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wrightsoft Right- Suite® Universal 2016 Short Form Job: Nov,2016 UNIT ONE By: SCANNED BY St. Lucie Countv For. Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, FI Htg Clg Htg Clg Outside db (OF) 42 90 Inside db (OF) 70 75 Outside RH (%) - 59 Inside RH (%) - 50 Outsidewb (OF) - 78 Insidewb (OF) - 63 Daily range (OF) - 15 DesignTD (OF) 28 15 Moisture dill. (grAb) - 61 Heating Equipment Cooling Equipment Make Make - Model _ - Model Type- -"- Elec strip Type Split AC Efficiency - 100 EFF COP / EER / SEER Heating Input ` 4.3 kW Sensible Cooling 0`1MBtuh Heating Output 14.7 MBtuh Latent Cooling 0< MBtuh Humidifier == - - 5.8 gpd Total Cooling - D_MBtuh Leaving Air Temp c_ 84.8 OF Leaving Air Temp 55.0 "F Actual Heating Fan - - 909 crm Actual Cooling Fan 1200 cfm 'Equipment Location UNIT ONE System Type PEAKCV Fan Motor Heat Type PACKAGE Fan & Motor Combined Efficiency 0 % Static Pressure Across Fan 0 in H2O NAME flea I Loss GaniHeat sible LatentCcfm I Gan cffn _ Time OFFICE 1 589 7746 12238 3908 561 685 Jul 1600,WT MECHANICAL ; 166 1395 2809 1277 45 148 Jul 1600 LOT MALE TOILET 72 984 1572 786 47 84 Jul 1600 LOT _ OFFICE 2 - 126 967 2124 1068 19 111 Jul 1600 LOT OFFICE 3 154 3653 3181 2050 238 172 Jul 1600 LOT UNITONE 1107 14745 21924 9090 909 120D Ju11600LDT THESE PL VIS AND ALL PIROPOSEDA110% ARE SUBJECTTO ANY CORRECTIONS REQUIRED BY FIELD INSPECTORS THAT MAY BE NECESSARY IN ORDM TO CC..:ir LY lAA R-1 ALL APPLICiW:iE CODES. wrightsoft RighmroLhNersaI201515.0.19PS1A0570 ...Manual 110700 Okeechobee Rd -Jeff Sctuw.rup Cate=CLTD Front Doorfao ' N 4 2016-Mar-11 08:43:51 Page 1 Ri ht-Suite® Universal 2016 Short Form Job: wrightsoft g Date: Nov, 2016 ` UNIT TWO By: Project Information For. Jeff Sdturro 10700 Okeechobee Rd, Fort Pierce, FI Htg Clg Htg Clg Outside db (OF) 42 90 Inside db (OF) 70 75 Outside RH N - 59 Inside RH N - 50 Outsidewb (OF) - 78 Insidewb (OF) - 63 Daily range (OF) - 15 DesignTD (OF) 28 15 Moisture cliff. (gr/Ib) - 61 Beating Equipment Cooling Equipment Make Model Type Efficiency Heating Input Heating Output Humidifier - Leaving Air Temp Actual Heating Fan Elec strip 100 EFF 6.0 kW 20.6 MBtuh - 5.5 gpd 82.3 OF 1525 cfm Equipment Location System Type Fan Motor Heat Type Fan & Motor Combined Efficiency Static Pressure Across Fan Make Model Type COP/EER/SEER Sensible Cooling Latent Cooling Total Cooling Leaving Air Temp Actual Cooling Fan UNIT TWO PEAKCV PACKAGE 0 % 0 in H2O Split AC 0 0 MBtuh 0 MBtuh 0 MBtuh 55.0 OF 1600 cfm NAME Area Heat 1 Sensible Latent Htg Clg Time ft' Loss Gain Gain elm cfm OFFICE 4 1010 14714 23386 7782 985 1060 Jul 1600 LDT OFFICE 5 308 5850 9894 2020 434 448 Jul 1600 LDT BK EXIT 84 1955 2179 1266 106 94 Jul 1600 LDT UNIT TWO 1402 22519 35459 i 11069 1525 1600 Jul 1600 LDT wri htsoft' 2D16-Mar-77 m''3`51 g Rights,L4u Neree1201575.agm"5m Page ...ManuW.AI070001medmbee Rd-JeBScibjrm.mp Cak=CLTD FrerdDmrfacna: N Right -Suite® Universal 2015 Load Summary Job: ` ?* wrightsoft UNIT ONE Date: Nov,2016 Y- a For: Jeff Saturro 10700 Okeechobee Rd, Fort Pierce, FI Zone: UNIT ONE COOLING LOAD 1. DESIGN CONDITIONS at Jul 1600 LDT Peak load at Jul 1500 LDT Inside: 75 OF Outside: 90 OF TD: 15 OF RH: 59 % MoistDift 61.5 grAb Mutt 1.0 Ins.wb 63 OF Sensible Latent 2. SOLAR RADIATION THROUGH GLASS 1450 - 3. TRANSMISSION GAINS Sensible 2471 - - Walls: 1727 - _— _- Glass: 663 - Doors: 81 - Partitions: 0 - - = Floors: 0 - Ceilings: 0 - - 4 INTERNAL HEAT GAIN Sensible Latent 14816 2476 Occupants: 3095 2476 _ = --" Lights: 9077 - _ =_ Motors: 0 - --- Appliances: 2644 0 - - 5. INFILTRATION: Outside air cfm: 30 495 1253 6. SUBTOTAL: Space load Sensible Latent 19231 3729 Envelope 19231 3729 - - - Less extemal 0 - Redlstribution 0 0 - 7. SUPPLY DUCT' 577 - & SUBTOTAL. - Space load +supply duct 19808 Actual.cfm: 1200 atsupplyTD: 20 - 9. VENTILATION: Make-upaircfm: 128 2115 5360 10. RETURNAIRLOAD: - Lighting+ plenum (net) 0 - 11. RETURN DUCT 0 - - 12. TOTAL LOADS ON EQUIPMENT 21924 9090 HEATING LOAD ' - = 13. DESIGN CONDITIONS Mult 1.0 - Inside: 70 OF Outside: 42 OF TD: 28 OF - - 14. TRANSMISSION LOSSES 4995 Walls: 1829 - Glass: 1280 - Doors: 156 - Partitions: 0 - Floors: 1730 - Ceilings: 0 - 15. INFILTRATION: Outside air cfm: 110 3379 16. SUBTOTAL: Spaceload 8374 Envelope 8374 - Less external 0 - Less transfer 0 - Redlstribution 0 - 17. SUPPLY DUCT: 251 I& VENTILATION: Make-up air cfm: 128 3949 19. HUMIDINCATION 2171 Piping 0 20. RETURN DUCT 0 21. TOTAL HEATING LOAD ON EQUIPMENT 14745 wrightsoft' RightSu�lYdvarsa1201515.0.19 FS1A8570 2016-Mar-11.08:43:51 Page 1 ...Manual Jt10700 Okee h.bee Rd -Jeff Scituomp Cak:=CLTD FrrntDwrfa N Right -Suite® Universal 2015 Load Summary Job: +1+ wrightsoft UNIT THREE Date: Nov, 2ot5 By: n„„:`•` -; ;,••„•1"f.OJF:Gi If1TOffIdT10I• _. . �. F' For Jeff Sciturro IT700 Okeechobee Rd, Fort Pierce, FI Zone: UNITTHREE COOLING LOAD 1. DESIGN CONDITIONS at Jul 1600 LDT Peak load at Jul 1600 LDT Inside: 75 °F Outside: 90 "F TD: 15 °F RH: 59 % MoistDiff: 61.5 gdlb Mult 1.0 Ins.wb 63 'F Sensible Latent 2. SOLAR RADIATION THROUGH GLASS 6008 - 3. TRANSMISSION GAINS Sensible 10682 - Walls: 2964 - - Glass: 3037 - - Doors: 0 - - Partitions: 0 - - Floors: 0 - - Ceilings: 4680 - - 4. INTERNAL HEAT GAIN Sensible Latent 10274 2476 Occupants: 3095 2476 - - Lights: 7179 - Motors: 0 - Appliances: — 0 0 - - 5. INFILTRATION: Outside air cfm: 90 1484 - 3760 6. SUBTOTAL: Spaceload Sensible Latent 28447 6236 Envelope 28447 6236 - - Less external 0 - Redistribution 0 0 - 7. SUPPLY DUCT 853 S. SUBTOTAL: Space load +supply duct 29301 - Actual cfm: 1600 at supply TD: 20 - - 9. VENTILATION: Make-up air cfm: 128 2115 5360 10. RETURN AIR LOAD: Lighting + plenum (net) 0 - 11. RETURN DUCr - 0 - 12. TOTAL LOADS ON EQUIPMENT 31416 11596 HEATING LOAD 13. DESIGN CONDITIONS Mult Inside: 70 °F Outside: - 42 "F TD: 14. TRANSMISSION LOSSES Walls: 2538 Glass: 5865 Doors: 0 Partitions: 0 Floors: 0 Ceilings: 1669 15. INFILTRATION: Outside air dm: 16. SUBTOTAL: Space load Envelope 16528 Less external 0 Less transfer 0 Redistribution 0 17. SUPPLY.DUCr: 1& VENTILATION: Make-up air cfm: 19. HUYAWMCATION Piping 20. RETURN DUCT 21. TOTAL HEATING LOAD ON EQUIPMENT 210 128 1.0 28 °F 10072 6456 16528 496 3949 2193 0 0 23166 wrightsofl' Rght,%W8U��araai 2oui5.0.19 rawes70 20&Mar-1t O8 ap Page 2 ._Manua1.h107000keediohea RO-JeR Scdurro.rup Cale=CLTD Front Door facer. N Right -Suite® Universal 2015 Load Summary Job: wrightsoft UNIT 7W0 Date: Nov,2015 6y: Zone: UNITTWO