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Home My WebLink AboutHVAC DRAWINGS_0CkAM/G (_AIJARC Il(V1RQ - rOKICT Co H BLOCK AS RE R-19 IN 1 /2" G. SECTION - I SCALE: 1/2"=l'-O" EXIST. FRAMING TO REMAIN --EXIST. HEADER V.I.F. ADD SIMPSON H3 EACH CONNECTION TOP & BOT STUCCO FINISH (MATCH EXIST.) L.B. STUDS TO COMPLY WITH FBCR 602.1 - SYP #2 CONST. 2"x6"®16" O.C. W/ 5/8" PLYWOOD _�- C-D SHEATHING MIN. 10d NAIL 4" EDGE NAIL SPACING TYP. ALL LOAD BEARING WALLS U.O.N. _24 P.T. BOTTOM PLATE W/ SIMPSON SP-6 T & B FIN. FLOOR h rRAnF (MATCH EXIST.) EXIST. FTG. AND STRUCT. TO REMAIN U.O.N. WET WALL AREA NOTE: 2017 FBC- BUILDING 2509.2 BASE FOR TILE - GLASS MAT WATER -RESISTANT GYP BACKING PANELS, DISCRETE NON -ASBESTOS FIBER -CEMENT INTERIOR SUBSTRATE SHEETS OR NON -ASBESTOS FIBER -MAT REINFORCED CEMENT SUBSTRATE SHEETS IN COMPLIANCE WITH ASTM C 1178, C 1288, OR C 1325 AND INSTALLED IN ACCORDANCE WITH MANUFACTURER RECOMMENDATIONS SHALL BE USED AS A BASE FOR WALL TILE IN TUB AND SHOWER AREAS, AND WALL AND CEILING PANELS IN SHOWER AREAS. WATER RESISTANT GYP BACKING BOARD SHALL BE USED AS A BASE FOR THE IN WATER CLOSET COMPARTMENT WALLS WHEN INSTALLED IN ACCORDANCE WITH GA-216 OR ASTM C 840 AND MANUFACTURER RECOMMENDATIONS. REGULAR GYP WALLBOARD IS PERMITTED UNDER TILE OR WALL PANELS IN OTHER WALL AND CEILING AREAS WHEN INSTALLED IN ACCORDANCE WITH GA-216 OR ASTM C 840 4 7/8" TOP MSTA242 TYP. WOOD JOISTS SEE PLAN DOUBLE TOP PLATES III FI STRUCT. ABOVE CONT. CAULK 6/8" GYPSUM BOARD B 5/8" METAL STUD 0 16" O,C. ANCHOR SECURELY ABOVE & PLAN BELOW7A SOUND BATT INSULATION SETIRSELANHANNE CONT. CONT. CAULK SLAB BOTTOM /I\ INTERIOR PARTITION �-SIMPSON SP-6 0 EACH JACK STUD WOOD HEADER (SEE PLAN) DOUBLE JACK STUDS OPEN FOR NOTE: TYPICAL WOOD SILL TO WINpOW BE (3) 2" X SPF#2 STUDS W/1/2" CDX PLYWOOD INBETWEEN EACH APPLICATION (3 1/2" THICK SILL) SIMPSON SP-6 TYPICAL AT ALL WINDOWS WRAPPED OVER WOOD SILL PLATES BEARING WALL STUDS (SEE SECTIONS) (2) SIMPSON SP-6 WRAPPED AROUND JACK AND WALL STUDS (TYPICAL EACH SIDE) SIMPSON SP-6 LINE OF FLOOR TYPICAL WINDOW OPENING IN WOOD WALL DETAIL N.T.S. MECHANICAL NOTES 1. HVAC sub -contractor shall provide all labor, materials, and equipment to install a complete and operating a/c system per Florida Building Code, 2017, Sixth Edition and the amendments and all local codes. 2. HVAC sub -contractor to provide all required HVAC permits. 3. HVAC sub -contractor shall provide equipment of the capacities scheduled on the plans. 4. Installation shall be in accordance with codes having jurisdiction. 5. Duct board ductwork shall be fabricated from 1" Johnsmanville J-M Microaire SD/MF fiberglass ductboard or equal and installed per manufacturer and SMACNA recommendations. Flexible duct shall be thermaflex M-KE or equal. Duct shall be U.L. listed. 6. All air devices shall be of aluminum construction. 7. HVAC sub -contractor shall test and balance the air quantities to those on the plans, make all necessary system airflow adjustments, and provide certification report to the architect upon completion. B. HVAC sub -contractor shall provide all contractors, relays and thermostats. The electrical contractor shall provide all switches. Thermostats shall be approved by the equipment manufacturer. 9. Sub -contractors shall provide a written guarantee that shall warrant all workmanship and materials for one (1) year during the first year, shall be repaired at no expense to the owner. The compressors shall have a 5 year warranty (labor & Materials). 10. All work shall be coordinated with other trades to avoid interferences that may delay progress of construction. 11. Condensate piping shall drain into the existing rain leaders. 12. HVAC,sub-contractor shall install all necessary offsets, bends and transitions required to provide a complete system at no additional cost to Owner. 13. A/C condensate drains shall be installed by A/C sub -contractor. WOOD HEADER 2-2x10 MIN. TYPICAL DOOR OPENING IN WOOD WALL DETAIL N.T.S. -"D Tf2USSSES pQ 18 S TOP P TES ;ON SP-6 CH JACK STUD ILE JACK STUDS LING WALL )S (SEE SECTIONS) _._.'SON SP-6 i I FLORIDA RESIDENTIAL 2017, 6TH EDITION, PART VIII ELECTRICAL NEC-NFPA 70 2014 EDITION NATIONAL ELECTRICAL CODE FBC EC-FLORIDA BUILDING CODE ENERGY CONSERVATION 2017, 6TH EDITIC FS-FLORIDA STATUTES ELECTRICAL CONTRACTOR TO VERIFY RECEPTACLES IN THE WORK ARE COMPLY WITH NEC 314,21 ONLY NEW ELECTRIC WORK IS SHOWN. EXISTING (NOT SHOWN) TO REMAIN AS IS TAMPER RESISTANT RECEPTACLES PER NEC 406.12 & FBC RE,4002.14 ELECTRICAL NOTES: 1. ALL ELECTRICAL WORK SHALL COMPLY WITH THE 2017, SIXTH EDITION FLORIDA BUILDING CODE, THE 2014 NATIONAL ELECTRICAL CODE AND ALL LOCAL CODES. 2. EXISTING ELEC. PANEL TO REMAIN. 3. CO-ORD. NEW WATER HEATER, CLOTHES WASHER & DRYER W/ EXIST. CIRCUITS. 4. ALL ELECTRICAL EQUIPMENT EXPOSED TO THE WEATHER SHALL BE WEATHERPROOF. 5. THE ELECTRICAL SUBCONTRACTOR SHALL BE RESPONSIBLE FOR FULL COORDINATION OF THIS WORK WITH THAT OF THE GENERAL CONTRACTOR AND THE OTHER SUBCONTRACTORS. 6. PROVIDE ARCHITECT/ENQINEERAS-BUILT DRAWINGS. 7. PROVIDE A GUARANTEE AGAINST DEFECTIVE WORKMANSHIP, MATERIALS AND EQUIPMENT FOR A PERIOD OF ONE YEAR FROM THE DATE OF FINAL ACCEPTANCE BY OWNER. 8. ALL POWER AND CONTROL WIRING SHALL BE BY THE ELECTRICAL SUBCONTRACTOR. 9. ELECTRICAL SUBCONTRACTOR SHALL BE RESPONSBLE FOR ALL APPLICABLE FEES, TAXES, AND PERMITS. 10. THESE PLANS ARE BASED ON AVAILABLE INFORMATION. NOTIFY ARCHITECT/OWNER OF ANY CONDITIONS WHICH AFFECT THE PROGRESS OF CONSTRUCTION. 11. VERIFY ELECTRICAL REQUIREMENTS OF EACH PIECE OF EQUIPMENT PRIOR TO ACTUAL CONNECTION THERETO. 12. ESTABLISH FIELD LIAISON WITH PROJECT MANAGER PRIOR TO STARTING WORKI VERIFY ALL EXISTING CONDITIONS AND NOTIFY ARCHITECT/OWNER OF ANY DISCREPANCIES. 13, ELECTRICAL SUBCONTRACTOR SHALL VERIFY LOCATIONS AND CONNECTIONS TO ALL ELECTRICAL EQUIPMENT FURNISHED BY OTHERS, PRIOR TO INSTALLING OUTLETS, CONDUIT STUBS, DROPS, ETC. VERIFY LOCATIONS OF ALL CONTROLS FURNISHED BY OTHERS. INSTALL CONTROLS AND MAKE CONNECTIONS THERETO. 14 ALL INCANDESCENT LIGHTING CIRCUITS TO BE ON DIMMER- (COMMERCIAL TYPE SIZED TO CIRCUIT LOAD+10%). ALL LIGHTING CONTROLS SHALL COMPLY WITH CHAPTER 13 FLORIDA ENERGY CODE. ELECTRICAL LEGEND- TELEPHONE/DATA DUPLEX RECEPTACLE B DEDICATED RECEPTACLE QUAD RECEPTACLE $ SINGLE POLE SWITCH I $D DIMMABLE SWITCH COV RED 0 ELECTRICAL PANEL I plpy F DO � I 1 i+I BEDROOM N j 12'-0" TI 25' I 5,_6„ LIVING ROOM TIE INTO EXIST. A/C TRUNK �A "1F BEDROOM `° 0 BATH LO I SITTING AREA m 12'-2" ELEC. METER & O.H. SERVICE FIREPLACE A/C 13'-11200 DINING AREA I 10 KITCHEN EXISTING TO REMAIN U.O.N.