Comply with efficiency requirements in Table 6 -12 Switch or clearly marked circuit I / V breaker electric or cutoff as must be provided External or built -in heat trap required Swimming Pools & Spas 6121 Spas & heated pools must have covers (except solar heated) Non - commercial pools ul must have a pump timer Gas spa & pool heaters must have a minimum thermal efficiency of 78% Shower heads 6121 Water flow must be restricted to no more than 2 5 gallons per minute at 80 PSIG Air Distribution Systems 6101 All ducts, fittings, mechanical equipment and plenum chambers shall be mechanically attached, sealed, insulated, and installed in accordance with the criteria of Section 610 Ducts in unconditioned attics. R -6 min insulation HVAC Controls 607 1 Separate readily accessible manual or automatic thermostat for each system Insulation 604 1,602 1 I Ceilings -Min R -19 Common walls -Frame R -11 or CBS R -3 both sides Common ceiling & floors R -11 EnergyGaugell-I DCA Form 60OA -2001 EnergyGauge ® /FlaRES'2001 FLRCPB v3 30 ENERGY PERFORMANCE LEVEL (EPL) DISPLAY CARD ESTIMATED ENERGY PERFORMANCE SCORE* = 84.3 The higher the score, the more efficient the home. Debbie & John Lang, 5941 SW 86 ST, SOUTH MIAMI, FL, 33143- 1 New construction or existing Addition _ 12 Cooling systems 2 Single family or multi - family Single family _ a Central Unit 3. Number of units, if multi - family I _ 4. Number of Bedrooms 4 _ b Central Unit 5 Is this a worst case" No _ 6 Conditioned floor area (ft') 2390 ft2 c N/A 7 Glass area & type Single Pane Double Pane a. Clear - single pane 456 9 W 0 0 ft' _ 13 Heating systems b Clear - double pane 0 0 R2 0 0 ft2 _ a Electric Strip c Tint/other SHGC - single pane 0 0 ft2 0 0 ft2 _ d Tint /other SHGC - double pane b Electric Strip 8 Floor types a Slab -On -Grade Edge insulation R =0 0, 269 0(p) ft _ c N/A b N/A _ c. N/A 14 Hot water systems 9 Wall types _ a Electric Resistance a Concrete, int insul, Earerior R =4 1, 1515 0 ft2 _ b Frame, Steel, Exterior R =1 1 0, 140 0 ft2 _ b Electric Resistance c N/A _ d N/A _ c Conservation credits e N/A (HR -Heat recover)r, Solar 10 Ceiling types _ DHP- Dedicated heat pump) a Under Attic R =19 0, 2390 0 ft2 _ 15 HVAC credits b N/A _ (CF- Ceiling fan, CV -Cross ventilation, c N/A HF -Whole house fan, 1 I Ducts _ PT- Promaminable Thermostat, a Sup. Unc. Ret Con AH Garage Sup. R =6 0, 25 0 ft _ MZ- C- Multizone cooling, b Sup Unc Ret Con AH Interior Sup R =6.0. 25 Oft MZ- H- Multizone heating) I certify that thus home has complied With the Florida Energy Efficiency Code For Building Construction through the above energy saving features which will be installed (or exceeded) in this home before final inspection Otherwise, a new EPL Display Card Will be completed based on installed Code compliant features Buildei Signature Address of New Home Date City/FL Zip Cap- 28 6 kBtu /hr _ SEER 12 00 _ Cap: 35 6 k-Btu/hr _ SEER 12 00 Cap 17 0 kBtu/hr COP 1 00 _ Cap 17 0 kBtu /hr COP 1 00 Cap 4 0 gallons _ EF 0 90 _ Cap 3 0 gallons _ EF 0 90 _ CF, _ y`'Pyp4 THE ST,gl�O.n ;e "QDN'E ^-MOTE The home's estimated enetgt% perf0r n7c177ce score is 077h, available through the FLARES computer program Tlits is not a Buildn7g Ener oi% Rat17ng. If i -0117• score is 80 or greater (or 86,for a US EPA /DOE Enei-;vStai r" clesrgnatioi7), i -our home mau gttahfy for energy l efficienci, mortgage (EEhf) 177centi1/es if roit obtan7 a Florida Ernergr Gauge Rating C077tact the E77eigr Gauge Hotline at 3211638 -1492 or see the Enetgr Gauge iveb site at invii -•fsec uc-f edu for• information and a list of certified Raters For in 7777an017 about Florida's Enerai- E1ficienci, Code For Burld177g C017str•1101017, contact the Depai MW771 of Communiti, Affairs at 8501487 -1824 EnerRyGauge a (Version FLRCPB v3 30) Summary Energy Code Results Residential Whole Building Performance Method A Debbie & John Lang Project Title Code Only 5941 SW 86 ST. LANG RES ADD. & REM Professional Version SOUTH MIAMI, FL 33143- Climate South 10/27/2004 PASS e- Ratio: 0.96 EnergyGauge®(Version FLRCPB v3 30) Building Loads Base As -Built Summer: 64850 points Summer: 71253 points Winter: 1601 points Winter: 3958 points Hot Water: 8339 points Hot Water: 8339 points Total: 74790 points I Total: 83550 points PASS e- Ratio: 0.96 EnergyGauge®(Version FLRCPB v3 30) Energy Use Base As -Built Cooling: 27665 points Cooling: 22715 points Heating: 1004 points Heating: 4664 points Hot Water: 9476 points Hot Water: 9265 points Total: 38146 points Total: 36644 points PASS e- Ratio: 0.96 EnergyGauge®(Version FLRCPB v3 30) System Sizing Calculations o Winter Residential Load - Component Details Debbie & John Lang Project Title: Code Only 5941 SW 86 ST LANG RES ADD & REM Professional Version SOUTH MIAMI, FL 33143- Climate- South Reference City. Miami (Defaults) Winter Temperature Difference 23 0 F 10/27/2004 Window Panes /SHGC /Frame /U Orientation Area X HTM= Load 1 1, Clear, Metal, 1.00 N 33.3 23.0 767 Btuh 2 1, Clear, Metal, 1.00 N 53.3 230 1227 Btuh 3 1, Clear, Metal, 1.00 W 35.0 23.0 805 Btuh 4 1, Clear, Metal, 1 00 N 700 23.0 1610 Btuh 5 1, Clear, Metal, 1 00 E 35.0 230 805 Btuh 6 1, Clear, Metal, 1 00 N 333 23.0 767 Btuh 7 1, Clear, Metal, 1 00 S 450 230 1035 Btuh 8 1, Clear, Metal, 1.00 S 360 23.0 828 Btuh 9 1, Clear, Metal, 1.00 S 11.3 230 259 Btuh 10 1, Clear, Metal, 1.00 W 22.5 23.0 518 Btuh 11 1, Clear, Metal, 1.00 W 15.0 23.0 345 Btuh 12 1, Clear, Metal, 1.00 E 26.7 23.0 613 Btuh 13 1, Clear, Metal, 1 00 E 18.0 230 414 Btuh 14 1, Clear, Metal, 1.00 E 225 230 518 Btuh Window Total 457 10509 Btuh Walls Type R -Value Area X HTM= Load 1 Concrete - Exterior 41 1515 48 7272 Btuh 2 Frame - Exterior 11 0 140 21 294 Btuh Wall Total 1655 7566 Btuh Doors Type Area X HTM= Load 1 Wood - Exter 20 10.6 212 Btuh 2 Insulated - Adjac 20 94 188 Btuh Door Total 40 40013tuh Ceilings Type R -Value Area X