For: Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, FI COOLING LOAD 1. DESIGN CONDITIONS at Jul 1600 LDT Peak load at Jul 1700 LDT Inside: 75 OF Outside: 90 OF TD: 15 OF RH: 59 % MoistDift 61.5 grAb Mult 1.0 Ins.wb 63 OF Sensible Latent 2. SOLAR RADIATION THROUGH GLASS 2966 - 3. TRANSMISSION GAINS Sensible 10206 - Walls' 2084 - Glass: 2033 Doors: 161 Partitions: 0 Floors: 0 Ceilings: 5928 4. INTERNAL HEAT GAIN Sensible Occupants: 3087 Lights: 11496 Motors: 0 Appliances: 3349 5. INFILTRATION: Outside air cfm: 6. SUBTOTAL: Spaceload Sensible Envelope 32092 Less external 0 Redistribution 0 7. SUPPLY DUCT ' S. SUBTOTAL: Space load +supply duct Actual cfm: 1600at sup y TD: 9. VENTILATION: Make-up air X: 10. RETURN AIR LOAD: Lighting + plenum (net) 11. RETURN DUCT 11 TOTAL LOADS ON EQUIPMENT HEATING LOAD 13. DESIGN CONDITIONS Inside: 70 OF Outside: 42 OF 14. TRANSMISSION LOSSES Walls: 1694 Glass: 3926 Doors: 311 Partitions: 0 Floors: 1865 Ceilings: 2114 15 INFILTRATION: Outside air ctm: 16. SUBTOTAL: Spaceload Envelope 15535 Less extemal 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT: A VENTILATION: Make-up air cfm: 19. HUNDDIFICATION Piping 20. RETURN DUCT 21. TOTAL HEATING LOAD ON EQUIPMENT Latent 2469 0 60 Latent 4976 0 20 146 17932 2469 - 989 2506 32092 4976 963 33055 2404 0 0 35459 Mult 1.0 TD: -28 OF 9901 183 5634 15535 146 466 4488 2030 0 0 22519 6093 ii[t:1 ' Wrightsaft` RghlSuIIeaDUrNersa12f11515.0.19FiA1:18570 20164.-11oe:as:s1 Page 3 ._ManuaIJ%107000keeCro6ee Rd -Jeff Scbrrro.rop Gab=CLTD From Doorfzees N Job #: Performed for: Jeff Scdulm 10700 Okeechobee Rd Port Pierce, FI OUTSIDE FRESH AIR 128 UM Scale: 1 : 137 Page 1 RightSu@e® Unhersal 2015 15.0.19 RSU06570 2016-Mar-11 08:44:31 ...Okeechobee Rd- Jeff Sciturro.rup UP STORAGE crm Job M Performed for: JeffScituno 10700 Okeechobee Rd Fat Pierce, R Scale: 1 : 137 Page 2 RightSuite@ Universal 2015 15.0.19 RSU06570 2016-Mar-11 08:44:31 ...Okeechobee Rd- Jeff Scituuo.rup Right -Suite® Universal 2015 Load Calculation Job: wrightsoft eK ex►r Date: Nov,2015 By: SCANNED BY S>t. Lucie Co ntv Project Information For. Jeff Sdturro 10700 Okeechobee Rd, Fort Pierce, FI Zone: BK EXIT LWH: 14.0 x 6.0 x 9.0 ' 1. DESIGN CONDITIONS - COOLING ( Jul 1600 LDT ) Dry Blb RH Moisture Range Wet Bib Outdoor Conditions —> 90 59 15 78 Indoor Conditions —> 75 50 63 TOD Correction —> 0 Difference 15 61.5 _- - Mult = - 1.0 ) = 2. GLAZING SOLAR -HEAT GAIN ( Lat = 27.45 'N Const Wt = M) - 'type Orien Area Tilt ShdF IntShd SCMuIt Sc Sens/A Sens 3. TRANSMISSION GAINS ' Type Oden GrArea NtArea Uval Grp CLTD Shad Or Sens WALL-01 .s 54 33 0.079 G 32-3 N m 84 DOOR-01 s 21 21 0.088 14.5 - 27 FLOR-01 - 84 84 0 0 - 0 CEIL-01 - 84 84 0.054 R-1 78.5 - d 355 4. INTERNAL HEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule ft2/prsn # people Btuh/prsn Btuh/prsn Office 150 1 2 250 200 390 312 8to6-E 0 0 0 0 0 0 0 LIGHTS Lamp/blst+fixture Wllt2 W Total Factor Space Sens "Schedule W fract Fluor MB + Rec trof 2.00 0 168 1.20 1.0 689 8to6-E Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB+Rectrof 0 0 0 1.20 1.0 0 Fluor MB + Rec trof 0 0 0 1.20 1.0 0 wri htsOft' 2M.Mar-1108:45:01 9 RigMSu� lliMersa1201515.0.19 RS"570 Page 1 ...Manual A707000keediotMa Rd. Jeff Scfturro.rup Cak=CLTD FrorR Door Faces: N c APPLIANCES / PLUG LOADS • Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh Plug load WAt2 W 8to6-E 0.70 0 1.00 3.412 0 201 0 #At2 # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 ' #/rt2 # 0 0 1.00 0 0 0 0 #!ft_ # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #AN # Total Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 10 cfm —> x db Temp Diff 15.0 x 1.10 165 �> x Moist. Diff - 61.5 x 0.68 418 6. SUBTOTAL COOLING LOAD FOR SPACE - Sensible Latent 1910 1266 Envelope 1910 730 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 57 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) 8 Drawthru Fan = 1968 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 1968) ! ( 1.10 x 20.0 ) = 90 Actual Cooling Fan = 94 ' 9. VENTILATION OA 13 cfm x db Temp Diff 15.0 x 1.10 212 —> x Moist. Diff 61.5 x 0.68 536 10. RETURN AIR PLENUM Lights Total power( W) 168 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN - Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 2179 1266 W it IlY50Tt g RighRSvk O LA,),,,,1201515.01gir XL=570 20MMar-11 08:45:01 Page2 ...Manual.=700 Okeechobee Rd- Jeff Sclurm.mp Cab=CLTD FrontDwrfac . N ' SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (InsideDB- OutsideDB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss WALL-01 s 54 33 0.079 28.0 73 DOOR-01 s 21 21 0.088 28.0 52 FLOR-01 6 6 0.600 28.0 101 CEIL-01 84 84 0.054 28.0 127 15. INFILTRATION Loss 24 cfm x db Temp Diff 28.0 x 1.10 732 16. SUBTOTAL HEATING LOAD FOR SPACE 1084 Envelope 1084 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 33 Less transfer 0 Redistribution - 0 1& VENTILATION OA 13 cfm x db Temp Diff 28.0 x 1.10 395 19. HUMIDIFICATION ' Inside RH desired 40.0 (Max = 32.0 for 1 pane ) # of GIa21ng panes 0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 37 cfm x 0.20 g1l00cfm/d = 1.2 gpd 443 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 1955 Loss factor x Line 16 Loss WrightSOft Righs,,,4D 20MMar-110B:45:01 lhNersaI201515.0.79 RSll18570 Page 3 ...ManuaIJ1707000keeMobw Rd -Jeff Scdurmmp Cab=CLTD Front Doorhacee: N Right -Suite® Universal 2015 Load Calculation Job: +�+ wrightsoft Date: Nov,2015 • MALE TOILET BY: SCANNED BY St. Lucie County For: Jeff Saturro ' 10700 Okeechobee Rd, Fort Pierce, FI Zone: MALE TOILET LWH: 8.0 x 9.0 x 9.0 1. DESIGN CONDITIONS -COOLING ( Jul 1600 LDT ) Dry Bib RH Moisture Range Wet Bib Outdoor Conditions —> 90 59 15 78 Indoor Conditions —> 75 50 63 TOD Correction' —> 0 Difference 15 61.5 [ Mult _ 1.0 ] 2. GLAZING SOLAR'HEAT GAIN ( Let = 27.45'N Const Wt = M ) Type Orien Area Tilt ShdF IntShd SCMult SC Sens/A Sens 3. TRANSMISSION GAINS Type Orien GrArea NtArea Uval Grp CLTD Shad Clr Sens WALL-01 s 81 81 0.079 G 32-3 N m 206 FLOR-01 - 72 72 0 0 0 _ 4. INTERNAL HEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule ft2/pisn # people Btuh/prsn Btuh/prsn Office 150 1 1 250 200 370 296 8to6-E 0 0 0 0 0 0 0 LIGHTS Lamp/blst+fixture W/ft' W Total Factor Space Sens Schedule W fract Fluor MB + Rec trof 2.00 0 144 1.20 1.0 590 8to6-E Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Wrl soft 207&Mar-Mar ht g RyhFSu� liiiversai 201515.0.79 fHM78570 page 7 _.Manual Al 0700 Olaechobee Rd -Jeff ScOmc.rup Calc=CLTD Frond Dwrtaoss N APPLIANCES / PLUG LOADS ' Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh Plug load WAt2 W 8to6-E 0.70 0 1.00 3.412 0 172 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At2 # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #At' # Total 'Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 0 cfm x db Temp Diff 15.0 x 1.10 0 �> x Moist Diff --- 61.5 x 0.68 0 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 1339 786 Envelope - 1339 296 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 40 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 1379 _ (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 1379 ) / ( 1.10 x 20.0 ) = 63 Actual Cooling Fan = 84 ' 9. VENTILATION OA 12 cfm > x db Temp Diff 15.0 x 1.10 193 x Moist Diff 61.5 x 0.68 490 10. RETURN AIR PLENUM Lights Total power (W) 144 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12 TOTAL COOLING LOADS ON EQUIPMENT (Btah) 1572 786 Wir I1tSOfY' 2018-Mar-1108:45:01 9 RightSu� rhiversa1201515.0.19 RBU08570 Page 2 ...ManuaI.M07000keedrobea Rd-JeR SoRurro.rup Cab=CLTD Frord Door faces: N ' SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (inside DB-Outside DB) _ ( 70 - 42) = 28 — [ Mult = 1.0 ) 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss WALL-01 s 81 81 0.079 28.0 179 FLOR-01 9 9 0.600 28.0 151 15. INFILTRATION Loss 3 cfm x db Temp Diff 28.0 x 1.10 100 16. SUBTOTAL HEATING LOAD FOR SPACE 430 Envelope 430 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 13 Less transfer 0 Redistribution 0 1S. VENTILATION OA 12 cfm x db Temp Diff 28.0 x 1.10 361 19. HUMIDIFICATION Inside RH desired 40.0 (Max = 320 for 1 pane ) # of Glazing panes 0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT' HEAT LOSS 15 cfm x 0.20 g1100cfm/d = 0.5 gpd 181D Piping 0 - 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 984 Loss factor x Line 16 Loss I7t50fY 201&Mar-110&0.5:01 Wit 9 Right-Su� Uiiversa1201515.0.1g Fmms7o page 3 ...ManuaI,M07000keerhobee Rd -Jeff SaTurm.rup Cab=CLTD Fmnt Doorbces N +�+ wrightsoft RightSuite® Universal 2015 Load Calculation Date: Nov,2015 MECHANICAL By: For: Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, FI Zone: MECHANICAL LWH: 166.0 x 1.0 x 9.0 1. DESIGN CONDITIONS - COOLING ( Jul 1600 LDT ) Dry Bib RH Moisture Range Wet Bib Outdoor Conditions —> 90 59 15 78 Indoor Conditions —> 75 50 63 TOD Correction —> 0 Difference 15 61.5 2. GLAZING SOLAR HEAT GAIN ( Let = 27.45 °N Const VA = M ) Type Orien Area Tilt ShdF IntShd SCMult Sc Sens/A Sens 3. TRANSMISSION GAINS Type Orien GrArea WALL-01 s 45 FLOR-01 - 166 NtArea 45 166 Uval 0.079 0 Grp G CLTD 32.3 0 Shad N Clr m Sens 115 0 _ 4. INTERNAL HEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule ft'/prsn # people Btuh/prsn Btuh/prsn Office 150 1 2 250 200 527 421 8to6-E 0 0 0 0 0 0 0 LIGHTS Lamp/blst+fixture W/fta W Total Factor Space Sens Schedule W fract Fluor MB+Rao trof 2.00 0 332 1.20 1.0 1361 8to6-E Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB + Rectrof 0 0 0 1.20 1.0 0 201&Mar-1108:45:01 wri Ilt50fY g Righl sudee universal 201515.0.19 Ftsum570 Pagel ...Manual At07000keediotm Rd- Jeff Scdurro.rup Cab=CLTD Front Door faces: N APPLIANCES / PLUG LOADS ' Application Schedule Plug load 8to6-E MOTORS Power (hp) #/ft2 Schedule 0 0 0 0 0 0 Wdt2 0.70 #At2 0 #Aft' 0 #At2 0 #At2 0 #At2 0 0 0 Usage W 0 1.00 0 1.00 0 1.00 0 1.00 0 1.00 0 1.00 Total Per mtr Btuh 0 0 0 0 0 0 Sensible Btuh 3.412 0 0 0 0 0 Load factor 1.00 1.00 1.00 Latent Btuh 0 0 0 0 0 0 Sens Latent 396 0 0 0 0 0 0 0 0 0 0 0 Sens 0 0 0 5. INFILTRATION Sens Latent 0 cfm > x db Temp Diff 15.0 x 1.10 0 x Moist Diff 61.5 x 0.68 0 6. SUBTOTAL COOLING LOAD FOR SPACE - Sensible Latent 2399 1277 Envelope 2399 421 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 72 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru,Fan = 2471 (L 8 Sens ) ! (Xfer x Supply TD ) = dim Est Cooling cfm = ( 2471 ) / ( 1.10 x 20.0 ) = 112 Actual Cooling Fan = 148 9. VENTILATION OA 20 cfm x db Temp Diff 15.0 x 1.10 338 > x Moist Diff 61.5 x 0.68 856 10. RETURN AIR PLENUM Lights Total power (W) 332 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT' HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) +Wrightsoft' fthts,keourleraa12o1s1s.o.19Fuwwo ...ManuaIJA10700 Okeechobee Rd -Jeff 30mrro.rup Cato =CLTO Front Door faces N 2809 1277 201&Mar-11 08:45:01 Page 2 ' SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE + Heating TD = (insideDB- OutsideDB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss WALL-01 s 45 45 0.079 28.0 99 FLOR-01 5 5 0.600 28.0 84 15. INFILTRATION Loss 7 cfm x db Temp Diff 28.0 x 1.10 230 16. SUBTOTAL HEATING LOAD FOR SPACE 413 Envelope 413 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 12 Less transfer 0 Redistribution 0 18. VENTILATION - CA 20 cfm x db Temp Diff 28.0 x 1.10 631 19. HUMIDIFICATION Inside RH desired 40.0 (Max = 32.0 for 1 pane ) # of Glazing panes 0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 28 cfm x 0.20 g1100cfm/d = 0.9 gpd 3389 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 1395 Loss factor x Line 16 Loss wri htSOft" 2016Mar-110845:01 �] RighRSu� liiMerse1201515.0.19 RSLJO6570 Page3 ...Manual,1,107000)eechobee Rd -Jeff Schurro.rup Cab=CLTD Frord Dcarlacea: N Right -Suite® Universal 2015 Load Calculation Job: wrightsoft Date: Nov, 2015 • OFFICE 1 By: For. Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, FI Zone: OFFICE 1 LWH: 31.0 x 19.0 x 9.0 1. DESIGN CONDITIONS - COOLING ( Jul 1600 LDT) Dry Bib RH Moisture Range Wet Bib Outdoor Conditions —> 90 59 15 78 Indoor Conditions —> 75 50 63 TOD Correction —> 0 Difference 15 61.5 Mult — = 1.0 ] — 2. GLAZING SOLAR HEAT GAIN ( Lat = 27.45 % Const Wt = M) Type Oden Area Tilt ShdF IntShd SCMult SC Sens/A Sens GLAZ-01 a 24 90 shd n 1.00 0.74 47.6 1142 GLAZ-02 s 12 90 1.0 n 1.00 0.74 25.6 307 3. TRANSMISSION GAINS Type Orien GrArea NtArea Uval Grp CLTD Shad Clr Sens GLAZ-01 a 24 24 1.270 14.5 N - 1594 GLA7-02 s 12 12 1.270 14.5 N - 528 WALL-01 n 171 171 0.079 G 21.2 N m 287 WALL-02 e 279 255 0.079 G 25.4 N m 511 WALL-03 s 171 138 0.079 G 32.3 N m 351 DOOR-01 s 21 21 0.088 14.5 - 27 FLOR-01 - 589 589 0 0 _ 0 4. INTERNAL HEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule ft2/prsn # people Btuh/prsn Btuh/prsn Office 150 1 5 250 200 1232 985 8to6-E 0 0 0 0 0 0 0 Wrl htsoft 2078.Mar-11°B.45.01 g Right-Sui�W lhiversa1207575.0]0 R105570 ...ManuaI.M 0700 Okeechobee Rd -Jeff Scdurmrup Cak=CLTD Front Doorfaees: N Pagel LIGHTS ' Lamp/blst+fixture W/ft2 W Total Factor Space Sens Schedule W frail Fluor MB + Rec trof 2.00 0 1178 1.20 1.0 4830 8to6-E Fluor MB + Rec trot 0 0 0 1.20 1.0 0 Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB + Rec trot 0 0 0 1.20 1.0 0 - APPLIANCES / PLUG LOADS Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh Plug load W/t2 W 8to6-E 0.70 0 1.00 3.412 0 1407 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #At' - # Total Per mU Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00- 0 0 0 0 0 0 1.00 0 S. INFILTRATION Sens Latent 10 cfm x db Temp Diff 15.0 x 1.10 165 - > x Moist Diff 61.5 x 0.68 418 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 10921 3908 Envelope 10921 1403 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 328 S. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 11249 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 11249) / ( 1.10 x 20.0 ) = 512 Actual Cooling Fan = 685 9. VENTILATION OA 60 cfm -> x db Temp Diff 15.0 x 1.10 989 x Moist. Diff 61.5 x 0.68 2505 Wf19f1t50ft' v 2018-Mer-1t 08:45:01 Ri9MSukeO ltiNersa1201515.0.19 RSUW570 Paget ...ManaaIJN0700 Okechobc RA -Jeff Sctum.rap Cab=CLTD FrontDcerfaces: N 10. RETURN AIR PLENUM Lights Total power (W) 1178 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 12238 3908 SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (Inside DB -Outside DB) _ ( 70 - 42) = 28 [ ' Mult = 1.0 J - 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss GLAZ-01 a 24 24 1.270 28.0 853 GLAZ-02 s 12 12 1.270 28.0 427 WALL-01 n 171 171 0.079 28.0 378 WALL-02 e 279 255 0.079 28.0 563 WALL-03 s 171 138 0.079 28.0 305 DOOR-01 s - 21 21 0.088 28.0 52 FLOR-01 69 69 0.600 28.0 1159 15. INFILTRATION toss"" 47 cfm x db Temp Diff 28.0 x 1.10 1431 16. SUBTOTAL HEATING LOAD FOR SPACE 5168 Envelope 5168 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 155 Less transfer 0 Redistribution 0 19. VENTILATION OA 60 cfm x db Temp Diff 28.0 x 1.10 1846 19. HUMIDIFICATION Inside RH desired 32.0 (Max = 32.0 for 1 pane. ) # of Glazing panes 1.0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 106 cfm x 0.48 g/100cfm/d = 1.6 gpd 578 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 7746 Loss factor x Line 16 Loss WrightSOft" Pigh4sure& hberaa1201515.0.1grdX"570 2018-Mar.1108:45:01 Page 3 ...Manual.Itl 07000keeMOCee Rd- Jeff ScBurm.rvp Cak=CLTD Front Door laces: N Right -Suite® versaLoad on Universal 2015 Ld Calculation Job: wrightsoft Date: Nov,2015 OFFICE 2 By: For: Jeff Srrturro 10700 Okeechobee Rd, Fort Pierce, R Zone: OFFICE 2 LWH: 9.0 x 14.0 x 9.0 1. DESIGN CONDITIONS - COOLING ( Jul 1600 LDT ) Dry Bib RH Moisture Range Wet Bib Outdoor Conditions —> 90 59 15 78 Indoor Conditions —> 75 50 63 TOD Correction —> 0 Difference 15 61.5 I MUIt = 1.0 ] — 2. GLAZING SOLAR HEAT GAIN - ( Lat = 27.45 °N Const Wt = - M ) Type Orien Area Tilt ShdF IntShd SCMult SC Sens/A Sens 3. TRANSNUSSION GAINS Type Orien GrArea NtArea Uval Grp CLTD Shad Clr Sens FLOR-M - 126 126 0 0 0 • 4. INTERNALHEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule ft=/prsn # people Btuh/prsn Btuh/prsn Office 150 1 2 250 200 460 368 8to6-E 0 0 0 0 0 0 0 LIGHTS Lamp/bist+fixture W/ft2 W Total Factor Space Sens Schedule W frail Fluor MB + Rec trof 2.00 0 252 1.20 1.0 1033 8to6-E Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB+Rectrof 0 0 0 1.20 1.0 0 Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Wri htSOft' 2016Mar-1108:45.01 g RiS4Su� Llniversal 201515.0.19 RSUDS570 Page 1 ...Manual A10700 Okeerhobee Rd -Jeff Scnueo.rup Cale=CLTD Front000rfaces: N APPLIANCES / PLUG LOADS ' Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh Plug load W/tt' W 8to6-E 0.70 0 1.00 3.412 0 301 0 #At2 # 0 0 1.00 0 0 0 0 #/tt' # 0 0 1.00 0 0 0 0 #/ft' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #Rt' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #/112 # Total Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 -- 5. INFILTRATION Sens Latent —_ 0 cfm > x dbTemp Diff 15.0 x 1.10 0 _ - - — x Moist Diff 61.5 x 0.68 0 - 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 1794 1068 -- Envelope 1794 368 Less external cooling 0 - Redistribution 0 0 - 7. SUPPLY DUCT HEAT GAIN _ Gain factor 0.03 x Line 6 Sensible Gain 54 S. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 1848 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 1848) / ( 1.10 x 20.0 ) = 84 Actual Cooling Fan = 111 - 9. VENTILATION CA 17 cfm —> x db Temp Diff 15.0 x 1.10 276 �> x Moist Diff 61.5 .x 0.68 700 10. RETURN AIR PLENUM Lights Total power (W) 252 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 2124 1068 Wrl ht5Oft 9 2018.Mar-110R:45L7 RighRSuA� lhiversa1201515.0.1B RSWR570 Page2 Memel Al 07000keerhobee Rd- Jeff Sciturm.rup Cab=CLTD Front Door faces: N ' SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TO = (insideDB-OutsideDB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss FLOR-01 0 0 0.600 28.0 0 15. INFILTRATION Loss 6 cfm x db Temp Diff 28.0 x 1.10 174 16. SUBTOTAL HEATING LOAD FOR SPACE 174 Envelope 174 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 5 Less transfer 0 Redistribution 0 18. VENTILATION OA 17 cfm x db Temp Diff 28.0 x 1.10 516 19. HUMIDIFICATION Inside RH desired 40.0 (Max = 32.0 for 1 pane ) # of Glazing panes 0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 22 cfm x 0.20 g/100cfm/d = 0.7 gpd 2710 Piping 0 .21. TOTAL HEATING LOAD ON EQUPMENT (Stub) 967 Loss factor x Line 16 Loss Wri ht50f ' 201&Mar-1108.45.01 9 RIgh4Su�lhiaersa1201515.Q18 fw�06570 ...Manual.A10700 Okee obee Rd -Jeff Sciturro.rap Cab=CLTD FrwtDwrface N Page3 si Right -Suite® Universal 2015 Load Calculation Job: wt'IghtSUft Date: Nov, 2015 OFFICE 3 By: For. Jeff Sciturro 16700 Okeechobee Rd, Fort Pierce, FI Zone: OFFICE 3 LWH: 14.0 x 11.0 x 9.0 1. DESIGN CONDITIONS - COOLING Outdoor Conditions —> Indoor Conditions —> TOD Correction —> Difference 2. GLAZING SOLAR HEAT GAIN Type Onen Area Tilt 3. TRANSMISSION GAINS Type Onen GrArea WALL-01 n 99 WALL-02 a 81 DOOR-01 n 42 FLOR-01 - 154 ( Jul 1600 LDT ) Dry Bib RH Moisture 90 59 75 50 0 Range Wet Bib 15 78 63 15 61.5 ( Lot = 27.45 °N Const Wt = M ShdF IntShd SCMult Sc Sens/A Mult = 1.0 ] — Sens NtArea Uval Grp CLTD Shad Clr Sens 57 0.079 G 21.2 N m 96 81 0.079 G 25.4 N in 162 42 0.088 14.5 - 54 154 0 0 - 0 4. INTERNAL HEAT GAIN PEOPLE Activity Total Sensible Latent Schedule ft'/prsn # people Btuh/prsn Btuh/prsn Office 150 1 2 250 200 8to6-E 0 0 0 0 0 LIGHTS Lamp/blst+fixture W/ft' W Total Factor Space Schedule W fract Fluor MB + Rec trot 2.00 0 308 1.20 1.0 8to6-E Fluor MB + Rec trof 0 0 0 1.20 1.0 Fluor MB + Rec trof 0 0 0 1.20 1.0 Fluor MB + Rec trof 0 0 0 1.20 1.0 +wrightSOft' RlghtsamOu,wemal2oi5i5.0.lgFiSL=570 ...Manual Ji1070D Okeechobee Rd -Jeff S&urm.mp Cab=CLTO Fmnt Doorfdoes: N Sens Latent 507 0 Sens 1263 0 0 0 405 0 2016-Mar-11 08:45:01 Page 1 APPLIANCES / PLUG LOADS Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh Plug load WAt' W 8to6-E 0.70 0 1.00 3.412 0 368 0 #AN # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #/t2 # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #At° # Total Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 20 cfm x db Temp Diff 15.0 x 1.10 330 x Moist Diff 61.5 x 0.68 -- 835 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 2778 2050 Envelope 2778 1241 Less external cooling 0 Redstribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 83 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6 ) & Drawthru Fan = 2862 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 2862) 1 ( 1.10 x 20.0 ) = 130 Actual Cooling Fan = 172 9. VENTILATION CA 19 cfm x db Temp Diff 15.0 x 1.10 319 —y x Moist Diff 61.5 x 0.68 809 10. RETURN AIR PLENUM Lights Total power (W) 308 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12 TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 3181 2050 Wii htSOft 2016Mar-110d45:01 g RighFSu�Ihbersa12015t5.0.18 RSU06570 ...ManualA10700 Okeechobee Rd. Jeff Scieno.rup Cab=CLM FroMtd Doorce& N Paget ' SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (Inside DB -Outside DB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss WALL-01 n 99 57 0.079 28.0 126 WALL-02 a 81 81 0.079 28.0 179 DOOR-01 n 42 42 0.088 28.0 104 FLOR-01 20 20 0.600 28.0 336 15. INFILTRATION Loss 47 cfm x db Temp Diff 28.0 x 1.10 1444 16. SUBTOTAL HEATING LOAD FOR SPACE 2189 Envelope 2189 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS . Loss factor 0.03 x Line 16 Loss 66 Less transfer - 0 Redistribution 0 18. VENTILATION OA 19 cfm x db Temp Diff 28.0 x 1.10 596 19. HUMIDIFICATION Inside RH desired 40.0 (Max = 32.0 for 1 pane ) # of Glazing panes 0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 66 cfm x 6.20 g/100cfm/d = 2.1 gpd 802 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 3653 Loss factor x Line 16 Loss Wrl htsoft' 201&Mar-1108:45.01 g RightSu� lhrversa1201515.0.19 RS1A6570 Page 3 ...Manual,h70700Okeechobee Rd- Jeff SciWrro.rvp Cak=GITD Front Door faces: N RightSuite® Universal 2015 Load Calculation Job: wrightsoft OFFICE4 Date: Nov,2015 By: 'P�roject Information For. Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, FI Zone: OFFICE 4 LWH: 1010 x 1.0 1. DESIGN CONDITIONS - COOLING Outdoor Conditions Indoor Conditions TOD Correction Difference 2. GLAZING SOLAR HEAT GAIN Type Orien Area GLAZ-01 w 44 3. TRANSMISSION GAINS Type Orien GrArea GLAZ-01 w 44 WALL-01 n 333 WALL-02 s 54 WALL-03 w 234 DOOR-01 n 105 FLOR-01 - 1010 CEIL-01 - 1010 4. INTERNAL HEAT GAIN PEOPLE Activity Schedule Office 8to6-E Dry Bib —> 90 —> 75 —> 0 x 9.0 ( Jul 1600 LDT ) RH Moisture 59 50 Range Wet Bib 15 78 63 15 61.5 ( Mult = 1.0 ] — ( Let = 27.45 °N Const Wt = M ) Tilt ShdF IntShd SCMult SC Sens/A Sens 90 1.0 n 1.00 0.74 27.7 1223 NtArea Uval Grp CLTD Shad Clr Sens 44 1.270 14.5 N - 2036 228 0.079 G 21.2 N m 382 54 0.079 G 323 N m 137 190 0.079 G 47.0 N m 703 105 0.088 14.5 - 134 1010 0 0 - 0 1010 0.054 R-1 78.5 - d 4270 Sens Latent Total Sensible Latent ft2/prsn # people Btuh/prsn Btuh/prsn 150 1 8 250 200 1933 1547 0 0 0 0 0 0 0 }-1µ� vuri htsoft` 2016Mar-1108.45.01 1'- 9 RghL5mR0 Uiiveaa1201515.0.19 F-q"570 Page 1 ... Manual .M0700 Okeechobee Rd -Jell ScIDuro.rup Cal:=CLM F.00ourraces: N LIGHTS Lamp/blst+fixture W/ft2 W Total Factor Space Sens Schedule W fract Fluor MB + Rec trof 2.00 0 2020 1.20 1.0 8282 8to6-E Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB + Rec trof 0 0 0 1.20 1.0 0 ' APPLIANCES / PLUG LOADS Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh Plug load WAt2 W 8to6-E 0.70 0 1.00 3.412 0 2412 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #/ tz # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #AN # Total Per mtr Load Sens Schedule Btuh factor 0- 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 50 cfm -> x db Temp Diff 15.0 x 1.10 824 -> x Moist Diff 61.5 x 0.68 2089 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 21116 7782 Envelope 21116 3635 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 633 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6 ). & Drawthru Fan = 21749 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 21749) / ( 1.10 x 20.0 ) = 990 Actual Cooling Fan = 1060 9. VENTILATION OA 99 cfm -> x db Temp Diff 15.0 x 1.10 1636 � x Moist Diff 61.5 x 0.68 4147 Wri htSoft 201&Mar.110&45:01 g RightSuiK� lhHersa1201616.0.19 RS'"570 Page ...Manual Al 070001eed�obee Rd. Jeff Scdurro.rup Cab=CLTD Frad Dwrfaces: N 10. RETURNAIRPLENUM Lights Total power (W) 2020 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 23386 7782 SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (Inside DB - Outside DB) 14. TRANSMISSION LOSSES Type Expos GrArea GLAZ-01 w 44 WALL-01 n 333 WALL-02 s 54 WALL-03 w 234 DOOR-01 n 105 FLOR-01 69 CEIL-01 1010 ( 70 - 42) = 28 [ Mult = 1.0 ) — NetArea Uval HTD Loss 44 1.270 .28.0 1571 228 0.079 28.0 504 54 0.079 28.0 119 190 0.079 28.0 419 105 0.088 28.0 259 69 0.600 28.0 1159 1010 0.054 28.0 1523 15. INFILTRATION Loss 145 cfm x db Temp Diff 28.0 x 1.10 4476 16. SUBTOTAL HEATING LOAD FOR SPACE 10030 Envelope 10030 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 301 Less transfer 0 Redistribution 0 18. VENTILATION OA 99 cfm x db Temp Diff 28.0 x 1.10 3055 19. HUMIDIFICATION Inside RH desired 32.0 (Max = 32.0 for 1 pane ) # of Glazing panes 1.0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 245 cfm x 0.48 g1100cfm1d = 3.6 god 1325 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 14714 Loss factor x Line 16 Loss Wrl htsoft g RighFSu�liibersa1201515.0.t9 Ra'1108570 zm6Mar-7108.45.01 ...Manual Al 0700 Okeediobee Rd. Jeff Scftum.wp Colo =CLTD Front Door faces; N Page Right -Suite® Universal 2015 Load Calculation Job: wrightsoft versaDate: Nov,2015 OFFICE 5 By: For. Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, R Zone: OFFICE 5 LVN-l: 14.0 x 22.0 x 9.0 1. DESIGN CONDITIONS- COOLING ( Jul 1600 LDT ) Dry Bib RH Moisture Range Wet Bib Outdoor Conditions —> 90 59 15 78 Indoor Conditions —> 75 50 63 TOD Correction —> 0 Difference 15 61.5 Mutt = 1.0 ] — 2. GLAZING SOLAR HEAT GAIN ( Let = 27.45 'N Const VvA = M ) Type Orien Area Tilt ShdF IntShd SCMult SC Sens/A Sens GLAZ-01 s 44 90 1.0 n 1.00 0.74 25.6 1131 GLAZ-02 w 22 90 1.0 n 1.00 0.74 27.7 612 3. TRANSMISSION GAINS Type Orien GrArea NtArea Uval Grp CLTD Shad Clr Sens GLAZ-01 s 44 44 1.270 14.5 N - 19" GLAZ-02 w 22 22 1.270 14.5 N - 1018 WALL-01 s 198 154 0.079 G 32.3 N m 392 WALL-02 w 126 104 0.079 G 47.0 N m 385 FLOR-01 - 308 308 0 0 - 0 CEIL-01 - 308 308 0.054 R-1 78.5 - d 1302 4. INTERNAL HEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule ft'/prsn # people Btuh/prsn Btuh/prsn Office 150 1 3 250 200 763 611 8to6•E 0 0 0 0 0 0 0 Wri htSOft' 1016Mar-1108.45:01 9 Rgh45ul�lhMersa1201515.0.1g fS1A0570 Page 1 ...Manua1,M07000keediotrta Rd- Jeff SCBurro.rup Cak-CITD FrarrtOmrfarss: N LIGHTS Lamp/bist+fixture W/ft2 W Total Factor Space Sens Schedule W fract Fluor MB + Rec trof 2.00 0 616 1.20 1.0 2526 8to6-E Fluor MB + Rec trof 0 0 0 1.20 1.0 0 Fluor MB + Rao trof 0 0 0 1.20 1.0 0 Fluor MB + Rao trof 0 0 0 1.20 1.0 0 - APPLIANCES / PLUG LOADS Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh Plug load W/ft= W 8to6-E 0.70 0 1.00 3.412 0 736 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At2 # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #AN # Total Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 0 cfm x db Temp Diff 15.0 x 1.10 0 x Moist Diff 61.5 x 0.68 0 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 9066 2020 Envelope 9066 611 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 272 S. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 9338 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 9338) / ( 1.10 x 20.0 ) = 425 Actual Cooling Fan = 446 9. VENTILATION OA 34 cfm > x db Temp Diff 15.0 x 1.10 556 --> x Moist Diff 61.5 x 0.68 1410 ' Wrl htsOft 9 RighRSu� l}�Mersa1201515.0.18 RSU08570 201&Mar.1108:45:01 ...Manual JN0700 Okeechobee RA -Jeff Schurro.rup Cab=CLTD Front Doortacm: N Page 2 10. RETURN AIR PLENUM Lights Total power( W) 616 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 9894 2020 SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (InsideDB-OutsideDB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss GLAZ-01 s 44 44 1.270 28.0 1571 GLAZ-02 w 22 22 1.270 28.0 785 WALL-01 s 198 154 0.079 28.0 340 WALL-02 w 126 104 0.079 28.0 229 FLOR-01 36 36 0.600 28.0 605 CEIL-01 - w8 -308 0.054 28.0 - 464 15. INFILTRATION Loss 14 cfm x db Temp Diff 28.0 x 1.10 427 16 SUBTOTAL HEATING LOAD FOR SPACE 4421 Envelope 4421 Less external heating 0 Less transfer 0 Redistribution 0 . 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 133 Less transfer 0 Redistribution 0 18. VENTILATION OA 34 cfm x db Temp Diff 28.0 x 1.10 1038 19. HUMIDIFICATION Inside RH desired 32.0 (Max = 32.0 for 1 pane ) # of Glazing panes 1.0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT' HEAT LOSS 48 cfm x 0.48 g/100cfm/d = 0.7 god 259 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 5850 Loss factor x Line 16 Loss hYSO WI'ift: 2016Mm-1108:45:01 g RightSuibeOUi,e,.1201515.0.19R3LW570 page3 ...Manua1JY10700 Okeechobee Rd -Jeff Saturm.mp Cak=CLTD Front Doorbo : N Right -Suite® Universal 2015 Load Calculation Job: wrightsoft OFFICE6 Date: Nov,2015 By: For. Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, FI Zone: OFFICE 6 LWH: 8.0 x 19.0 1. DESIGN CONDITIONS - COOLING Outdoor Conditions —> Indoor Conditions —> TOD Correction —> Difference 2. GLAZING SOLAR HEAT GAIN Type Orien Area Tilt GLAZ-01 s 24 90 Dry Blb 90 75 0 7 1xt: ( Jul 1600 LDT ) RH Moisture Range Wet Bib 59 15 78 50 63 15 61.5 Mult = 1.0 ] — ( Let = 27.45 °N Const Wt = M ) ShdF IntShd SCMult SC Sens/A Sens 1.0 n 1.00 0.74 25.6 614 3. TRANSMISSION GAINS Type Orien GrArea NtArea Uval Grp CLTD Shad CIr Sens GLA7-01 s 24 24 1.270 14.5 N - 1056 WALL-01 e 72 72 0.079 G 25.4 N m 144 WALL-02 s 171 147 0.079 G 32.3 N m 374 CEIL-01 - 152 152 0.054 R-1 78.5 - d 643 4. INTERNAL HEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule ft2/prsn # people Btuh/prsn Btuh/prsn Office 150 1 2 250 200 503 403 0 0 0 0 0 0 0 LIGHTS Lamp/blst + fixture Schedule Fluor EB + Rec trof WAt2 W Total Factor Space Sens W fract 2.00 0 304 0.95 1.0 986 0 0 0 1.00 0 0 0 0 0 1.00 0 0 0 0 0 1.00 0 0 ' Wrl htsof ' 2016Mar-1108:45:01 g RightSUGeaD I}wersa1201515.0.19 RR"570 Pagel ... Manua1,M0700 Okeechobee Rd -Jeff Scbrrmmp Cale=CLM Front wrfams: N APPLIANCES / PLUG LOADS ' Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh #At2 # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #/rc2 # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #At' # Total Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 0 cfm x db Temp Diff 15.0 x 1.10 0 > x Moist Diff - 61.5 x 0.68 0 6. SUBTOTAL COOLING LOADFORSPACE Sensible - Latent 3707 1204 Envelope 3707 403 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 111 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 3818 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 3818) / ( 1.10 x 20.0 ) = 174 Actual Cooling Fan > 206 - 9. VENTILATION OA 19 cfm —> x db Temp Diff 15.0 x 1.10 316 —� x Moist Diff 61.5 x 0.68 802 10. RETURN AIR PLENUM Lights Total power (W) 304 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 4134 1204 ' Wrl htsoft' g Righ45u'deOD lhbersa1201575.0.10IS1x15570 2016-Mar-1108:45.01 Paget ...Manual.fd 0700 Okeechobee Rd -Jeff Scdurro.wp Cab=CLTD Front Dourfaces: N SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TO = (Inside DB - Outside DB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss GLAZ-01 s 24 24 1.270 28.0 853 WALL-01 a 72 72 0.079 28.0 159 WALL-02 s 171 147 0.079 28.0 325 CEIL-01 152 152 0.054 28.0 229 15. INFILTRATION Loss 7 cfm x db Temp Diff 28.0 x 1.10 210 16. SUBTOTAL HEATING LOAD FOR SPACE 1777 Envelope 1777 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss _ 53 Less transfer 0 Redistribution 0 18. VENTILATION CA 19 cfm x db Temp Diff 28.0 x 1.10 590 19. HUMIDIFICATION Inside RH desired 32.0 (Max = 32.0 for 1 pane ) # of Glazing panes 1.0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 26 cfm x 0.48 g/100cfm/d = 0.4 gpd 1411 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 2562 Loss factor x Line 16 Loss 201SMar-108 wrightsoft' R�gMaurror� sa�aai20uis.aig R3LJW57o age Page 3 ...Manual 1107000keechoEea Rd. Jeff Scdurro.rup Cak=CLTD Frord Door laces: N Right -Suite® Universal 2015 Load Calculation Job: wrightsoft, Date: Nov,2015 OWNERS OFFICE By: !l&roject information For. Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, R Zone: OWNERS OFFICE LWH: 23.0 x 19.0 x 9.0 1. DESIGN CONDITIONS - COOLING ( Jul 1600 LDT ) Dry Bib RH Moisture Range Wet Bib Outdoor Conditions —> 90 59 15 78 Indoor Conditions —> 75 50 63 - TOD Correction —> 0 Difference 15 61.5 Mult = 1.0 ] — 2. GLAZING SOLAR.HEAT GAIN (-Lat = 27.45 °N Const Wt = M) _ - Type Orien Area Tilt ShdF IntShd SCMult Sc Sens/A Sens GLAZ-01 n 35 90 shd n 1.00 0.74 25.3 895 GLA7-02 a 82 90 — n 1.00 0.74 47.6 3884 3. TRANSMISSION GAINS Type Oden GrArea GLAZ-01 n 35 GLAZ-02 a 82 WALL-01 n 171 WALL-02 a 207 CEIL-01 - 437 4. INTERNAL HEAT GAIN PEOPLE Activity Schedule Office NtArea Uval Grp CLTD Shad Cir Sens 35 1.270 14.5 N - 1546 82 1.270 14.5 N - 5387 136 0.079 G 21.2 N m 227 125 0.079 G 25.4 N m 251 437 0.054 R-1 78.5 - d 1848 Sens Latent Total Sensible Latent fta/prsn # people Btuh/prsn Btuh/prsn 150 1 4 250 200 978 783 0 0 0 0 0 0 0 Wrl htsoft- 201&Mar-1108:45:01 9 RightSuih�liirverse1201515.0.19RR=570 Pagel ...Manual A10700 Okeechobee Rd-JeBScftum.rup Cab=CLTD Front Doorfaeea: N LIGHTS Lamp/blst + fixture W/ft2 W Total Factor Space Sens Schedule W fract Fluor EB + Rec trof 2.00 0 874 0.95 1.0 2834 0 0 0 1.00 0 0 0 0 0 1.00 0 0 0 0 0 1.00 0 0 APPLIANCES / PLUG LOADS Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At2 # 0 0 1.00 0 0 0 0 #AN # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #At' # Total Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 90 cfm x db Temp Diff 15.0 x 1.10 1484 -� x Moist. Diff 61.5 x 0.68 3760 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 14555 6455 Envelope 14555 4542 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN ' Gain factor 0.03 x Line 6 Sensible Gain 437 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 14991 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 14991) / ( 1.10 x 20.0 ) = 682 Actual Cooling Fan = 826 9. VENTILATION OA 46 cfm - x db Temp Diff 15.0 x 1.10 755 -� x Moist Diff 61.5 x 0.68 1913 ' 7 WrhtSOft' 9 Flig hRSu�lhNersal201575.0.19 RS1A8570 2018-Mar-1108:45:01 ...MaRWA1070o Okeechobee Rd -Jeff Scbm.vp Cab=CLTD Frontca Drfac N page2 M RETURN AIR PLENUM Lights Total power (W) 874 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Stub) 15746 6455 SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (Inside DB -Outside DB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss GLAZ-01 n 35 35 1.270 28.0 1256 GLAZ-02 a 82 82 1.270 28.0 2902 WALL-01 n 171 136 0.079 28.0 300 WALL-02 a 207 125 0.079 28.0 277 CEIL-01 437 437 0.054 28.0 659 15. INFILTRATION - Loss 180 ofm x db Temp Diff 28.0 x 1.10 5529 16. SUBTOTAL HEATING LOAD FOR SPACE 10922 Envelope 10922 Less external heating 0 Less transfer 0 Redistribution 0 . 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 328 Less transfer 0 Redistribution 0 18. VENTILATION OA 46 cfm x db Temp Diff 28.0 x 1.10 1409 19. HUMIDIFICATION Inside RH desired 320 (Max = 32.0 for 1 pane ) # of Glazing panes 1.0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS . 225 cfm x 0.48 g1100cfm/d = 3.3 gpd 12241 Piping 0 21. TOTAL HEATING LOAD ON EQUIPMENT (Btuh) 13883 Loss factor x Line 16 Loss Wil htSoft' 206-Mar-1105:45:01 9 RighRSu� lh'verse1201515.0.19 PSL 6570 Page 3 ...Manual A10700 Okeechobae Rd -Jeff Sc4urm.rup Cal:=CLTD Frond Doorfaces: N Right -Suite® Universal 2015 Load Calculation Job: wrightsoft Date: Nov,2015 STORAGEIHALL By: project information For. Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, FI Zone: STORAGE/HALL LM: 279.0 x 1.0 x 9.0 1. DESIGN CONDITIONS - COOLING ( Jul 1600 LDT ) Dry Bib RH Moisture Range Wet Bib Outdoor Conditions —> 90 59 15 78 Indoor Conditions —> 75 50 63 TOD Correction —> 0 Difference 15 61.5 [ Mu@ = 1.0 J — 2. GLAZING SOLAR HEAT GAIN ( Let = 27.45 °N Const Wt = M ) Type Oden Area Tilt ShdF IntShd SCMult Sc Sens/A Sens 3. TRANSMISSION GAINS Type Orien GrArea NtArea Uval Grp CLTD Shad CIr Sens WALL-01 n 126 126 0.079 G 21.2 N m 211 WALL-02 a 81 81 0.079 G 25.4 N m 162 WALL-03 w 207 207 0.079 G 47.0 N m 767 CEIL-01 - 279 279 0.054 R-1 78.5 - d 1180 4. INTERNAL HEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule ft2/prsn # people Btuh/prsn Btuh/prsn Office 150 1 3 250 200 715 572 0 0 0 0 0 0 0 LIGHTS Lamp/bist+fixture W/fta W . Total Factor Space Sens Schedule W frail Fluor EB + Rec trof 2.00 0 558 0.95 1.0 1809 0 0 0 1.00 0 0 0 0 0 1.00 0 0 0 0 0 1.00 0 0 Wrl 9 ht50ft' Lhryerva1201515A19 201&Mar-1108.45:01 RyhRSe� RK06570 Page 1 ...Manual J1107000keechebeo Rd -Jell ScfturrarvP Cab=CLTD FrontDoor hates: N APPLIANCES / PLUG LOADS • Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh #Ata # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #Ate # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #At' # Total Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 0 cfm —> x db Temp Diff 15.0 x 1.10 0 > x Moist Diff 61.5 x 0.68 0 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 4844 1869 Envelope 4844 572 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 145 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 4990 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 4990) / ( 1.10 x 20.0 ) = 227 Actual Cooling Fan 271 9. VENTILATION OA 31 cfm —> x db Temp Diff 15.0 x 1.10 512 —� x Moist. Diff 61.5 x 0.68 1297 10. RETURNAIRPLENUM Lights Total power (W) 558 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 5501 1869 {�1µ� wri htSOft' =6-Mar-110@45:01 '1_ g R'ghRSu�IhHersa1201515.0.19 RA108570 � ...ManuaIJ110700 Okeechobee Rd. Jeff Sckum.rup Cab ron =CLTD Fd Doortaoes: N Page SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (Inside DB -Outside DB) _ ( 70 - 42) = 28 [ = ] - Mult 1.0 14. TRANSMISSION LOSSES Type Expos GrArea NetArea uval HTD Loss WALL-01 n 126 126 0.079 28.0 278 WALL-02 a 81 81 0.079 28.0 179 WALL-03 w 207 207 0.079 28.0 457 CEIL-01 279 279 0.054 28.0 421 15. INFILTRATION Loss 13 cfm x db Temp Diff 28.0 x 1.10 386 16. SUBTOTAL HEATING LOAD FOR SPACE 1721 Envelope 1721 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 52 Less transfer 0 — Redistribution 0 18. VENTILATION OA 31 ctm x db Temp Diff 28.0 x 1.10 955 19. HUMIDIFICATION ' Inside RH desired 40.0 (Max = 32.0 for 1 pane ) # of Glazing panes 0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 44 cfm x 0.20 g1100cfm/d = 1.4 gpd 52-0 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btub) 3256 Loss factor x Line 16 Loss .f,`+. wri ht50fC 201&Mar-1108.45:01 I g RightSuite4D UiHersa1207515.0.19 RAW0570 _.Manual A10700 Okaadobee Rd -Jeff Sckuno.rup Cats=CLTD FrordDwr Paces: N Page Right -Suite® Universal 2015 Load Calculation Job: wrightsoft Date: Nov, 2015 TOILET By: b " ProjecFor: Jeff Sciturro t Ilifot inatioli: t 0tOkeechobee Zone: TOILET LWH: 6.0 x 6.0 x 9.0 1. DESIGN CONDITIONS - COOLING Outdoor