- < PASS THRU FAMILY ROOM 6 FLOOR PLAN SCALE: 1/4"=l'-O" EXISTING 67'-0" V.I.F. F.B.C. 2017, 6TH EDITION ASCE-7-10 EXP.'C' BUILDING IS TYPE V CONSTRUCTION ALTERATION LEVEL - II 170 MPH (ULT.) RISK CATEGORY II LUMBER S.Y.P. #2 DESIGN WIND PRESSURES DOORS POS +35.5 P.S.F. & WINDOWS ALL OPENINGS NEG -39.0 P.S.F. WORST CASE -2" FRENCH DOORS (60x 68) _ ��CONST. 2x6®16" O.C. INFILL - FRAMING (TYP.) 21'-10" CONST. (2)2x6 COL. 0 JAMB (TYP.) CONVERT EXISTING GARAGE TO LIVING SPACE 12x12 S/A CONST. INT. PART. WALL 200 CFM 5 9'-0" mlUTILITY 0 BATH 14' BEDROOM AREA CALC. A/C AREA ±3,630 SQ. FT. COVERED ENTRY ±100 SQ. FT. TOTAL AREA ±3,730 SQ. FT. EXIS WIN TO REM N 0 to; CLO. 14 1 0 LO z fn REVISIONS I BY co Lo 0:)W (� I I CID )W /1 ` E CO h+y CO CO � N O �^ 10 � 10 0 1 n p CID 0 ®N 4 a o W bc1 "z Q 0z U O SwF s U ® W � E-1 CO W w n�n �w V 1 I--i � � Q O r� C) --1 Q C) NON I-� I > O P -1 O C U � N�N GENERAL NOTES 1. ALL WORK TO COMPLY IN ALL RESPECTS WITH APPLICABLE FEDERAL, STATE, COUNTY AND/ OR LOCAL STATUES, ORDINANCES, REGULATIONS, LAWS AND CODES (i.e. NATIONAL FIRE CODE, NFPA 101 LIFE SAFETY CODE AND THE 2014, FIFTH EDITION OF THE FLORIDA BUILDING CODE). 2. CONTRACTOR MUST BE LICENSED IN THE STATE OF FLORIDA AND SHALL OBTAIN AN OCCUPATIONAL LICENSE WITHIN ST. LUCIE COUNTY. DATE 3. CONTRACTOR SHALL CONTACT ARCHITECT IMMEDIATELY UPON DISCOVERY OF ANY UNFORESEEN 7.8.2019 CONDITIONS. NO CUTTING SHALL BE DONE TO ANY STRUCTURAL MEMBERS EXCEPT FILE WHEN/IF SHOWN ON THE DRAWINGS. TT FT PIERCE..... 4. EXISTING CONDITIONS: CONTRACTOR TO NOTIFY ARCHITECT IMMEDIATELY IF EXISTING DRAWN CONDITIONS ARE NOT IN AGREEMENT WITH INFORMATION AND DETAILS SHOWN ON DRAWINGS. SCS 5. CONTRACTORS SHALL VERIFY ALL CONDITIONS AND DIMENSIONS AT THE JOBSITE. SCALE: AS NOTED 6. THE CONTRACTOR IS RESPONSIBLE FOR COORDINATION OF ALL TRADES AND WORK, INCLUDING WORK OF OTHERS WHERE AFFECTED. SHEET # 7. IT IS THE GENERAL CONTRACTOR'S SOLE RESPONSIBILITY TO KEEP ST, LUCIE COUNTY. UPDATED ON ANY ADDENDUM, CHANGE ORDER, OR PLAN CHANGES THAT WILL AFFECT THE PERMIT APPROVED SET OF PLANS. 8. ALL MATERIALS USED IN THE PERMANENT CONSTRUCTION OF THE WORK SHALL BE NEW AND UNUSED, FIRST QUALITY AND FREE FROM DEFECTS AND INSTALLED AS PER MANUF. RECOMMENDED PROCEDURES FOR THE APPLICATION AT HAND. ALL WORKMANSHIP SHALL O BE OF FIRST CLASS PROFESSIONAL QUALITY. 9. THE CONTRACTOR SHALL MAINTAIN A FULL SET OF COMPLETE AND CURRENT DRAWINGS AVAILABLE FOR REVIEW AT THE JOBSITE AT ALL TIMES. ALL FIELD MODIFICATIONS TO THE ORIGINAL DRAWINGS SHALL BE NOTED AND MAINTAINED FOR THE OWNER'S RECORD COPY. HVAC Basis of Design - Envelope Components - FEC Building Envelope Components shown on This Report are Based on Drawings that are Data Linked via 3D Smart CAD HVAC Floor Plan(s) Smart Figures. Any Changes to the Building EnvelopeComponent Types, Component Amounts, Interior Room Layouts, Building Orientation (North Arrow Compass), Building Usage, etc., Must be Communicated to the Dessgner. Conduct an Owner Survey per Appendix 1 "Survey," Page Al-1 to Establish the Listed Items on this Summary Page Meets the building Owner's Needs. See "Project Report" for Building Site Climatic Conditions and Indoor Design Conditions. See "Manual D Duct Size Data" Report(s) and "Manual S Equipment Selection" Reports) for More Detailed Information. See Energy Forms for Minimum Requirements of all Items. Rhvac - Residential & Light Commercial HVAC Loads Elite Software Development, Inc. Energy Code Consulting, Inc. 6285 hl Old Dixie Highway Exist w ATF 625 t 0 Lakeland, FL 33803 Page 9 Total BuildingSummaryLoads Component Area Sen Lat Sen Total Description Quan Loss Gain Gain Gain SP10875MOP: Glazing -Single Pane, Metal Frame 88 2,852 0 3,128 3,128 Operable, ground reflectance = 0.23, outdoor insect screen with 50% coverage, medium color blinds at 450 with 25% coverage, U-value 1.08, SHGC 0.75 SP10778MFX: Glazing -Single Pane, Metal Frame Fixed, 4 128 0 332 332 ground reflectance = 0.23, U-value 1.07, SHGC 0.78 SP10875MOP: Glazing -Single Pane, Metal Frame 54 1,750 0 1,215 1,215 Operable, ground reflectance = 0.32, outdoor insect screen with 50% coverage, medium color blinds at 450 with 25% coverage, U-value 1.08, SHGC 0.75 . SP10778MFX: Glazing -Single Pane, Metal Frame Fixed, 6.7 214 0 217 21 ground reflectance = 0.32, U-value 1.07, SHGC 0.78 FD4025: Glazing -Two Pane Law E Window Glass Door, 80 960 0 728 728 ground reflectance = 0.32, medium color blinds at 45e with 25% coverage, U-value 0.4, SHGC 025 11J': Door -Metal - Fiberglass Core, U-value 0.6 40 720 0 624 624 11 D: Door -Wood - Solid Core, U-value 0.39 20 234 0 203 203 BW4.2: Wilt -Block l , Custom, ) type Block Wall an R-4.2 1000.7 4,174 0 2,128 2,128 continuous insulation with any finish(es), U-value 0.139 FW 19: Wall -Frame, Custom, Wood Frame R-19 cavity 176 359 0 208 208 insulation with any finishes), U-value 0.068 HVA30-ad: Roof/Ceiling-Under Attic with Insulation on 2858 2,744 0 4.571 4,571 Attic Floor (also use for Knee Walls and Partition Ceilings), Custom, Hot Vented Attic R-30 Insulation, dark asphalt, U-value 0.032 FSOGO: Floor -Slab on grade, Custom, Slab On Grade R- 184 6,513 0 0 0 _ 0 edge insifiation any finish,_U-value 1.18 _ Subtotals for structure: 20,648 0 13,354 13,354 People: 3 690 900 1,590 Equipment: 780 2,730 3,510 Lighting: 0 0 0 Ductwork: 10,631 5,359 12,822 18,181 2 372 ' er CFM: 107 Summer CFM: 57 3 517 , Infiltration: Want , r 942 3 314 , Ventilation: Winter CFM: 0, Stammer CFM: 0 0 ____ 0 0 0 Total Building Load Totals: 34,796 9,201 30,748 39,949 Check Figures Q - Total Building Supply CFM: 1,550 CFM Per Square ft.: 0.542 Square ft. of Room Area: 2,858 Square ft. Per Tan: <, w Volume (ft3): 22,865 Building Loads Total Heating Required Including Ventilation Air: 34,796 Btuh 34.796 MBH Total Sensible Gain: 30,748 Btuh 77 % Total Latent Gain: 9,201 Btuh 23 % Total Cooling Required Including Ventilation Air: 39,949 Btuh 3.51 Tons (Based On 73% Sensible Capacity) Notes Rhvac is an ACCA approved Manual J, D and S computer program. Calculations are performed per ACCA Manual J 8th Edition, Version 2, and ACCA Manual D. All computed results are estimates as building use and weather may vary. Be sure to select a unit that meets both sensible and latent loads according to the manufacturer's performance data at your design conditions. HVAC SYMBOLS - FLORIDA BUILDING CODE 6TH EDITION (2017) AFF - Above Finish Floor AHU = Air Handling Unit _ om edit amWay BD -Bar G D rhr Pe BP =Bypass Damper CFM =Cubic Feet per Minute CU = Condensing Unit DH = De -Humidifier