HTM= Load 1 Under Attic 190 2390 1 2 2868 Btuh Ceiling Total 2390 286813tuh Floors Type R -Value Size X HTM= Load 1 Slab -On -Grade Edge Insul 0 269 0 ft(p) 186 5003 Btuh Floor Total 269 5003 Btuh Infiltration Type ACH X Building Volume CFM= Load Natural 040 19120(sgft) 128 3231 Btuh Mechanical 200 5060 Btuh Infiltration Total 328 8291 Btuh EnergyGauge® FLRCPB v3 30 Subtotal 34637 Btuh Totals for Heating Duct Loss(using duct multiplier of 0.05) 1732 Btuh Total Btuh Loss 36369 Btuh EnergyGauge® FLRCPB v3 30 Manual J Winter Calculations Residential Load - Component Details (continued) Debbie & John Lang Project Title. Code Only 5941 SW 86 ST LANG RES ADD & REM Professional Version SOUTH MIAMI, FL 33143- Climate. South 10/27/2004 Key Window types (SHGC - Shading coefficient of glass as SHGC numerical value or as clear or tint) (Frame types - metal, wood or insulated metal) (U - Window U- Factor or'DEF' for default) (HTM - ManualJ Heat Transfer Multiplier) Key: Floor size (penmeter(p) for slab -on -grade or area for all other floor types ) EnergyGauge® FLRCPB Q 30 System sizing Calculations - summer Residential Load - Component Details Debbie & John Lang Project Title. Code Only 5941 SW 86 ST LANG RES. ADD. & REM Professional Version SOUTH MIAMI, FL 33143- Climate South Reference City. Miami (Defaults) Summer Temperature Difference. 15.0 F 10/27/2004 Internal Occupants Btuh /occupant Appliance Load gain 1 8 X 300 + 1400 3800 Btuh EnergyGauge® FLRCPB v3 30 Type Overhang Window Area(sqft) HTM Load Window Panes /SHGC /U /InSh /ExShOrnt Len Hat Gross Shaded Unshaded Shaded Unshaded 1 1, Clear, 1 00, N, N N 2 7 333 00 333 27 27 900 Btuh 2 1, Clear, 1 00, N, N N 8 4 5 533 00 533 27 27 1440 Btuh 3 1, Clear, 1 00, N, N W 15 7 350 350 0 0 27 85 945 Btuh 4 1, Clear, 1 00, N, N N 8 7 700 00 700 27 27 1890 Btuh 5 1, Clear, 1 00, N, N E 15 7 350 350 0 0 27 85 945 Btuh 6 1, Clear, 1 00, N, N N 2 75 333 00 333 27 27 900 Btuh 7 1, Clear, 1.00, N, N S 4 5 5 450 225 22.5 27 44 1598 Btuh 8 1, Clear, 1 00, N, N S 2 6 360 180 180 27 44 1278 Btuh 9 1, Clear, 1 00, N, N S 2 6 11 3 11 3 0 0 27 44 304 Btuh 10 1, Clear, 1.00, N, N W 2 625 225 0 9 21 6 27 85 1859 Btuh 11 1, Clear, 1 00, N, N W 2 6 150 00 150 27 85 1275 Btuh 12 1, Clear, 1 00, N, N E 2 5.25 267 27 239 27 85 2108 Btuh 13 1, Clear, 1 00, N, N E 2 675 180 00 180 27 85 1530 Btuh 14 1, Clear, 1 00, N, N E 2 625 225 0 9 21 6 27 85 1859 Btuh Window Total 1 1 457 18830 Btuh Walls Type R -Value Area HTM Load 1 Concrete - Exterior 41 15150 32 4860 Btuh 2 Frame - Exterior 11 0 1400 20 280 Btuh Wall Total 16550 5140 Btuh Doors Type Area HTM Load 1 Wood - Exter 200 104 208 Btuh 2 Insulated - Adjac 200 106 212 Btuh Door Total 400 420 Btuh Ceilings Type /Color R -Value Area HTM Load 1 Under Attic /Light 190 2390.0 1 9 4541 Btuh Ceilinq Total 2390.0 4541 Btuh Floors Type R -Value Size HTM Load 1 Slab -On -Grade Edge Insulation 00 269 0 ft(p) 00 0 Btuh Floor Total 2690 0 Btuh Infiltration Type ACH Volume CFM= Load Natural 035 19120 111 8 1844 Btuh Mechanical 200 3300 Btuh Infiltration Total 312 1 5144 Btuh Internal Occupants Btuh /occupant Appliance Load gain 1 8 X 300 + 1400 3800 Btuh EnergyGauge® FLRCPB v3 30 Manual J Summer Calculations Residential Load - Component Details (continued) Debbie & John Lang Project Title: Code Only 5941 SW 86 ST LANG RES ADD & REM Professional Version SOUTH MIAMI, FL 33143- Climate- South 10/27/2004 Subtotal 37875 Btuh Duct gain(using duct multiplier of 0.10) 3788 Btuh Total sensible gain 41663 Btuh Totals for Cooling Latent infiltration gain (for 56 gr. humidity difference) 11872 Btuh Latent occupant gain (8 people @ 230 Btuh per person) 1840 Btuh Latent other gain 0 Btuh TOTAL GAIN 55375 Btuh Key Window types (SHGC - Shading coefficient of glass as SHGC numerical value or as clear or tint) (U - Window U- Factor or'DEF for default) (InSh - Interior shading device none(N), Blinds /Dapenes(B) or Roller Shades(R)) (ExSh - Exterior shading device none(N) or numerical value) (Omt - compass orientation) EnergyGauge® FLRCPB v3 30 Residential System Sizing Calculation Summary Debbie & John Lang Project Title: Code Only 5941 SW 86 ST. LANG RES ADD. & REM Professional Version SOUTH MIAMI, FL 33143- Climate South Location for weather data: Miami - Defaults: Latitude(25) Temp Range(L) Load Humidity data- Interior RH 50% Outdoor wet bulb 77F Humidity difference 56 r 457 sqft Winter design temperature 47 F Summer design temperature 90 F Winter setpoint 70 F Summer setpoint 75 F Winter temperature difference 23 F Summer temperature difference 15 F Total heating load calculation 36369 Btuh I Total cooling load calculation 55375 Btuh Submitted heating capacity % of calc Btuh Submitted cooling capacity % of calc Btuh Total (Electric Strip) 935 34000 Sensible (SHR = 0 7) 107.9 44940 Btuh TOTAL HEAT LOSS 11872 Latent 1405 19260 1840 Btuh Total latent gain Total 1159 64200 WINTER CALCULATIONS Winter Heatina Load (for 2390 soft) Load component Load Load Window total Window total 457 sqft 10509 Btuh Wall total 1655 sqft 7566 Btuh Door total 40 sqft 400 Btuh Ceiling total 2390 sqft 2868 Btuh Floor total 269 ft 5003 Btuh Infiltration 328 cfm 8291 Btuh Subtotal Duct gain 34637 Btuh Duct loss 41663 1732 Btuh TOTAL HEAT LOSS 11872 Btuh 36369 Btuh In/d (23r. Doers(, p) Floors(1 Ducts(5%) Walls(21 %) SUMMED CALCULATIONS Summer Cooling Load (for 2390 soft) Load component Load Window total 457 sqft 18830 Btuh Wall total 1655 sqft 5140 Btuh Door total 40 sqft 420 Btuh Ceiling total 2390 sqft 4541 Btuh Floor total 0 Btuh Infiltration 312 cfm 5144 Btuh Internal gain 3800 Btuh Subtotal(sensible) 37875 Btuh Duct gain 3788 Btuh Total sensible gain 41663 Btuh Latent gain(Infiltration) 11872 Btuh Latent gain(internal) 1840 Btuh Total latent gain 13712 Btuh TOTAL HEAT GAIN 55375 Btuh L,d-d mtll (2 In: e—(756) Duds(i Latent lnlernalf3 0) Jows(29 %) Indo- s(34 %) s(8 e) Doors(t %) wansr9 %) EnergyGaugeD System S based on ACCA Manual J PREPARED BY DATE EnergyGauge® FLRCPB v3 30 t FORM 60OA -2001 FLORIDA ENERGY EFFICIENCY CODE FOR BUILDING CONSTRUCTION Florida Department of Community Affairs Residential Whole Building Performance Method A F'-o)ect Name: LANG RES. ADD. & REM. Builder: Address: 5941 SW 86 ST. Permitting Office DADE City, State- SOUTH MIAMI, FL 33143- Permit Number Owner Debbie & John Lang Jurisdiction Number 233300 Climate Zone- South I. New construction or existing Addition _ 2 Single family or multi - family Single family T 3 Number of units, if multi - family 1 4 Number of Bedrooms 4 5. Is this a worst case9 No 6 Conditioned floor area (ft') Ii 2390 ft' �+ 7 Glass area & type Single Pane Double Pane a Clear glass, default U- factor 456 9 ft' 0 0 ft7 _ b Default tint 0 0 ft' 0 0 ft' c Labeled U or SHGC 0 0 ft' 0 0 ft' 8. Floor types a Slab -On -Grade Edge Insulation R =0 0, 269 0(p) ft _ b N/A _ c N/A 9 Wall types a Concrete, Int Insul, Exterior R =4.1', 1515 0 ft' b Frame, Steel, Exterior R I 1 ' , 140 0 ft' c N/A d N/A e N/A 10 Ceiling types _ a Under Attic R =19 0, 2390 0 ft= _ b N/A _ c N/A II Ducts _ a Sup Unc Ret Con AH Garage Sup R =6 0, 25 -0 ft _ b. Sup- Unc. Ret Con AH• Interior Sup R =6 0, 25 0 ft �r r 12 Cooling systems a Central Unit Cap 28.6 kBtu /hr SEER 12 00 _ b Central Unit Cap- 35 6 kBtu /hr,'_ SEER 12 00 _ c N/A 13 Heating systems a Electric Strip Cap 17 0 kBtu /hr _ COP 100 _ b Electric Strip Cap 17 0 kBtu /hr _ COP 1 00 _ c N/A 14 Hot water systems a Electric Resistance b Electric Resistance c Conservation credits (HR -Heat recovery, Solar DHP- Dedicated heat pump) 15. HVAC credits (CF- Ceiling fan. CV -Cross ventilation, HF -Whole house fan, PT- Programmable Thermostat, MZ- C- Multizone cooling, MZ- H- Multizone heating) Glass /Floor Area- 0 19 Total as -built points: 36644 PASS Total base points: 38146 I hereby certify that the plans and specifications covered by this calculation are in compliance with the Florida Energy Code P A J00 REPARED BY: (444.*0WO DATE: I hereby certify that this buildin4, �s designed, is in compliance with the Florida Ener y de OWNER /AGENT: DATE: Review of the plans and specifications covered by this calculation indicates compliance with the Florida Energy Code Before construction is completed this building will be Inspected for compliance with Section 553 908 Florida Statutes BUILDING OFFICIAL: DATE: EnergyGauge® (Version- FLRCPB v3 30) Cap 4 0 gallons EF 0-- _ Cap 3 0 gallons EF 0 90 CF, _ 4IHE ST,gl'o� nur xw �z r � FORM 60OA -2001 SUMMER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS: 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT # - EnergyGauge® DCA Form 60OA -2001 EnergyGauge5/FlaRES'2001 FLRCPB v3 30 BASE AS- BUILD' GLASS TYPES 18 X Conditioned X BSPM = Points Overhang Floor Area Type /SC Ornt Len Hgt Area X SPM X SOF = Points 18 2390.0 32.50 13981.5 Single, Clear N 20 70 333 3646 092 11237 Single, Clear N 80 45 533 3646 064 12526 Single, Clear W 150 70 350 7053 043 1071 5 Single, Clear N 80 70 700 3646 _ 070 17837 Single, Clear E 150 7.0 350 7871 039 10826 Single, Clear N 20 75 333 3646 093 11340 Single, Clear S 40 55 450 6693 058 17358 Single, Clear S 20 6.0 360 6693 079 19149 Single, Clear S 20 60 11 3 6693 0.79 5984 Single, Clear W 20 63 225 7053 087 13785 Single, Clear W 20 60 150 7053 086 908.8 Single, Clear E 20 53 267 7871 082 17255 Single, Clear E 20 68 180 7871 088 1253.2 Single, Clear E 20 63 225 7871 087 15352 As -Built Total: 456.9 18498.5 WALL TYPES Area X BSPM = Points Type R -Value Area X SPM = Points Adjacent 00 000 0.0 Concrete, Int Insul, Exterior 41 15150 232 35072 Exterior 16550 270 44685 Frame, Steel, Exterior 11 0 1400 420 5880 Base Total: 1655.0 4468.5 As -Built Total: 16550 4095.2 DOOR TYPES Area X BSPM = Points Type Area X SPM = Points Adjacent 200 260 520 Exterior Wood 200 940 1880 Exterior 200 640 1280 Adjacent Insulated 200 260 520 Base Total: 40.0 180.0 As -Built Total: 40.0 240.0 CEILING TYPES Area X BSPM = Points Type R -Value Area X SPM X SCM = Points Under Attic 23900 280 66920 Under Attic 190 2390 0 3 72 X 1 00 88908 Base Total: 2390.0 6692.0 As -Built Total- 2390.0 8890.8 FLOOR TYPES Area X BSPM = Points Type R -Value Area X SPM = Points Slab 269 0(p) -200 -53800 Slab -On -Grade Edge Insulation 0 0 269 0(p -2000 -53800 Raised 00 000 00 Base Total: - 5380.0 1 As -Built Total: 269 0 - 5380.0 EnergyGauge® DCA Form 60OA -2001 EnergyGauge5/FlaRES'2001 FLRCPB v3 30 FORM 60OA -2001 SUMMER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS- 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT # - BASE AS -BUILT INFILTRATION Area X BSPM = Points Area X SPM = Points 23900 1879 449081 23900 18.79 449081 Summer Base Points: 64850.1 Summer As -Built Points: 71252.6 Total Summer X System = Cooling Total X Cap X Duct X System X Credit = Cooling Points Multiplier Points Component Ratio Multiplier Multiplier Multiplier Points (DM x DSM x AHU) 712526 0 445 (1 067 x 1 165 x 1.00) 0 284 0 950 101191 712526 0 555 (1 067 x 1 165 x 0 90) 0.284 0 950 125958 64850.1 0.4266 27665.1 71252.6 1.00 1.181 0.284 0.950 22714.9 EnergyGaugelm DCA Form 60OA -2001 EnergyGauge® /FlaRES'2001 FLRCPB v3 30 FORM 60OA -2001 WINTER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS. 