Conditions —> Indoor Conditions —> TOD Correction —> Difference 2. GLAZING SOLAR HEAT GAIN Type Orien Area Tift Dry Bib 90 75 0 15 ( Lat ShdF IntShd ( Jul 1600 LDT ) RH Moisture 59 50 Range Wet Bib 15 78 63 61.5 27.45 °N Const Wt = M SCMult SC Sens/A Mult = 1.0 I — Sens 3. TRANSMISSION GAINS " Type Orien GrArea NtArea Uval Grp CLTD Shad Clr Sens CEIL-01 - 36 36 0.054 R-1 78.5 - d 152 4. INTERNAL HEAT GAIN PEOPLE Sens Latent Activity Total Sensible Latent Schedule W/ptsn # people Btuh/prsn Btuh/prsn Office 150 1 1 250 200 310 248 0 0 0 0 0 0 0 LIGHTS Lamp/blst + fixture Schedule Fluor EB + Rec trof W/ft' W Total Factor Space Sens W fract 2.00 0 72 0.95 1.0 233 0 0 0 1.00 0 0 0 0 0 1.00 0 0 0 0 0 1.00 0 0 wrightsoft, Rigry�suL�elhi,e .121115150.19R9"570 2016-Mar-1108:45:01 Page 1 ...Manual A107000keediobea Rd-JeRScduoo.rvp Cale=0.TD Front Daor laces: N APPLIANCES / PLUG LOADS Application Usage Sensible Schedule Btuh #At' # 0 0 1.00 0 #AN # 0 0 1.00 0 #At' # 0 0 1.00 0 #At' # 0 0 1.00 0 #At' # 0 0 1.00 0 #At' # 0 0 1.00 0 MOTORS Power (hp) #At' # Total Per mtr Load Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 1.00 0 0 0 0 0 1.00 Latent Btuh 0 0 0 0 0 0 Sens Latent 0 0 0 0 0 0 0 0 0 0 0 0 Sens 0 0 0 S. INFILTRATION Sens Latent 0 cfm —> x db Temp Diff 15.0 x 1.10 0 > x Moist Diff 61.5 x 0.68 0 6. SUBTOTAL COOLING LOAD FOR SPACE Sensible Latent 696 597 Envelope 696 248 Less external cooling 0 Redistribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 21 8. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 717 (L 8 Sens ) 1 (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 717) / ( 1.10 x 20.0 ) = 33 Actual Cooling Fan > 39 9. VENTILATION CA 8 cfm —> x db Temp Diff 15.0 x 1.10 138 —> x Moist Diff 61.5 x 0.68 349 10. RETURN AIR PLENUM Lights Total power (W) 72 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btub) 854 597 wri f1tSOft' 20WMar-110B:45:01 g RighFSunsO lhNersa1201515.0.19 RSZA6570 ...Manual JK10700 Okeechobee Rd -Jeff Sclum.rup Calc=CLTD Frant Dmrfaces: N Page SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (Inside D6-Outside DB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss CEIL-01 36 36 0.054 28.0 54 15. INFILTRATION Loss 2 cfm x db Temp Diff 28.0 x 1.10 50 16. SUBTOTAL HEATING LOAD FOR SPACE 104 Envelope 104 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 3 Less transfer 0 Redistribution 0 18. VENTILATION OA 8 cfm x db Temp Diff 28.0 x 1.10- 257 19. HUMIDIFICATION Inside RH desired 40.0 (Max = 32.0 for 1 pane ) # of Gla2ing panes 0 (Max = 52.0 for 2 pane ) 20. RETURN DUCF HEAT LOSS 10 cfm x 6.20 g/100cfm/d = 0.3 god 121) Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 485 Loss factor x Line 16 Loss wri htsoft` 2016-Mar-1108:45:01 9 RightSuiWda lliHerea1201515.0.191S1108570 ...Manual Jr10700 Okeedobee Rd Jeff SciWrm.mp Cab=CLTD Frerd Doorfacee: N papa3 Right -Suite® Universal 2015 Load Calculation Job: wrightsoft Date: Nov,2016 UP STORAGE By: Project• • For. Jeff Sciturro 10700 Okeechobee Rd, Fort Pierce, FI Zone: UP STORAGE LWH: 203.0 x 1.0 x 9.0 I. DESIGN CONDITIONS - COOLING Outdoor Conditions Indoor Conditions TOD Correction Difference 2. GLAZING SOLAR HEAT GAIN Type Orien Area GLAZ-01 s 24 3. TRANSMISSION GAINS Type Oden GrArea GLAZ-01 s 24 WALL-01 s 126 WALL-02 w 153 CEIL-01 - 203 4. INTERNAL HEAT GAIN PEOPLE Activity Schedule Office LIGHTS Lamp/blst + fixture Schedule Fluor EB + Rec trof Dry Bib —> 90 —> 75 —> 0 ( Jul 1600 LDT ) RH Moisture Range Wet Bib 59 15 78 50 63 15 61.5 Mult = 1.0 ] — ( Let = 27.45 ON Const Wt = M ) Tilt ShdF IntShd SCMult SC - Sens/A Sens 90 1.0 n 1.00 0.74 25.6 614 NtArea Uval Grp CLTD Shad Clr Sens 24 1.270 14.5 N - 1056 102 0.079 G 32.3 N m 260 153 0.079 G 47.0 N m 567 203 0.054 R-1 78.5 - d 858 Sens Latent Total Sensible Latent ft2/prsn # people Btuh/prsn Btuh/prsn 150 1 2 250 200 588 471 0 0 0 0 0 0 0 W/It2 W Total Factor Space Sens W fract 2.00 0 406 0.95 1.0 1316 0 0 0 1.00 0 0 0 0 0 1.00 0 0 0 0 0 1.00 0 0 wri htsoft' 2010-Mar-110a:45:01 9 RightSu� UNersa1201515.0.19 RS1A6570 ...Manualdd0700 Okeechobee Rd. Jeff Schertonrp Cab=CLTD Frond Doorfaces: N Page 1 APPLIANCES / PLUG LOADS • Application Usage Sensible Latent Sens Latent Schedule Btuh Btuh #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At2 # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 #At' # 0 0 1.00 0 0 0 0 MOTORS Power (hp) #At' # Total Per mtr Load Sens Schedule Btuh factor 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 0 0 0 0 0 1.00 0 5. INFILTRATION Sens Latent 0 cfm > x db Temp Diff 15.0 x 1.10 0 —> x Moist Diff 61.5 x 0.68 0 6. SUBTOTAL COOLING LOAD FOR -SPACE Sensible Latent 4646 1471 Envelope 4646 471 Less external cooling 0 Redstribution 0 0 7. SUPPLY DUCT HEAT GAIN Gain factor 0.03 x Line 6 Sensible Gain 139 S. COOLING FAN SIZING Sum of Duct Gain (7 ), Line (6) & Drawthru Fan = 4785 (L 8 Sens ) / (Xfer x Supply TD ) = cfm Est Cooling cfm = ( 4785) / ( 1.10 x 20.0 ) = 218 Actual Cooling Fan 258 9. VENTILATION OA 24 cfm x db Temp Diff 15.0 x 1.10 395 > x Moist. Diff 61.5 x 0.68 1000 10. RETURN AIR PLENUM Lights Total power (W) 406 0 Transmission load (plenum upper surface) 0 Space load credit (plenum lower surface) 0 11. RETURN DUCT HEAT GAIN Gain factor 0 x Line 6 Sensible Gain 0 12. TOTAL COOLING LOADS ON EQUIPMENT (Btuh) 5180 1471 Wrl f7tSoft 9 RighlSulle�UhNarsa1201515.0.tg RSlA6570 201&Mar-1108:45:01 ...ManuaI Okeechobee .R10700 Okeeobee Rd. Jeff Scftum.rup Cab=CLTD Fromoo Drfaees N Page - SPACE HEATING LOAD CALCULATION 13. HEATING DESIGN TEMPERATURE Heating TD = (Inside DB -Outside DB) _ ( 70 - 42) = 28 [ Mult = 1.0 ] — 14. TRANSMISSION LOSSES Type Expos GrArea NetArea Uval HTD Loss GLAZ-01 s 24 24 1.270 28.0 853 WALL-01 s 126 102 0.079 28.0 225 WALL-02 w 153 153 0.079 28.0 338 CEIL-01 203 203 0.054 28.0 3O6 15. INFILTRATION Loss 9 cfm x db Temp Dfff 28.0 x 1.10 281 16. SUBTOTAL HEATING LOAD FOR SPACE 2004 Envelope 2004 Less external heating 0 Less transfer 0 Redistribution 0 17. SUPPLY DUCT HEAT LOSS Loss factor 0.03 x Line 16 Loss 60 Less transfer 0 Redistribution 0 18. VENTILATION OA 24 cfm x db Temp Diff 28.0 x 1.10 737 19. HUMIDIFICATION Inside RH desired 32.0 (Max = 32.0 for 1 pane ) # of Glazing panes 1.0 (Max = 52.0 for 2 pane ) 20. RETURN DUCT HEAT LOSS 33 cfm x 0.48 g/100cfm/d = 0.5 gpd 180 Piping 0 21. TOTAL HEATING LOAD ON EQUPMENT (Btuh) 2980 Loss factor x Line 16 Loss + wrightsoft' R;yhsioL,„ersa1201515.0.19Rsu06570 ...Manual J110700 Okeechobee Rd -Jeff Sckurm.mp Calc=CLTD FroMDoorfaces: N 2016-Mar-11 08:45:01 Page 3