Flexible Ductwork FMC section 603 HVAC Notes 7 & 10 `-* 0 Ceiling Register (1 Way Throw Shown) FMC Section 603.18 HVAC Notes 4,7 & 10 Flex Duct Junction Boxes FMC Section 603 HVAC Notes 7 8 m LAq -� m wall Register (2 Throw Shown) r w FMC Section 603.18 HVAC Notes 4 7 & 10 ' e Ductwork Ductw Rectangular Section FMC Section & HVAC o es 7 & 10[ED Nt Floor Register 2 g Way Throw Shown)031 FMC Section 603.78.1 EER =Ener9Y Efficiency Ratio EF = Exhaust Fan FPM = Feet per Minute p HP = Horse Power HSPF = Heating Season Performance Factor HVAC Notes 4,7 7 & 10 Supply Air n 602 trunk d FMC Section 602 HVAC Notes 7 & 10� v ;(i. Floor m Ceiling Filter Grilo FMC Section 603.18 HVAC Notes 3, 4, 7 & 10 KW = Kilo Watts MTR = Motorized Damper MUA = Make tap Air 0FMC Return Air Plenum Trunk Section 602 HVAC Notes 7IT 10 _ Ceiling Grillo Ducted T/A HVAC Notes 3,ions �4,17 & 10 3.1g O/A = Outside Air Willi Filler Grille FMC Section 603.18 NVAC Notes 3, 4, 7 & 70 PKG = Package Unit R/A = Return Air $/A = Supply Alp + . Exhaust Fan EF-1 or as Noted FMC 501 HVAC Notes 4, 7, 9 & t0 SEER = Seasonal Energy Efficiency Ratio $F = Supply Fan SP = Static Pressure T/A = Transfer Air T H o o Equipment Controls 4 F , 9 & 11 FEC 4 Noise HVAC Notes 4, 6, 9 & YO Wall Selo Ducted T/A FMC Sections 601.5 & 603.18 HVAC Notes 3, 4, 7 & 10 V/A = Ventilation Air VDH = Ventilating Dehumidifier VTE =Vent t0 Exterior ZD = Zone Damper Em Zone/Bypass Air Dampers FMC Sections 303,304 8 306 HVAC Note 10 x rJ .ram. p 10 .-W. • . t Intake VentRoof/Wall FMC Section 401.5 HVAC Notes 2,4 & 10 S D _ Duct Mounted Smoke Detector FMC Section 6006 HVAC Note 10 . r J . 10 ' ' • :' Exhaust Vent Rooff Wall FMC Sections 504 & 505 HVAC Notes 2 & 4 / Horizontal Handler Ek- MC Sections 3gm3,3304 & 306 HVAC Notes 6, 9 & 10 1 J Branch Duct Volume Control Damper FMC Section 603.18 HVAC Notes 6,7 & 9 - Mount from Structure S HVAC FMC Notons es 4, 5 & 9 4 & 306 rr %` A` �% Vertical Air Handler On Stand or Attic FMC Sections 303,304 & 306 HVAC Notes 4, 5, 9 &10 - - - - - - - - - - - - Condensate Drain Lines FMC Sections 305 & 307 HVAC Notes 4, 5, 8 & 10 "`� I-*, TIT.0 '"& Ductless Air Handier Ceiling or High Wall Mount FMC Sections 303, 304 & 306 HVAC Notes 2, 4, 9 & 10 �_1, _ -d Refrigerant and Control Piping' FMC Sections 305 & 1101 HVAC Notes 4,8&10 �.../ Condensing Unit on Slab, Raised Stand or Roof FMC Sections 303, 304 & 306 HVAC Notes 2, 4, 9 &10 KI Equipment Access Panel FMC Section 308 HVAC Note 5 1" Undercut Door Typical Interior Doors FMC Section 601.5 __--- HVAC Note 3 HVAC Equipment Selection " EOIJIPMFNT Slut E.- E i ST FAN SCHEDULE 'AIR HANDLER MARK: "�At�a-1 AMU-2 _ FAN MARK: EF_i' ,,UNIT MANUFACTURER: tExisNng - Roused Existing - N/A MANUFACTURER: Existing - Roused UNIT MODEL NUMBER: Exisfing - Reused Existing - NIA MODEL NUMBER: ing - Reused ,i UNIT DIMEN H/W/D: 61.7x23.5x21.8 51.5x21.3x21.8 FAN TYPE: CEILING ' UNIT WEIGHT: 174 133 FAN CFM: 70 4 SUPPLY PLENUM SIZE : 20.5xl4.36 14.5x14.35 TOTAL PRESSURE: .3 RETURN PLENUM SIZE: 20.5x17.15 14.5xl7.15 FAN VOLTAGE: 120/1/60 MANUAL D DUCT CFM: i550 r 553 1000 / FAN AMPERAGE: •7 '.SUPPLY FAN CFM / SP : 1554 / .1 to .9 1003 /.1 to .9 FAN DIMEN LWH: 9X9X6 'SUPPLY FAN H/P : 3/4 1/2 DUCT OUTLET SIZE: 4 !VENTILATION AIR CFM: 0 0 DUCT INLET SIZE: 10x10 ,IAHUOFF /INFILTRATION: ` 58 1s FAN WEIGHT: 12 ,UNIT PHASE/ HERTZ: i 1/60 1/60 NOTES: 1,2 .:.UNIT VOLTAGE: __ -�11- 208 / 240 208 / 240•• 1 = VEN7 TO EXTERIOR +I HEATER KW: 7.2 / 9.6 3.6 / 4.8 2 =INTERLOCK WITH LIGHTS AHU + HEAT MOP: Existing Existing 3 = THERMOSTAT CONTROL CONDENSER MARK: CU-1 CU-2 4 = INTERLOCK WITH SAME ZONE HVAC NOMINAL A/C TONS : �-- 4 2.5 5 =VARIABLE SPEED CONTROLLER ; UNIT MODEL NUMBER: n; - Rausotl Existing - N/A 6 = ADJUSTABLE EXTENDED OPERATION UNIT VOLTAGE: 208/230/ 1 / 60 208M30/ 1 / 60 RESIDENTIAL OPTION: A 50 CFM MINIMUM UNIT MCA / MOP: 26 / 45 17 / 25 EXHAUST FAN MAY BE USED // FMC403.3.1.1 UNIT DIMEN H/W/D: 33x35x38 30x35x38 . _ ..w..-.. '.UNIT WEIGHT: 266 216 COOL / OUTDOOR TEMP: 90 92 1 93 90 1 92 1 93 1 29.2 • 1 Z9 TOTAL COOLING KBTUH: 48.3 47.6 1 47,2 29.9 29.5 SENS. COOLING KBTUH: ,A : I I 5 21.8 21 S LAT. COOLING KBTUH: 13.0 12.- 12.7 8.1 1 8.0 SENSIBLE HEAT RATIO: 0.73 0.73 AHHI 9: Existing/Reused Existing - N/A .TOTAL HEATING KBTUH: 43,5 kr 1-1 ?SEER / HSPF: 15.5 i g al ; 'THERMOSTAT MODEL: PROGRAM PROGRAM ALTERNATE BRAND EQUIPMENT WITH EQUAL .;CAPACITY + EFFICIENCY IS ACCEPTABLE - 'VIEW ENERGY FORMS FOR MIN. EFFICIENCIES, HVAC CONTRACTOR TO PROVIDE EQUIPMENT .TIE DOWN AND INSTALL INSTRUCTIONS + :;MATCHED EQUIPMENT AHRI RATINGS ON SITE FOR FIELD INSPECTORS APPROVAL. (INFORMATION SHOWN ABOVE IS SUBJECT'I O ;CHANGE / SITE VERIFY EQUIP. DATA PLATE, LSEE HVAC OPTIONS PAGE FOR UPGRADES. 33 3$ i _ _ - _J HVAC Equor ment Shown this Page is lot Slagle Stage Capacity: Softled In J Cerra tunas .. M�Bual . Edit Heat Loa ;'. P1 ion d Calculation Procedure, t Do t e ' kfCi ft sign and Manual S HVAC Equipment fit PwssedUM as ibstalred by Florida Energy C4 . cods Section R44a7. Sin. leSta e Capacity Notb eUn ' 9 9 Y Can Notbe Undersized Below the Manual J Hoot Lead calleufations or Oversized by More Than 15%of the Manual J Heat,,esd,CatOrdattorts (or Next of n"N rz$ Rvd tea Fb S._. e Befallen tin (s. Page �tor Code Sot HVAC ....tests arBrrddailtr.* A:..aat '� 1 " u-r=403r 7.1.2. See En 7 z, `i m,ies,wredtor this Pit Achieve a Passing.. Score. View HVAC for at flat Pr mt to the Oversized: by FECC Code edit Shown on Lifer to Install eased Atrflow !zed Staged AC Designer C,Qd,F.cgasl ispta Ic, to the HVAC Design Procedure conanovakT,t1se TYM of NVAC I flmn Loetp I Hint LO Typol , TUenaeiim,e I I HVAC Equlpffern HVAC "uW4-_ d aebclto FEcfl403J.1 Wn,ulS Peamxurse: Preaafot Owp Asaww Attu o.yiae 4092B5 a,b FNC 8093 o v score FECc 4M, 401 pine FECfl4Ux.106eM406 E,vgy =0 Cakuhtbrw Ova WIIN Ga. tsfio e:lc, 1n Wedos,obaulWbn ev., lire OW S Pool 3quere Pao,00.a..,a befem,Wy a He.1bR a,k Codhq Sonem as Rs.bue e,d Fo,bMden 4n Se aarldo auibiy Cote. expo Cote comu0bg usea Wth ntatvapy Rokyam pax Netted to CRY specif ns Rea sour! C.".. OHenetb",.by with met moms Hexi Lott Darasad met Oktefeo the HVAC Sa o,maT, Doc- shay oat Ali Donav Sebctbn sped In"Report ea Renected to unt.00" Sohmuno. Intelligent CAD Duet Figures and Graphic Manual D Duct Fittings In the Duct Design Reports, Every Duct Section and Fitting Indicated are Included in the Calculations Via Data Linking to Determine the Most Restrictive Air Path. Manual D Duct Design Data is Used for Air Handling Equipment Selection. The Maximum Velocities Used are Based on Manual D Section 3 Wa ges ages 3-6) of ACCA Manual D Duct Design. EIL3 L1L s Duct Velocity SUPPLY AIR SIDE f?1''f' i`8 AIR SIDE `' Shown is Feet Per FLEX RIGID Ft E`y RIGID MinuteV �' E Eu0 ELa Ixlutlm side,Topor Ptak Tap plums 2i 1 Trunk Duct 600 - 700 700 e 900 600 - 700 600 - 700 Main SupplyAir Plenums Branch Duct 600- 700 600 - 700 600- 7DD 4150- 700 5-E Main Return Air Plenums EL10 f�_ Y5, 2A Z L Iv*) 4-M., [ ) g) q g � EL95-all ELgae5 ELsZ5d0 `I.MLAe iz ELSE RUM &D &B EB &A aA3PC Eta ELI06a EL10.20 EUo3ii � 5 B &A ELta115 ELIO-110 EL10-75 Supply Branch Duct Takeoff Supply Air Hagistor Boxes Elbows for Supply and Return Return Branch Duct Takeoff z b? 0 a "� v {J '. .