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT # EnergyGauge® DCA Form 60OA -2001 EnergyGauge® /FlaRES'2001 FLRCPB v3.30 BASE AS -BUILT GLASS TYPES 18 X Conditioned X BWPM = Points Overhang Floor Area Type /SC Ornt Len Hgt Area X WPM X WOF = Points 18 23900 2.36 1015.3 Single, Clear N 20 70 333 603 099 1991 Single, Clear N 80 45 533 603 095 3072 Single, Clear W 150 70 350 549 1 03 1984 Single, Clear N 80 70 700 603 096 4067 Single, Clear E 150 70 350 477 1 24 2069 Single, Clear N 20 75 333 603 099 1993 Single, Clear S 40 55 450 449 1 24 251 7 Single, Clear S 20 60 360 449 1.05 1698 Single, Clear S 20 6.0 11 3 449 1 05 531 Single, Clear W 20 63 225 549 1 00 1236 Single, Clear W 20 60 150 549 1 00 824 Single, Clear E 20 53 267 477 1 03 131 6 Single, Clear E 20 68 180 477 1 03 881 Single, Clear E 20 63 225 477 1 03 1104 As -Built Total 456.9 2528.1 WALL TYPES Area X BWPM = Points Type R -Value Area X WPM = Points Adjacent 00 000 0.0 Concrete, Int Insul, Exterior 41 15150 103 15680 Exterior 16550 060 9930 Frame, Steel, Exterior 11 0 1400 1 10 1540 Base Total- 1655.0 993.0 As -Built Total 16550 1722.0 DOOR TYPES Area X BWPM = Points Type Area X WPM = Points Adjacent 200 1 30 260 Exterior Wood 200 280 560 Exterior 200 1 80 360 Adjacent Insulated 200 1 30 260 Base Total: 40.0 62.0 As -Built Total: 400 82.0 CEILING TYPES Area X BWPM = Points Type R -Value Area X WPM X WCM = Points Under Attic 23900 0 10 2390 Under Attic 190 23900 0 14 X 1 00 3346 Base Total. 2390.0 239.0 As -Built Total 2390.0 334.6 FLOOR TYPES Area X BWPM = Points Type R -Value Area X WPM = Points Slab 269 0(p) -21 -5649 Slab -On -Grade Edge Insulation 0 0 269 0(p -210 -5649 Raised 00 000 00 Base Total: -564.9 1 As -Built Total: 269.0 -56491 EnergyGauge® DCA Form 60OA -2001 EnergyGauge® /FlaRES'2001 FLRCPB v3.30 FORM 60OA -2001 WINTER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS. 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT # EnergyGaugeTM' DCA Form 60OA -2001 EnergyGauge® /FIaRES'2001 FLRCPB v3 30 BASE AS -BUILT INFILTRATION Area X BWPM = Points Area X WPM = Points 23900 -006 -1434 23900 -006 -1434 Winter Base Points: 1601.0 Winter As -Built Points: 3958.4 Total Winter X System = Heating Total X Cap X Duct X System X Credit = Heating Points Multiplier Points Component Ratio Multiplier Multiplier Multlpher Points (DM x DSM x AHU) 39584 0 500 (1 085 x 1.137 x 1 00) 1.000 1 000 2331 8 39584 0 500 (1 085 x 1 137 x 0 91) 1 000 1 000 2331 8 1601.0 0.6274 1004.4 3958.4 1.00 1.178 1.000 1.000 4663.6 EnergyGaugeTM' DCA Form 60OA -2001 EnergyGauge® /FIaRES'2001 FLRCPB v3 30 FORM 60OA -2001 WATER HEATING & CODE COMPLIANCE STATUS Residential Whole Building Performance Method A - Details ADDRESS: 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT # BASE CODE COMPLIANCE STATUS AS -BUILT WATER HEATING AS -BUILT Cooling + Heating + Points Points Hot Water Points = Total Cooling Points Points + Heating + Hot Water = Total Points Points Points Number of X Multiplier = Total Tank EF Number of X Tank X Multiplier X Credit = Total Bedrooms Volume Bedrooms Ratio Multiplier 4 236900 94760 40 090 4 057 231636 1 00 52945 30 090 4 043 231636 1 00 39709 As -Built Total: 9265.4 E ST42�' N 1`z�6t) WE � EnergyGaugeTm DCA Form 60OA -2001 EnergyGaugeO /FlaRES'2001 FLRCPB v3 30 CODE COMPLIANCE STATUS BASE AS -BUILT Cooling + Heating + Points Points Hot Water Points = Total Cooling Points Points + Heating + Hot Water = Total Points Points Points 27665 1004 9476 38146 22715 4664 9265 36644 E ST42�' N 1`z�6t) WE � EnergyGaugeTm DCA Form 60OA -2001 EnergyGaugeO /FlaRES'2001 FLRCPB v3 30 FORM 60OA -2001 Code Compliance Checklist Residential Whole Building Performance Method A - Details ADDRESS 5941 SW 86 ST., SOUTH MIAMI, FL, 33143- PERMIT # 6A -21 INFILTRATION REDUCTION COMPLIANCE CHECKLIST COMPONENTS I SECTION REQUIREMENTS FOR EACH PRACTICE I CHECK Exterior Windows & Doors 606 1.ABC 1 1 Maximum .3 cfm1sq ft window area 5 cfm/sq ft door area. v Exterior & Adjacent Walls 606 1 ABC 1.2 1 Caulk, gasket, weatherstrip or seal between windows /doors & frames, surrounding wall, Swimming Pools & Spas 6121 foundation & wall sole or sill plate, joints between exterior wall panels at corners, utility ✓ penetrations, between wall panels & top /bottom plates, between walls and floor EXCEPTION Frame walls where a continuous infiltration barrier is installed that extends Shower heads 6121 from and is sealed to the foundation to the top plate Floors 606 1 ABC 1 2.2 Penetrations /openings >1/8" sealed unless backed by truss or joint members EXCEPTION- Frame floors where a continuous infiltration barrier is installed that is sealed to the perimeter, penetrations and seams. Ceilings 606 1 ABC 1 2 3 Between walls & ceilings, penetrations of ceiling plane of top floor, around shafts, chases, HVAC Controls 6071 soffits, chimneys, cabinets sealed to continuous air barrier; gaps in gyp board & top plate, Insulation 604 1, 602 1 attic access EXCEPTION Frame ceilings where a continuous infiltration barrier is ,/ installed that is sealed at the perimeter, at penetrations and seams Recessed Lighting Fixtures 606 1 ABC 1 2 4 Type IC rated with no penetrations, sealed, or Type IC or non -IC rated, installed inside a sealed box with 1/2" clearance & 3" from insulation, or Type IC rated with < 2 0 cfm from conditioned space, tested Multi-story Houses 606 1 ABC 1 2 5 Air barrier on perimeter of floor cavity between floors. �^ Additional Infiltration reqts 606 1 ABC 1 3 Exhaust fans vented to outdoors, dampers, combustion space heaters comply with NFPA, , / have combustion air V 6A -22 OTHER PRESCRIPTIVE MEASURES (must be met or exceeded by all residences.) COMPONENTS I SECTION REQUIREMENTS CHECK Water Heaters 6121 Comply vnth efficiency requirements in Table 6 -12. Switch or clearly marked circuit v breaker electric or cutoff (gas) must be provided. External or built -in heat trap required. Swimming Pools & Spas 6121 Spas & heated pools must have covers (except solar heated) Non - commercial pools �I must have a pump timer Gas spa & pool heaters must have a minimum thermal efficiency of 78% Shower heads 6121 Water flow must be restricted to no more than 2 5 qallons per minute at 80 PSIG Air Distribution Systems 6101 All ducts, fittings, mechanical equipment and plenum chambers shall be mechanically attached, sealed, insulated, and installed in accordance with the criteria of