� ff Tab� ITTOI - ,014 ELSE EL80 ELM 0.9W .1WC 031WC Of ANC nap E54rr.peeau 111A Trimgte E1540 EL1 ELIOWN ': '� EL35 Supply Trunk Junction Fittings Intrinsic Branch Duct Damper flexible Duct Junction boxes for Supply and Return n a Ens sac ELIO Return Trunk Junction Fittings ==:;O:� li 2-0 2P 2A 12.0 12-L 12-a E19.10 ELS10 EL24 It lk EL5F100 EL5a75 ELIO-M E1124 RErDRN .09 WG SUPPLY Ail WC 45 Degree ROD, E'D Be EL10a0 ELl6 supply Branch Duct Takeoff Converging Tansitions for S/A & WA Intrinsic Air Side Devices for S/A and R/A Return Branch Duct Takeoff R0 sa 4 Z 4 ELI l aM ELM EL2p 12-H 12-c l EL1SAa EL211-00 EL10.t5 Heater 1'•Faxer DX Wet Call p&_.n .07 we .11-mfivc Nye aN fi-G EL10 am Supply Trunk Junction Fittings Diverging Transitions am SIA & R/A Intrinsic Equipment Devices Return Air Register Boxes HVAC MOTES - FLORIDA BUILDING CODE 6TH EDITION - EFFECTIVE 12/31/17 �®�N COMPLIES WITH THE 6TH EDITION FLORIDA BUILDING, RESIDENTIAL, EXISTING RESIDENTIAL, MECHANICAL AND ENERGY CODES. Vile E I. cs O RESIDL:NTIAL BASIS OF DESIGN NOTES: A C C9 '0 ® t . The HVAC drawings, heat load calculations and energy calculations are based on architectural drawings provided for permit application, These HVAC designs and specifications are in accordance with room by room ,a Cf) r_ heat load calculation procedures as outlined in Manual J 8th edition. This design incorporates the Department of Energy's Performance and Design Principles (https://www.nrel.gov/does/tyl2osti/53352, df . Deta' 4) C duct design and fittings can be found a t: https:/Ienergy.gov/sites/prod/files/2013/12/f5/cg5_duct_a litter_box_beach.pdf. p ) C bi` F" �r .cx+ = 0 of to While using architectural construction drawings, ACCA HVAC design procedures and calculations were performed via 3D CAD energy modeling and are specific only to this building. �1 5 VO The following are completed: Ir ��! Q�` a ® Z cg O (1) Room by room heat load calculations - determine the buildings thermal zones and room by room demands in accordance with Manual J 81h edition heat load calculation procedure GJ�V �'- R; 0 � 4) 00 t0 (2) The heat load calculations, selecting the HVAC equipment capacities in compliance with Manual S equipment selection procedure , G� 00 t 1 qp ,� I 0 (3) The room by room demand calculations - design the duct system in accordance with Manual D duct design V 6r\-- m� a 0 {erg' (4) Room geometry, duct type and average CFM demand - determine air device types, sizes and locations in accordance with Manual T room air distribution selection procedure OO Jv GO ,fig, cc 5, to (5) If multiple thermostats are used on a single HVAC system - duct zoning control system Manual ZR is used for the thermal zone grouping and bypass duct design 00 � 1�0 eh (6) Florida Energy Calculations - based on the ACCA HVAC design procedures listed above A . 0 C HVAC systems are designed to operate continuously during climatic design conditions as listed in manual J Table IA. Examples of the cooling season for outdoor climatic design conditions are: Lakeland = 97 '> N degrees, Gainesville = 92, Orlando = 93, Melbourne = 91, Tampa = 91, Sarasota = 92 and St. Petersburg = 93 degrees. Indoor temperatures are fixed by the energy code section R302 at 72 degrees for winter and 75 i ly degrees for summer. It should be noted that single stage cooling equipment will have no reserve equipment capacity included for record breaking outdoor temperatures, entertaining large amounts of occupants, � unusually low indoor temperatures or any other item(s) not fisted on the "Total Building Summary Loads" page displayed on these drawings. For deviations larger than code allowances, see FEC403.7.1.3 for selection of staged cooling equipment. The lowest operating stage of staged cooling equipment can be no greater than 15%of the heat load calculations performed at the climatic design conditions or the closest equipment capacity matching availability that neutralises both the Sensible and Latent heat. loads. The highest stage of staged cooling equipment has no sizing limitations. For the larger duct systems associated with the oversized staged capacity equipment, the I4VAC installing contractor must use Manual D duct design procedure or contact this designer for a new HVAC system design. c For detailed building envelope information such as the component layers.. insulation R values, NFRC glass values, component types and colors, quantity, etc., seethe "Total Building Summary Loads" section included O with the HVAC drawings. 'PW 10 The room air devices, air CFM values and branch duct sizes shown par room are calculated on the peak cooling season design conditions with HVAC equipment capacities based on Manual S equipment selection E procedures for the building's specific site location and orientation. This peak demand makes up approximately 15%of the cooling season, the remaining 85%of the cooling season, called part load conditions, 0 requires dedicated dehumidification equipment if year-round control of indoor moisture content is expected. Year-round moisture control is not part of these drawings and requires that the latent heat load C aeons are performed at la design talent pe part ad gn conditions, resulting in latent demands at least 20%higher when compared to the peak design conditions. Dedicated dehumidification equipment is required to control > moisture content year-round in Florida. Dehumidification equipment will monitor and control moisture content year-round using a humidistat or dew point sensor. Provide ducted dedicated dehumidifier(s) for C buildings that contain an ura ented'sealad attic' space, such as spray team insulation at roof deck underside or if roof is insulated above the roof deck. Mount the dehumidifier(s) in the sealed attic near the roof peak. W For a hot vented attic space, the dehuntid#jcMion equipment is ducted to the conditioned space and controls the moisture content inside the conditioned space using a humidistat or dew point sensor. O e HVAC INSTALLING CONTRACTOR: Y,. V C5 The HVAC installer must field inspect the building envelope component types and sizes, the room by room floor plan layout and the energy code forms match the "Total Building Summary Loads" page prior to any (a W 4) = HVAC installation to be sure the betiding constructed has not deviated. .4 9 a .4g I Ar The building envelope construction practice of 'semi -tight' is used for the building infiltration calculations. A field verification of the envelope, such as the air barrier in contact with the thermal barrier fully = E E 4) C encapsulates the conditioned space, should be done. t�. „�; ,4 _) The HVAC Installer must field verify that sealed draft stops exist, isolating the wall cavities from the exterior and/or hot vented attic spaces. g� 0 uII Buildings with hot vented attic spaces require the air and thermal barriers to be located at the ceiling plane. Buildings with unvented attics or single assembly systems such as, but not limited to flat, low slope, sealed pitched or web flat roof truss, require the air and thermal layer be located at the roof plane. NOTE Paper faced insulation, nor acoustical tile ceilings are an air barrier; thermal layers in contact with a grid ceiling are ignored in the heat load and energy calculations. These HVAC heat load calculations, drawings and energy code forms were based on the architectural drawings provided for permit application at or around the dated listed on plans; any modifications to the building room layout, building compass/orientation, occupancy amount, building use or classification, building envelope's component materials or size must be communicated to the designer. ITII-- 51- ()" -� HVAC Installer should red line sketch on the HVAC drawings any field changes made during construction and submit the'as built' red line sketch to this designer prior to any HVAC installation for redesign. Alternate air ducts sizes and air device sizes must be equal to the listed size(s) shown, do not exceed a 3-to-1 aspect ratio if alternate duct sizes are used. Do not install a cooling system into a building that its missing SCALE 1 /411=1 r-®1, a full building envelope. The installing HVAC contractor nlust provide a copy of the HVAG drawing sets' permit, HVAC calculations (any of the used Manuals: J, S, D, T and if applicable ZR), along with the energy code forms to the building ayut 3601i 24n ARCH D owner for approval. Installing HVAC contractor must perform the "owner survey" as shown in Manual J 8th edition, Appendix 1, to discuss the desired indoor temperatures, filtration, indoor air quality, year round moisture control and heafth issues that require special indoor conditions, interior mounted heat producing equipment that creates both latent and sensible heat outputs, occupancy amounts above Manual J maximums and any information not previously disclosed or shown in the "Total Building Summary Loads" included on the HVAC drawings. CODE OFFICIAL, HVAC CONTRACTOR AND GENERAL NOTES: Florida code section abbreviations: FBC = Building, FMC = Mechanical, FEC = Energy The proposed duct routing is general in nature, field conditions and building structure may dictate the exact mounting and configuration of the HVAC system(s). These HVAC drawings are not intended to show exact detail of every item required to meet the code requirements, see the isometric details for code section compliance references. Florida building code sections are listed for each HVAC drawing symbol to be used by the installing HVAC contractor and code official(a). Installer should reference the code sections prior to fabrication or installation of any HVAC system component. These NVAC drawings comply wail the Florida Building Codes &th Edition (2017) sections FBC101.4.2, FBC101.4.6, FBC105.3.1.2, FBC107.3.5'Mechanical' Plan review criteria. 1) HVAG installation must comply with the 6th edition Florida Building codes, Energy Conservation codes and Mechanical codes effective as of 12131/2017. Obtain all permits and inspections as required per code sections FBC105, FBC107 and FBC110. 2) All exterior building penetrations and Exterior mounted HVAC equipment, intake air vents, wall and/or roof vent caps, relief air caps, etc., must comply with FBC1609 wind loads. HVAC installing contractor must supply engineered product or equipment ANSI/AMCA 540 test information for attachment to the building envelope component per section FBC1609.1.2.A. A structural engineer's sealed detail drawing may be required for exterior equipment mounted above ground level per FBC1510.10. This HVAC design does not provide structural, equipment or hood tie down details. See structural engineer's drawings and details for equipment support and tie down information whom equipment manufacturer's engineered data is not available. Provide a balanced return airs stem per FMC601.6. All enc 3 Pro losable rooms require a �I" undercut on the interior Y P r door, allowing about 3 e9 0 CFM of air relief per a 30" wide door. 9 Habitable spaces require door undercut P P q I plus a ducted return air or a means for air transfer. Pressure d4itferentials across the restricted room can't exceed .01-inch w.g. Enclosable rooms located on the exterior building envelope should be balanced slightly positive. Size ducted transfer air du/ts' trse area 1.5 times larger than the supply air delivered to the enclosed room(s). Size direct through wall or door grilles at 50 square inches of grille free area to 100 cfm. V_ r dinate location of all equipment, tans air devices an building penetrations 4 Cood n n trations witri the :-se Herat contractor. Coordinate air device to 9 P cations with the electric contractor smoke detectors al ( ) General Contractor and Q building owner; the proposed HVAC airdevice locations are shown in the ideal location per Manual T room air device selection procedure, design alternate air device locations per Manuel T. The HVAC installer must verify accessibility and clearances prior to fabrication or installation o field vfan NVAC component. Protect the Y Y Pt building structure per F Y P MC302. Provide accessibilit for eleva g P fed equipment er FMC306.5. Fabricate Yp br ate � and install HVAC system components per FMC304 and FBCY 307 and product manufacturer's envelope penetration detail, FBC107.3.5 wind data for wall and roof penetrations, HVAC product installation instructions, 111) HVAC equipment manufacWrer's installation instructions, ARM energy and the equipment manufacturer's expanded