Section 610 Ducts in unconditioned attics R -6 min insulation HVAC Controls 6071 Separate readily accessible manual or automatic thermostat for each system Insulation 604 1, 602 1 Ceilings -Min R -19 Common walls -Frame R -11 or CBS R -3 both sides ,/ Common ceding & floors R -11 EnergyGaugeT',' DCA Form 60OA -2001 EnergyGauge® /FIaRES'2001 FLRCPB v3 30 ENERGY PERFORMANCE LEVEL (EPL) DISPLAY CARD ESTIMATED ENERGY • • , • SCORE* score, The higher the 1 home. Debbie & John Lang, 5941 SW 86 ST, SOUTH MIAMI, FL, 33143- 1 New construction or existing 2 Single family or multi - family 3 Number of units, if multi - family 4 Number of Bedrooms 5 Is this a worst case' 6 Conditioned floor area (ft' -) 7 Glass area & type a Clear - single pane b Clear - double pane c Tint/other SHGC - single pane d Tint /other SHGC - double pane 8 Floor types a. Slab -On -Grade Edge Insulation b N/A c. N/A 9 Wall types a. Concrete, Int Insul, Exterior b Frame, Steel, Exterior c. N/A d N/A e N/A 10 Ceiling types a. Under Attic b N/A c. N/A 11 Ducts a Sup Unc Ret' Con AH Garage b Sup Unc Ret• Con AH Interior Addition _ 12 Cooling systems Single family _ v 1 a Central Unit _ 4 _ b Central Unit No _ 2390 ft2 c N/A Single Pane Double Pane 456 9 ft= 0 0 W _ 13 Heating systems 0 0 W 0 0 ft-' _ a Electric Strip 0 0 ft2 0 0 ft2 _ b Electric Strip R =0 0, 269 0(p) ft _ c N/A 14 Hot water systems a Electric Resistance R =4 1, 1515 0 ft2 _ R =1 1 0, 140 0 ft2 _ b Electric Resistance _ c Conservation credits (HR -Heat recovery, Solar _ DHP- Dedicated heat pump) R =19 0, 2390 0 ft' _ 15 HVAC credits _ (CF- Ceiling fan, CV -Cross ventilation, HF -Whole house fan, PT- Programmable Thermostat, Sup R =6 0, 25 0 ft _ MZ- C- Multizone cooling, Sup R =6 0, 25 0 ft MZ- H- Multizone heating) I certify that this home has complied with the Florida Energy Efficiency Code For Building Construction through the above energy saving features which will be installed (or exceeded) in this home before final inspection Otherwise, a new EPL Display Card will be completed based on installed Code compliant features Builder Signature- Address of New Home: Date- City/FL Zip: Cap. 28 6 kBtu/hr _ SEER. 12 00 _ Cap- 35 6 kBtu /hr _ SEER 12 00 Cap. 17 0 kBtu /hr _ COP. 1 00 _ Cap- 17 0 kBtu /hr _ COP 1 00 _ Cap 4 0 gallons _ EF 0 90 _ Cap 3 0 gallons EF 0 90 _ CF, �y04 IHE S?42 ' � LU r .lMCOD Wr'���� -1 I ATOTE The home's estimated energ; , perfor-mance scot e is onli, available through the FLARES computer program This is nor a Building Energ); Rating If your score is 80 or greater (or 86 for a US EPA /DOE Energy i,StarT'rclesrgnation), your home may giiahfi, for• energy efficiency mortgage (EEAl) incentives if you obtain a Florida Energy Gauge Raturg Contact the Energy Gauge Hotline at 3211638 -1492 or see the Ener , Gauge uveb site at rrrviv fsec ucf edu for - Information and a list of certified Raters For- information about Florida's Energ , Efficiency Code For Building Construction, contact the Department of Com1711177M, Affairs at 8501487 -1824. EnergyGauge® (Version FLRCPB v3 30) Summary Energy Code Results Residential Whole Building Performance Method A Debbie & John Lang Project Title Code Only 5941 SW 86 ST. LANG RES ADD & REM Professional Version SOUTH MIAMI, FL 33143- Climate South 10/27/2004 PASS e- Ratio: 0.96 EnergyGauge®(Version FLRCPB v3 30) Building Loads Base As -Built Summer: 64850 points Summer: 71253 points Winter: 1601 points Winter: 3958 points Hot Water: 8339 points Hot Water: 8339 points Total: 74790 points Total: 83550 points PASS e- Ratio: 0.96 EnergyGauge®(Version FLRCPB v3 30) Energy Use Base As -Built Cooling: 27665 points Cooling: 22715 points Heating: 1004 points Heating: 4664 points Hot Water: 9476 points Hot Water: 9265 points Total: 38146 points Total: 36644 points PASS e- Ratio: 0.96 EnergyGauge®(Version FLRCPB v3 30) System Sizing Calculations e Winter Residential Load - Component Details Debbie & John Lang Project Title. Code Only 5941 SW 86 ST LANG RES. ADD. & REM. Professional Version SOUTH MIAMI, FL 33143- Climate South Reference City. Miami (Defaults) Winter Temperature Difference- 23 0 F 10/27/2004 Window Panes /SHGC /Frame /U Orientation Area X HTM= Load 1 1, Clear, Metal, 1 00 N 333 230 767 Btuh 2 1, Clear, Metal, 1.00 N 53.3 23.0 1227 Btuh 3 1, Clear, Metal, 1.00 W 35.0 23.0 805 Btuh 4 1, Clear, Metal, 1.00 N 700 23.0 1610 Btuh 5 1, Clear, Metal, 1 00 E 350 230 805 Btuh 6 1, Clear, Metal, 1.00 N 33.3 230 767 Btuh 7 1, Clear, Metal, 1.00 S d5 0 230 1035 Btuh 8 1, Clear, Metal, 1.00 S 360 230 828 Btuh 9 1, Clear, Metal, 1 00 S 11.3 230 259 Btuh 10 1, Clear, Metal, 1 00 W 225 23.0 518 Btuh 11 1, Clear, Metal, 1 00 W 150 230 345 Btuh 12 1, Clear, Metal, 1 00 E 267 230 613 Btuh 13 1, Clear, Metal, 1 00 E 180 23.0 414 Btuh 14 1, Clear, Metal, 1 00 E 225 23.0 518 Btuh Window Total 457 10509 Btuh Walls Type R -Value Area X HTM= Load 1 Concrete - Exterior 41 1515 48 7272 Btuh 2 Frame - Exterior 11.0 140 2.1 294 Btuh Wall Total 1655 7566 Btuh Doors Type Area X HTM= Load 1 Wood - Exter 20 106 212 Btuh 2 Insulated - Adjac 20 94 188 Btuh Door Total 40 400Btuh Ceilings Type R -Value Area X HTM= Load 1 Under Attic 190 2390 1.2 2868 Btuh Ceiling Total 2390 286813tuh Floors Type R -Value Size X HTM= Load 1 Slab -On -Grade Edge Insul 0 269 0 ft(p) 186 5003 Btuh Floor Total 269 5003 Btuh Infiltration Type ACH X Building Volume CFM= Load Natural 040 19120(sgft) 128 3231 Btuh Mechanical 200 5060 Btuh Infiltration Total 328 8291 Btuh EnergyGauge® FLRCPB Q 30 Subtotal 34637 Btuh Totals for Heating Duct Loss(using duct multiplier of 0.05) 1732 Btuh Total Btuh Loss 36369 Btuh EnergyGauge® FLRCPB Q 30 Manual J Winter Calcu'lati®ns Residential Load - Component Details (continued) Debbie & John Lang Project Title Code Only 5941 SW 86 ST. LANG RES ADD & REM. Professional Version SOUTH MIAMI, FL 33143- Climate South 