capacity ratings must be available on the construction site at time arcade official inspections per C' 4 FBC107.3.1. CO LIJ 5) Attic mounted equipment must contain a shut off device to start the home owner if the primary condensate drain line is not working properly. Using 16 point bold text, post a "Home Owner Notice" on the electrical LA- = service panel alerting the home owner that the HVAC air handier is located in the attic space, see FEC403.3.6 for full compliance description and 'notice to home owner' language required. Provide a sealed attic access panel for hot vented attics, a sate workers' access deck, an attic light fixture with switch and an electrical plug outlet. t 6) Ventilation air follows per FBC1203, FMC401.2 and FEC403.6. This design may include mechan=tally induced controlled ventilation for the building that contains a forced air duct system, pressurizing the building's .10a interior during air handler operaYan provided by a ventilation air duct and motorized damper as shown. In cases when the ventilation rate is satisfied by the building infiltration rate, no ventilation air duct will be 0 M .X I shown. The ventilation rate may aim ka satisfied by use of properly sized windows to the outdoors per FBC1203.5, which are manually operated by the occupant(s). For large buildings with few occupants, the =1 building envelope infiltration rate arty satisfy the minimum ventilation rate required, see "Total Building Summary Loads" data for infiltration rate. Small buildings with many occupants will usually require a ventilation Lai a air duct, motorized damper and venNingon air duct routed to an approved exterior location, see "Total Building Summary Loads" for ventilation air CFM amount. A mandatory blower door test; FEC402.4.1.2, must be >, >, > performed to quantity the building's natural infiltration air CFM rate and to determine the design ventilation air CFM amount that will successfully pressurize the building's interior. The motorized ventilation air damper iU M LLI is dual controlled by both 'run-time' aild'tieanually on' control cycles. Installer may also add an air handier fan cycler to provide automatic air exchange during part load conditions; interlock the ventilation air damper �: y motor with the air handler fan motor NMI bun -time' cycling. The occupant(s) may also select 'fan -on' cycle for continuous ventilation when the outdoor conditions are favorable (i.e. low moisture and low heat). = = .® 0 0) L87 7) All duct sizes shown are clear interior 'free area' duct dimensions based on FMC603.2 Manual D duct design. Add 3" to listed sizes for R-6 exterior duct dimensions and/or add 4" to listed sizes for R-8 exterior duct .-.- to N dimensions. Fiberglass duct board shewna is equal to Knout 1.5". R-6, fabricate and install per SMACNA standards. Flexible ducts shown are equal to Atco 36 series R-6 class one air duct, not limited in length per e* <® FMC61)s.6.1.1. For prescriptive energy compliance method using form FE.C402-2017.. use R-8 supply ducts as required by energy code section R403.3.1. Construct all ducts per manufacturer's installation instructions 4) 4) 0) U_ .X and SMACNA standards for a maximum 1" w.g. Suspend and support the ducts from the building structure per FMC603. Use 26-gauge sheet metal or rigid foil face fiberglass duct board for rigid duct penetrations of X Coil I-' private garages per FMC603.7 and protect ducts per FMC607. Mastic seal all ducts installed outside the building's thermal envelope per UL-181 and FMC603.9. Provide accessible volume control dampers in branch ducts per FMC603.18. General exhaust ducts used for exhaust fan duct, ciofhes dryer duct, make up air duct and residential cooking appliance duct, up to 14" in diameter or equal free area in rectangular, are from 28-gauge `snap lock ducts table FMC603.9. Use flexible ducts 'snap I constructed sheet metal pipe,' mastic seat per air or 28-gauge sheet metal lock pipe' for ventilation air ducts. Test ducts when using energy V V 0 0code compliance method 402 as required by FEC403.3.3. ®F0 8) Provide a condensate drain piping system per FMC307 and a refrigerant piping systern per FMCHOT Extend condensate drain discharge 12" minimum from the building exterior wall, discharge to grass or other Z Z &- Cl) a) approved location; a condensate dr well may be required. Provide tin and supports for both condensate and refrigerant piping per F C305. PP Y Y 9 piping 9 Rp 9 PP 9 P M ,a � U) 9) Upon completion of the HVAC system installation, per Manual D, Chapter 16, test equipment operating capacities for both cooling anti heating to verify the equipment is functioning to the listed capacity. Verify the tmcoa C-4 N ad (O L6, IT- Ix air handler's total air flow, CFM, matches the HVAC equipment schedule or heat load calculation's minimum system airtlow rate. No duct system is self -balancing; thus, adjust each room's branch duct volume damper W to achieve the listed air flow values shown or to meet the building owner's needs. Use the air devices' volume damper for the last 10% of air balance to avoid noise at the air device face. Room air flow balance for buildings with concealed ducts should be accomplished during the 'rough in' stage of construction, prior to concealment of ducts. With the building air barrier fully intact, install and operate the air handler until flow is LU CA 0. U) proper air adjusted per room and a balanced return air path is also present. Use a self -compensating air flow hood for air flow measurements; perform air balance procedure in accordance with manual B or NEBB standards. When required by code, the air balance report to the building owner and code officials. A blower door test I_ M ff1 Lta, provide must be performed to verify that the building envelope's natural leakage rate does the infiltration or ventilation CFM rate indicated on the "Total Building Summary Loads" from these drawings. N U) 4 < not exceed W � IT AC proper operation sequence. uence. The thermostat i et to auto' mode monitor the conditioned ace's 10) HV p p p y s s nt space's temperature and provide heating, cooling, and ventilation when required. � � F" � ( } - Upon call the air handier tan interlock will open the ventilation air damper, er operate the indoor fan a Heating da and heat trm condenser a 0 p P R P PUMP rid/or electric heat strip until the space conditions are satisfied; uses 72-degree � � (j 13 CV thermostat setting during the heating season. I, < I® W W Cooling - the air handler fan interlock will open the ventilation air damper, operate the indoor fan and heat pump condenser until the space conditions are satisfied; use a 75-degree thermostat setting during the i � Z Z cooling season. favorable outdoor conodtons when the temperature and humidit are low he thermostat may be set to During t fan on' for continuous air circulation and introduction of 9Y Y ventilation air. � ® QITLI Lu 0 0 Energy Code compliant far newt constructed tom FEC403.1 . the HVAC installer must set the programmable To be es minable thermostat to provide 9Y P Y ). vide healing u to 70 degrees an ( P 9 P d cooling down to 78 degrees. Be ere 9 s not to 9 9IL 9 II - col the conditioned � ace: overcooling a building is defined as a temperature lower than the dew point temperature overt m rature for the interior sR 9 9 conditioned space. R Po P P ta! Most can easif lac driven to dew point temperatures Burin part (dad conditions. Overcooling a building Most buildings y p p g p g g successfully requires specialized HVAC equipment and controls. The heat removal (sensible heat) IT - arid moisture removal (latent heat) must be de -coupled and independently controlled for buildings to achieve temperature's lower than the'dew point safe' energy code set point of 78 degrees. W a. Z 11� 11) The information provided by the HVAC designer complies with climate zone 2A of the Florida Energy Conservation code design conditions FEC302: 72-degree heating set point and 75-degree cooling set point. The "Total U building envelope descriptions are shown on the HVAC drawings basis of design via the Building Summary Loads" as required by FEC303.1. HVAC heat load calculations and HVAC equipment capacity 0 selection per section FEC403.7.1,1 and FEC403.7.1.2. Air distribution thermal insulation layer as required by FEC403.3.1 and FEC405.5.2. Duct sealing as required by FEC403.3.2. Refrigerant piping insulation per FEC403.4. HVAC equipment controls per PEC403.1. Compliance demonstration is provided by energy conservation code form R402 prescriptive or R405 performance depending on construction type. Orientation O- D- e / �� 7 lout - d ScY MAIN � DRAWING DATE . J 7/1 /2D1 P If I PERMIT SET , 7saPs � im Exterior Roof Surface Range Hood (<400 CFM) FMC 605 Unscreened Roof Cap and Back Drag Damper. Fasten to Structure to Meet up to Wind Maximums. Engineered Fastening Detail and Manufacturer's Install Instructions are Supplied on Site by the Installing Contractor. tags Gel¢ Sheet Metal Duct Vented I Exterior Exterior Roof Surface Unscreened Roof Cap and Back Drag Damper. Fasten to Structure to Meet up to Wind Maximums. Engineered Fastening Detail and Manufacturer's Install Instructions are Supplied on Site iali� by the Installing Contractor. Domestic Style Clothes Dryer 4" - 28ga Galy. Sheet Metal Duct (e200 CFM) Review Compliance for Developed Length. FMC 504 Vent to Exterior Wall or Roof. Provide Wall Box or Via Dryer 11 Installation Instructions. Unscreened Wall Cap and Back Drag Damper. Fasten to Structure to Meet up to Wind Maximums. Engineered Fastening Detail and Manufacturer's Install Instructions are Supplied on Site Flexible Transltlon by the Installing Contractor. Duct Connection by Other(s) __ _ ....... _.. Exterior WeIVSogit Surface 00 N.T.S. Dryer Exhaust Detail Exterior Root Surface I Screened Roof Cap Fasten to Structure for up to 200 MPH Wind Maximums. Engineered Fastening Detail and Manufacturer's Install $xISTING Instructions are Supplied on Site EXrISTING „ by the Installing Contractor. General Exhaust Duct Vent to Exterior: Wall or Roof. Ceiling Exhaust AWFMC 501, 601 & 603 Fan Vented to Building Exterior j i FMC 501 Screened Wall Cap Fasten to Structure for up to 200 MPH Wind Maximums. Engineered Fastening Detail A and Manufacturer's Install Instructions are Supplied on Site by the Installing Contractor. ral 'Aackdraft er Exterior Wall/Soffit Surtace N.T.S. Exhaust Fan Detail Typical: All Interior Doors are 1" Undercut (Up to 30 CFM - FMC 601.6) i •a �'w /P / % / to I � 4 � , B i -1 "_ ®. A-u _ k 11 1 1 1 S15,7",180 CFM,Reg:10x10 814,T',tAa CF11,Rgp:1OX 16 1 1 i I 1 ATF Living A 1 r 1 1 1 1 R$9",205 CFM,Grille:12x12 1 1 1 1 1 1 1 1 1 � 1 1 No 1 t%4 6 ,20 CFY,GrflbATF :t2xt2 -. 1 1 i '1 a4 x $13,4",54 CFM,Regax4 1 4" 1 Dryer 1 VTE Reducer0 1y MoE ty To Fit Structure L Cap Sim Equals Outlet Trunk Duct Size plus 2" ox Trunk and Branch Tri-Box W2 Sizes shown on HVAC Drawing -.� Arrows) , Indicate i Airflow Direction W Trunk to Branch Junction Box Construct, Seal and Suspend from Structure FMC 601, 602. 603 & 604 Truct Duct Size DIMENSIONS - INCHES W H I L W2 6 -12 13 13 1 18 14,16 17 17 1 18 a 18,20 21 21 1 18 H Truct Duct Size DIMENSIONS - INCHES W H L 6 -12 13 13 18 14,16 17 17 18 18,20 21 21 18 aw N•T•S Flex Duct Junction Box Detail Supply/Return Air Duct Trunk or Flex Junction Box Construct; Seal and Suspend from Structure. FMC 601, 603 & 604 Installing Contractor may use this Secondary *Optional* Volume Damper; Provide Access for Adjustment. FMC 603.18 Ceiling Register Box Fasten to Structure with Register Box Rails. May Mount Floor, Wall or Ceiling Structure. Air Device Type may Vary from Shown. FMC 601, 603 & 604 Install Flex Duct with 45 Degree Elbows near the Trunk and Boot Connections. Allow 6" Min. Straight Duct at Boot and Trunk Connections. Duct Bends Shall Maintain a Center Line Radius of not Less than One Duct Diameter. Use U1181 Class 1 FMC 601, 603 & 604 Fasten Register or Grille to Register Box. May Mount Floor, Wall or Ceiling. Provide Primary Volume Damper and Adjustable Curve Blades. FMC 603.18 & 604 LN.T.S] Ductboard / Flex Duct Detail Werfor Condensing Unit Typical Pipe Cover Building FMC 303, 304 & 306 'MSpg Fasten, May Mount Interior P.XISTiMG �. High Voltage WalDisconnect amsawa I t 1I Switch Equipment Tie ie)ff P; lr x Down Bog. ,r ,i 1 ii Refrigerant Piping Control Wire Engineered Fastening (r( and Detail and, Routing may Vary Manufacturer's I,g{, FMC 305 & 1107 Installation Instructions i Supplied on Site by „"- Ali Installing Contractor t 4" Thick Concrete Slab t or Code Approved Equal FMC 303 & 304 Grade 3" Below Slab ~ N.T.S. I Condenser / Slab Detail Suppty Air Plenum Ventilation Air Duct Mechanically Fasten See Ventilation Air ,fj to Equipment Range. Detail Note. FMC 601, 602, 603 & 664 FMC 401 Air Handling Unit t FMC 303, 304 & 306 Return Air Plenum Mechanically Fasten to .u. Equipment Flange High Voltage \ May Mount Either Side Disconnect Switch or Rear of Air Handier. FMC 601, 602, 603 & 604 Refrigerant Piping and Control Wiring i FMC 305 & 1107 Primary Condensate Wra, Route to Exterior, Disohs chare 12" ! � Equipment Platform from Building