10/27/2004 -Key. Window types (SHGC - Shading coefficient of glass as SHGC numerical value or as clear or tint) (Frame types - metal, wood or insulated metal) (U - Window U- Factor or'DEF' for default) (HTM - ManualJ Heat Transfer Multiplier) Key. Floor size (penmeter(p) for slab -on -grade or area for all other floor types ) EnergyGauge® FLRCPB v3 30 System sizing Calculations - Summer Residential Load - Component Details Debbie & John Lang Project Title Code Only 5941 SW 86 ST. LANG RES ADD & REM. Professional Version SOUTH MIAMI, FL 33143- Climate South Reference City Miami (Defaults) Summer Temperature Difference 15 0 F 10/27/2004 Internal Occupants Btuh /occupant Appliance Load gain 1 8 X 300 + 1400 1 3800 Btuh EnergyGauge® FLRCPB v3 30 Type Overhang Window Area(sqft) HTM Load Window Panes /SHGC /U /InSh /ExShOrnt Len Hot Gross Shaded Unshaded Shaded Unshaded 1 1, Clear, 1 00, N, N N 2 7 333 00 333 27 27 900 Btuh 2 1, Clear, 1 00, N, N N 8 4 5 533 00 533 27 27 1440 Btuh 3 1, Clear, 1 00, N. N W 15 7 350 350 00 27 85 945 Btuh 4 1, Clear, 1.00, N. N N 8 7 700 00 700 27 27 1890 Btuh 5 1, Clear, 1 00, N, N E 15 7 350 350 0 0 27 85 945 Btuh 6 1, Clear, 1 00, N, N N 2 75 333 00 333 27 27 900 Btuh 7 1, Clear, 1 00, N, N S 4 55 450 225 225 27 44 1598 Stuh 8 1, Clear, 1.00, N, N S 2 6 360 180 180 27 44 1278 Stuh 9 1, Clear, 1 00, N, N S 2 6 11 3 11 3 0 0 27 44 304 Stuh 10 1, Clear, 1.00, N. N W 2 625 225 0 9 21 6 27 85 1859 Btuh 11 1, Clear, 1 00, N. N W 2 6 150 00 150 27 85 1275 Btuh 12 1, Clear, 1.00, N, N E 2 525 267 27 239 27 85 2108 Btuh 13 1, Clear, 1 00, N, N E 2 675 180 00 180 27 85 1530 Btuh 14 1, Clear, 1 00, N, N E 2 625 225 0 9 21 6 27 85 1859 Btuh Window Total 457 18830 Btuh Walls Type R -Value Area HTM Load 1 Concrete - Exterior 41 15150 32 4860 Btuh 2 Frame - Exterior 11 0 1400 2 0 280 Btuh Wall Total 16550 5140 Btuh Doors Type Area HTM Load 1 Wood - Exter 200 104 208 Btuh 2 Insulated - Adtac 200 106 212 Btuh Door Total 400 420 Btuh Ceilings Type /Color R -Value Area HTM Load 1 Under Attic /Light 190 23900 1 9 4541 Btuh Ceiling Total 23900 4541 Btuh Floors Type R -Value Size HTM Load 1 Slab -On -Grade Edge Insulation 0 0 269 0 ft(p) 0 0 0 Btuh Floor Total 269.0 0 Btuh Infiltration Type ACH Volume CFM= Load Natural 035 19120 111 8 1844 Btuh Mechanical 200 3300 Btuh Infiltration Total 312 5144 Btuh Internal Occupants Btuh /occupant Appliance Load gain 1 8 X 300 + 1400 1 3800 Btuh EnergyGauge® FLRCPB v3 30 Manual J Summer Calculations Residential Load - Component Details (continued) 1 Debbie & John Lang Project Title Code Only 5941 SW 86 ST. LANG RES ADD & REM Professional Version 'SOUTH MIAMI, FL 33143- Climate South 10/27/2004 Subtotal 37875 Btuh Duct gain(using duct multiplier of 0.10) 3788 Btuh Total sensible gain 41663 Btuh Totals for Cooling Latent infiltration gain (for 56 gr. humidity difference) 11872 Btuh Latent occupant gain (8 people @ 230 Btuh per person) 1840 Btuh Latent other gain 0 Btuh TOTAL GAIN 55375 Btuh Key- Window types (SHGC - Shading coefficient of glass as SHGC numerical value or as clear or tint) (U - Window U- Factor or 'DEF' for default) (InSh - Interior shading device. none(N), Blinds /Dapenes(B) or Roller Shades(R)) (ExSh - Exterior shading device none(N) or numerical value) (Omt - compass orientation) EnergyGauge® FLRCPB v3 30 rf Residential System Sizing Calculati ®n Summary Debbie & John Lang Project Title Code Only 5941 SW 86 ST. LANG RES ADD & REM. Professional Version 'SOUTH MIAMI, FL 33143- Climate South -1 rN1')771)nfNA Location for weather data. Miami - Defaults. Latitude(25) Temp Range(L) Load Humidity data, Interior RH 50% Outdoor wet bulb 77F Humidity difference 56 r. sqft 10509 Winter design temperature 47 F Summer design temperature 90 F Winter setpoint 70 F Summer setpoint 75 F Winter temperature difference 23 F Summer temperature difference 15 F Total heating load calculation 36369 Btuh Total cooling load calculation 55375 Btuh Submitted heating capacity % of calc Btuh Submitted cooling capacity % of calc Btuh Total (Electric Strip) 935 34000 Sensible (SHR = 0 7) 107.9 44940 TOTAL HEAT LOSS tuh Latent 1405 19260 Btuh Total latent gain Total 1159 64200 WINTER CALCULATIONS Winter Heatina Load (for 2390 soft) Load component Load Load Window total Window total 457 sqft 10509 Btuh Wall total 1655 sqft 7566 Btuh Door total 40 sqft 400 Btuh Ceiling total 2390 sqft 2868 Btuh Floor total 269 ft 5003 Btuh Infiltration 328 cfm 8291 Btuh Subtotal Duct gain 34637 Btuh Duct loss 41663 1732 Btuh TOTAL HEAT LOSS tuh 1 36369 Btuh Ducts(5°.e) Vvmdows(29%) Isla (23%) Doors(, %) M� Cerlmgs(e'.5) Floor5C1446) �j'.'a ,1e i - ,�yF- Vval6^.(21 se) SUIVIIIIIIER CALCULATIONS Summer Cnnhnn I nod (fnr ?39(1 snftl Load component Load Window total 457 sqft 18830 Btuh Wall total 1655 sqft 5140 Btuh Door total 40 sqft 420 Btuh Ceiling total 2390 sqft 4541 Btuh Floor total 0 Btuh Infiltration 312 cfm 5144 Btuh Internal gain 3800 Btuh Subtotal(sensible) 37875 Btuh Duct gain ----37-8-8 Btuh Total sensible gain 41663 Btuh Latent gain(infiltration) tuh Latent gain(internal) 1840 Btuh Total latent gain 13712 Btuh TOTAL HEAT GAIN 55375 Btuh Latent rt lee - 1(393 6) la tent ro / ta (-'1%) / >s! Int Garn(746) ra Drrctz(7 A) a r e Inbl EnergyGauge® gster Si PREPARED BY DATE EnergyGauge® FLRCPB v3 30 Wndo- s(34 %) a r ... on ACCA °Manual r LANG RESIDENCE -5941 SW 86 ST. SOUTH MIAMI, FLORIDA - STRUCTURAL CALCULATIONS Francisco Cuello, P.E., Inc. Consulting Engineers 147 ALHAMBRA CIRCLE, SUITE 220 CORAL GABLES, FL 33134 305.567.0125 PE No. 40087 '�• I. A • t li .rr \\1 FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer 7. } o- 6,1 JOB SHEET NO / CALCULATED BY SCALE OF _ G� DATE f �V � r r S I •) �`��•. r rat' �. U •, =- r /ot� �� `' �o•�azsL��a, a� -)C /• ��c' �yG 7C /•ate) � y�f 2, S 8 3 � 7,5tx& J T O 09C1,oz- . , -,. o • i8 -/- z3 i �& 38 e-,�Fo - (-d /*)) t.- -f-,50, �7 5'L ,?B -1 Z3 i - FRANCISCO CUELLO JR.,P.E.,INC. JOB Consulting Engineer ` OF SHEET NO ' CALCULATED BY DATE ORIGINAL SCALE LEGIBLE 1 � L G• / : I � /1 FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer JOB - SHEET NO - CALCULATED BY SCALE OF DATE ORIGINAL NOT LEGIBLE 57 7 -";7 \1W :,J-" , ,, ;, mt., 'I i i I 2 V > 57 7 -";7 \1W :,J-" , ,, ;, mt., 'I i i I FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer el T, 2 JOB SHEET NO CALCULATED BY SCALE OF DATE ORIGINAL NOT LEGIBLE / P FRANCISCO CUELLO JR.,P.E.,INC Consulting Engineer JOB SHEET NO CALCULATED BY SCALE Al OF - DATE ORIGINAL MOT LEG113LE z:j 14 X116,71 11-2 FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer JOB SHEET NO OF / CALCULATED BY DATEJP> f t SCALE �(,. �'= �•�s�:ra�� %O�L7J /D•4- -ef rz�x;r d > z X 3 %S7y"i LOQ�L;r A-ooYz� Log 17 f3 9i�f =� qSS U 8h /,Z /J C217 14V X �"l i/✓ G1 707";4- 4 a-9 Z) &/ C�JG .E z = c� V'17'11 ) ( 48•4,-7)'- r � 8• .J-r - /� � .� �fi `' �.:;, �',3� later t ,� '' ,Z /• !o l� i �Sx ' ?' /Jce 4, ) , /e ) = /9. 3-;7 10 a s 7. G`7 /,"? rr 1s�''s��'�/ /e" U7� �GVJ �! C__! �- -? .� �CJ• !!! s'/j 3 .°'Gl��L ci�'1G�+f%/� /j� �-- 10, 3ell FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer -V 1&44,11 5 JOB SHEET NO OF CALCULATED BY �2 DATE SCALE TA L 4-4" ec)o Lk 00'4 Ac /Z :v 1--7 41 e01:1ke Mj15 - 8o H DE - s i� �) ' 'tLS,' =>IL -7 5, 33 => S P- FRANCISCO CLIELLO JR.,P.E.,INC Consulting Engineer JOB SHEET NO CALCULATED BY -------- z-- SCALE 36 1,eh?a ==i> -Z 96 Ik 3,Q e2 5 e 4o a C2 - - "m n --us-, "VT p, r y.. - I - N --, -, - OF - DATE MASONRY -- Concrete Masonry Design System National Concrete Masonry Association Prtct LANG RESIDENCE Name CHRISTOPHER MOOREFIELD Topic MASONRY WALL REINFORCEMENT Date 9/10/04 Page g Chkd Design of a Reinforced Masonry Wall with Out -of -Plane Loads Using the 1999 MSJC ASD Design Code Material and Construction Data 8 in CMU, Partial grout, running bond Wall Weight = 41 psf (From Tables) Type S mortar Masonry cement / Air - entrained PCL Mortar, Coarse Grout CM Concrete Density = 115 pcf Unit Compressive Strength = 1900 psi f'm = 1500 psi (From Tables) Em = 900f1m = 1350000 psi Wall Design Details Thickness = 7 625 in Height = 86 in (Simply Supported Wall, Effective height = H) x =3813 in #5 Bars, Grade 60 Reinforcement Spacing = 48 in On- Center Wall Support Simply Supported Wall Specified Load Components Load P (lb) e (in) W1(psf) W2 (psf) L (in) h1 (in) h2 (in) Dead 300 0 0 0 0 0 86 Live 300 0 0 0 0 0 86 Soil 0 0 0 0 0 0 86 Fluid 0 0 0 0 0 0 86 Wind 0 0 654 654 0 0 86 Seismic 0 0 0 0 0 0 86 Roof 0 0 0 0 0 0 86 Rain 0 0 0 0 0 0 86 Snow 0 0 0 0 0 0 86 Controlling Load Cases Section Forces with Controlling Flexure and Axial Load - -D + W x/H = 0 530 from bottom of wall V = -14 061 lb/ft ML = 5020 3863 lb-in /ft P = 438 102 lb/ft at en = 0 in MT = ML + Pen = 5020 3863 lb-in/ft Moment Capacity = 10187 279 lb-in/ft (848 93989 lb-ft/ft) at this axial load Shear Capacity = 1049 5886 lb/ft The wall is adequate for these critical section forces Section Forces with Controlling Shearing Force - -D + L + Lr + S + R + W x/H = 0 000 from bottom of wall V = 234 35 lb/ft ML = 0 lb-in /ft P = 893 833 lb/ft at en = 0 in MT = ML + Pen = 0 lb-in/ft Moment Capacity = 11709 28 lb-in/ft at this axial load Shear Capacity = 1049 5886 lb/ft The wall is adequate for these critical section forces i These were found to be load cases that controlled the design i The flexural, shear and axial forces shown are those occuring at the critical section for the case controlled by flexure and at the critical section for the case controlled by shear The following design calculations are for the section with controlling bending moment Section Design Forces Used V = -14 061 lb/ft (Computed from Loads) ML = 5020 3863 lb-in /ft (Computed from Loads) P = 438 102 lb/ft at e = 0 in (Computed from Loads) Computed Design Values Note 1/3 stress increase was used �1 1 Effective Width = 48 in \A /ch NA/ldth = R Q1Z in on cffcrfwa iAnrlth ro Allowable Shearing Force = 1049 59 lb/ft The wall is adequate in shear Required As = 0 1206 m2 each reinforced cell (0 03014 in2 /ft) OK d =3813 in n =2148 kbalanced = 0 3092 tbalanced = 0 8969 k =01833 = 0 9389 Pmax (Compression) = 77058 9 Ibs (19264 7 Ibs /ft) OK Pmax (Tension) = 9920 Ibs (2480 Ibs /ft) OK i The wall has adequate capacity i I I FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer JOB SHEET NO CALCULATED BY _ SCALE �v OF DATE Sall, ,Silpc,-,� IZ4111V Za404 N„ P:1 CUST PA a 01�1.0 " 'r, , ._ v -- - • - - • I 1 11 . 12 0 MASONRY -- Concrete Masonry Design System National Concrete Masonry Association (� Prjct LANG RESIDENCE Name CHRISTOPHER MOOREFIELD J Topic MASONRY WALL REINFORCEMENT Date 9/10/04 Page i2 Chkd Design of a Reinforced Masonry Wall with Out -of -Plane Loads Using the 1999 MSJC ASD Design Code Material and Construction Data 8 in CMU, Partial grout, running bond Wall Weight = 44 7 psf (From Tables) Type S mortar Masonry cement / Air - entrained PCL Mortar, Coarse Grout CMU Concrete Density = 115 pcf Unit Compressive Strength = 1900 psi f'm = 1500 psi (From Tables) Em = 900f1m = 1350000 psi Wall Design Details Thickness = 7 625 in Height = 138 in (Simply Supported Wall, Effective height = H) x =3813 in #5 Bars, Grade 60 Reinforcement Spacing = 32 in On- Center Wall Support Simply Supported Wall Specified Load Components Load P (lb) e (in) W1 (psf) W2 (psf) L (n) h1 (in) h2 (in) Dead 0 0 0 0 0 0 138 Live 0 0 0 0 0 0 138 Soil 0 0 0 0 0 0 86 Fluid 0 0 0 0 0 0 86 Wind 0 0 654 654 0 0 138 Seismic 0 0 0 0 0 0 86 Roof 0 0 0 0 0 0 86 Rain 0 0 0 0 0 0 86 Snow 0 0 0 0 0 0 86 Controlling Load Cases Section Forces with Controlling Flexure and Axial Load - -D + L + Lr + S + R + W x/H = 0 520 from bottom of wall V = -15 042 lb/ft ML = 12952 967 lb-in /ft P = 246 744 lb/ft at en = 0 in jMT = ML + Pen = 12952 967 lb-in/ft Moment Capacity = 13671 825 lb-in/ft (1139 3187 lb-ft/ft) at this axial load Shear Capacity = 1187 0845 lb/ft The wall is adequate for these critical section forces Section Forces with Controlling Shearing Force - -D + L + Lr + S + R + W x/H = 0 000 from bottom of wall V = 376 05 lb/ft ML = 0 lb-in /ft P = 514 05 lb/ft at en = 0 in MT =M L + Pen = 0 lb-in/ft Moment Capacity = 14550 67 lb-in/ft at this axial load Shear Capacity = 1187 0845 lb/ft I The wall is adequate for these critical section forces These were found to be load cases that controlled the design The flexural, shear and axial forces shown are those occuring at the critical section for the case controlled by flexure and at the critical section for the case controlled by shear The following design calculations are for the section with controlling bending moment Section Design Forces Used V = -15 042 lb/ft (Computed from Loads) ML = 12952 967 lb-in /ft (Computed from Loads) P = 246 744 lb/ft at e = 0 in (Computed from Loads) Computed Design Values Note 1/3 stress increase was used Effective Width = 32 in %A/oh \A /idfh = R 414 in on cffcrfi% /O Mirffh I4 Allowable Shearing Force = 1187 08 lb/ft The wall is adequate in shear Required As = 0 2918 in2 each reinforced cell (0 1094 in2 /ft) OK d =3813 in n =2148 kbalanced = 0 3092 Jbalanced = 0 8969 k =02812 t = 0 9063 Pmax (Compression) = 52449 5 Ibs (19668 6 Ibs /ft) OK Pmax (Tension) = 9920 Ibs (3720 Ibs /ft) OK The wall has adequate capacity i5 FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer ---) 01 '-S ff-j 16, -7'- o /-<, 1qDf1'ckU4rr, I) ST- ", ni ", ", i SHEET NO CALCULATED BY SCALE V nF DATE FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer JOB +� �, k,4' (� SHEET NO __ OF CALCULATED BY DATE SCALE C� ✓GU i�� 4 pwol - _lam <�aCa� �l�ai —E2F 50 1 Ai i( z �T"c,��t'1 �:1� y� iM�u�vrA, -' :.�"'� - s'Cf�',_ �� r'r'�.+ � `7'• .'��> f =.� � y, "�5 i '°"� G� �1 • S a( 2.5 i1t;:- -.z 5 6---- FRANCISCO CUELLO JR.,P.E.,INC. JOB Consulting Engineer SHEET NO OF CALCULATED BY DATE SCALE ORIGINAL r moo _ LEGIBLE FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer JOB SHEET NO CALCULATED BY SCALE — 7Z_ 0 15 4e zo-L, 6:11 /,;�, 5 tlllfr. , / )� ;/ XPI 3 � n-- -- :f 4 OF — DATE BEAM ANALYSIS RIB-1 L (ft) SIZE - SPAN 292 W(in) H(in) 8 12 ROOF SPAN= - - ROOF D L = ROOF L L = ROOF= 590 1 (plf ) ROOF L L = BEAM= 100 (plf ) TOTAL D L = 690 1 (plf ) 19 67 (ft) q)= 0 9 fy= 60 ksi 30 (psf ) fc= 3 ksi 30 (psf ) d= 9 6875 (in ) 590 1 (plf ) KEY: TOTAL L L = 590 1 (plf ) < - -FILL IN INFORMATION Wu = 1 96931 (plf ) Mu = 1 679112 (kip -ft) (simply supported) REINF BAR No = 5 Mu /0fCbd ^2= 000994 BAR AREA= 0 31 in ^2 W= 0.011 As(required)= 0 042625 (in ^2) As(minimum)= 0 212242 (in ^2) No of #7 bars= 0 139006 = 2 bars SHEAR REINFORCING Vu= 1 478193 kips Vc= 7.216245 Vc /2= 3 6081 kips NEED SHEAR REINF? = FALSE SPACING= 4.8438 in #3 STIRRUPS @ 4 in. - COLUMN DESIGN LABEL TC 1 b (in) h (in) SIZE 8 12 AREA OF COL = 96 (in Z) BAR # = 5 Asteel = 096 (in Z) # of Bars Needed = 3130701 # of Bars Used = 4 FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer JOB SHEET NO OF CALCULATED BY DATE SCALE ORIGINAL MOT LEGIBLE .2 Components & Claddin From wind analysis qz = Determine a a = 49 ft or but not less that 1 96 ft or Use a = 3 768 ft Windows and Doors Pressure WIND LOAD ANALYSIS (ASCE 7 -98) Project Engineer 46.38 PSF 23 Printed on 10125104 "`'/- CHRISTOPHER MOOREFIELD 3 768 ft (whichever Is smaller) 3 768 controls 3 ft 3 controls qz = 46.38 PSF EXPOSURE C CATEGORY II P= Fxq (psf) WINDOW/ SIZE (aprox) =AREA F( -) F( -) F( +) p- p- p+ DOOR ID I w (ft) J h (ft I (SF) I ZONE 4 I ZONE 5 I ZONE 4 &5 ZONE 4 (-J ZONE 5 () ZONE 4 & 5 A 1 75 225 394 -1 280 -1 580 1 180 -5937 -7329 5473 B 1 67 225 376 -1 280 -1 580 1 180 -5937 -7329 5473 C 1 75 225 394 -1 280 -1 580 1 180 -5937 -7329 5473 D 1 75 1 67 292 -1 280 -1 580 1 180 -5937 -7329 5473 E 1 75 1 58 277 -1 280 -1 580 1 180 -5937 -7329 5473 F 1 75 1 75 306 -1 280 -1 580 1 180 -5937 -7329 5473 1 667 300 2001 -1 227 -1 474 1 127 -5690 -6835 5227 2 9 250 283 667 667 1668 1888 -1 241 -1 231 -1 114 -1 502 -1 483 -1 249 1 141 1 131 1 014 -57 55 -57 11 -51 69 -6965 -6877 -5792 5291 5247 4705 10 1083 1 800 8664 FRANCISCO CUELLO JR P E CONSULTING ENGINEERS - 147 ALHAMBRA CIRCLE - So rE 220 - CORAL GABLES - FL 33134 - 305 567 0125 - 305 567 0129 (FAX) BEAM ANALYSIS RB -1 L (ft) SIZE - SPAN 10 LOADS W(in } H(in ) 8 12 ROOF SPAN= - - ROOF D L = ROOF L L = ROOF= 99 9 (plf ) ROOF L L = BEAM= 100 (plf ) TOTAL D L = 199 9 (plf ) 333 (ft ) 30 (psf ) 30 (psf ) 99 9 (plf ) LANG RESIDENCE �= 0 9 fy= 60 ksi fc= 3 ksi d= 9 6875 (in ) KEY: TOTAL L L = 99 9 (plf) <- -FILL IN INFORMATION Wu = 044969 (klf ) Mu = 44969 (kip -ft) (simply supported) REINF BAR No = 6 Mu /mfCbd ^2= 0026621 BAR AREA= 0 44 in ^2 W= 002758 As(required)= 0 106873 (in ^2) As(minimum)= 0 212242 (in ^2) No of #6 bars= 0242033 = 2 bars SHEAR REINFORCING Vu= 2 168232 kips Vc= 7216245 Vc /2= 3 6081 kips NEED SHEAR REINF? = FALSE SPACING= 4 8438 in #3 STIRRUPS @ 4 in. FRANCISCO CUELLO JR.,P.E.,INC. JOB Consulting Engineer SHEET NO 4- 6 OF CALCULATED BY DATE SCALE - - , IIEBS OUST" M pir.U,iq w Wf- , 1 1- - V-55 ", -'-'L: .51 'IF .1,11 1 - I- FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer JOB • =/ 1 / r7 /:f i SHEET NO CALCULATED BY SCALE i 1 S �j/ 71 OF _ DATE FRANCISCO CUELLO JR.,P.E.,INC. JOB Consulting Engineer SHEET NO OF CALCULATED BY DATE SCALE `- — -- " (�!,f•C- - - ti -- - - �/� Y� / �r.% � �i I7 ? :•s �l r^ _ - -. _ ' + , „ .� y P.�/.� /.'! � , /�� 5 %/ /' /�l /il -J/ 1iJ I(� ! J �. r 1-11 2J 41 !I j `- — -- " (�!,f•C- - - ti -- - - �/� Y� / �r.% � �i I7 ? :•s �l r^ _ - -. _ ' + , „ .� y P.�/.� /.'! � , /�� 5 %/ /' /�l /il -J/ 1iJ I(� ! J FRANCISCO CUELLO JR.,P.E.,INC. Consulting Engineer JOB SHEET NO OF CALCULATED BY DATE SCALE