P✓' Lined with Ductboard. FMC 305 & 307 Free Area Equal to __. Duct Flange Connection 6" Above Finished Floor EXISTING g ,� Water Detection Device FMC 307.2.3.1 Floor Wall cue N.T.S. Vertical Air Handler and Riser Detail EXISTING Sealed Duct Sleeve in Wall Cavity with i" Undercut Door. Size 100 CFM per 50 Square inches of Free Gdae Awe. FMC 601 & 603 Size 1.5 Times the Supply Air to the Enclosable Rooms) Plus Interior 1" Undercut Door (30 CFM) FMC 601.6 I I , I I ' Install Flex to Maintain a Center Line Radius of Not �� Less than One ' Duct Diameter. Typical Enclosable Room Use U1181 Class 1 1" undercut all FMC 601, 6113 & 604 Inventor Doors NN..T.S. Direct Wor Ducted Transfer Air Detail L IAlla aI a ®W �� + c v zs of C DO id r f� C 0 f�"' Z DO E� 7+O® (D U) O M >4W > u 1c moo Q OC) �w AF aE1g ED CODE, coMPL ST. LU'ClF at SCALE 1/411=10 -09 1 36rrx24rr ARCH D Orientation North 1 ' PERMIT SET Duct Zoning Control System _ 1 �,G t Thermal Zone Dampers Air Handling Unit , �hv `- - -;:.- Bypass Air Duct Return Air TIs ----- TO ------------ f� Thermal Zones Zoning Provides Multiple Thermostat Controllers on a Single HVAC System, Controlled by a Single Brain (Control Panel). This Option is Recommended for the Building Owner who Requires Better Temperature Control, a Lower Operating Cost, Lower Upfront HVAC Cost when Compared to Multiple HVAC Systems, the Ability to Meet the Thermal Zone Peak Hour Load and for Buildings that Don't have Adequate Exposure Diversity. This Zone Control System is a Minimum Requirement when Serving more than One Level of a Building from a Single HVAC System, for Buildings that have Variable Occupancies or Variable Usage and for Occupants who Prefer Different Temperatures Throughout the Building. HVAC Zone Control Systems Can Easily be Added to a Standard "Code Minimum" HVAC System, Providing Up To 30 Thermostats per HVAC System - A Huge Benefit when Compared to a Standard HVAC System Containing Just 1 Thermostat that is only Capable of Sensing the Room it is Mounted in. Zone Control Panels Monitor Each Thermal Zone Temperature and Provides Conditioned Air to Each Thermal Zone of the Building when and if Needed. HVAC Installer Must Install the System in Accordance with Manual ZR- Variable Speed Air Handler This Option is Normally a Default Selection for our Region. The Variable Speed Air Handier Motor Varies the Indoor Airflow During each Operation Cycle, Slowly Ramping up to Full Speed and Slowly Ramping Down to the off Cycle. This Varied Airflow Decreases the Amount of Time It Takes for the Indoor Coil to Reach Dew Point Conditions as Required for Moisture Removal While Increasing the Overall Efficiency of the HVAC System. Variable Speed Air Handlers Outperform Standard "Code Minimum" Air Handlers by up to 30%for Moisture Removal, due to Variable Airliner, this Air Handier Provides a "Loaded Indoor Coil" for a Longer Duration. Energy Recovery Ventilator yY� VenYiWtian Eanau /� I Ak Prom Frotn / OaAdaars Bui€ding t EnCd po i ore d wlw .�� This Option Increases the HVAC System Efficiency for Buildings that Require Ventilation. Almost Every Modem Building Requires Mechanically Induced Ventilation Air. Typically the Ventilation Air Duct is Connected Directly to the Air Handier Main Return Air Plenum. Installing an Energy Recovery Ventilator Inline of the Ventilation Air Duct will Reduce the Cooling System Demand. This Equipment Uses an Enthalplc Core Capable of Exchanging Energy from the Intake Air Stream to the Building Exhaust Air Stream, Without Mixing the Two Air Streams. A Day Timer and Air Handler Fan Relay Should be Used so that the Equipment Induces Ventilation Air During the Favorable Time of Day and Weather Conditions. Provide a Wall Mounted Controller Featuring all Operation Modes. lar Ionization This Option, Plasma Air Model PA600, Provides Both Negative and Positive Oxygen Ions That Neutralize Airborne Pollutants. Used in Conjunction with a Mery 13 Filter, This Option Uses a Gas Phase Disassociation Process Resulting in Cleaner and Healthier Indoor Air. Reduction of Smoke, Dust, Pollen, Bacteria, Viruses, VOC Gases, Mold Spores, and Odors. These Electronic Units Use Very Little Electricity and Mount in the Duct Air Stream. Germicidal Air Handling Treatment Typical Vertical Air Handler Shown 3 Piece Coil Configuration Horizontal Air Handler Similar This Option Provides Ultraviolet Light System(S) that Kills Airborne and Surface Microorganism Contaminants like Mold and Bacteria. www.Freshaireuv.com Model TUV-2000-1, 4 Light Shown Mounts in the Air Handler for Full Coil Coverage. d"�fS Seeletl Alec This Option is a Must for Buildings that Require Controlled Year Round Dehumidification and is Recommended for All Buildings In the Southeastern United States. This Dedicated Equipment can be Added to the Standard "Code Minimum" HVAC Duct System for Whole Building Dehumidification within the Conditioned Space - Install the Wall Mounted Dehumidistat in the Conditioned Space Near the Main Thermostat. This Equipment can also be Installed into a Sealed Attic Space with Intake Ducts Mounted High at the Attic Roof Peak; Use a Peak Mounted Dehumidistat for Control. Select a Ventilating Dehumidification System for Buildings that Require Interior Pressurization, Provide Equal Amount of Relief Air from the Building's Conditioned Space. Note that Both the Standard "Code Minimum" Equipment Selection and the Optional Staged Capacity Equipment Selection do not Provide Controlled Year Round Dehumidification Because the Latent Heat Removal Process is Coupled with the Cooling Cycle on all HVAC Equipment, Controlling Moisture in all Buildings Requires Dehumidification Equipment that can Remove Moisture Without Cooling the Interior Space and Controlled by a Stand Alone Dehumidistat Controller. High Efficient Air Filtration IThis Option Provides Cleaner indoor Air Using a 5" Thick Mery 13 Hepa Filter Added To The Standard "Code Mirlimum" HVAC System. This High Performance Particle Arrestance Filter can Capture Much More and Much Smaller Size Contamination than the Standard 1" Thick Air Filter. Hepa Filters can Better Protect the HVAC Air Handler Coil from Dust and Debris, and Requires Less Maintenance, as Most Buildings Require Just a Yearly Filter Change. Staged Capacity HVAC Equipment In „> t Stag. Equipment Contains a Variable Capacity Condensing Unit Capable of Adjusting the Equipment Capacity to Closely Match the Weather Conditions. Staged Equipment Operates Almost Continuously to Provide Setter Dehumidification, Filtration and Air Circulation. This Equipment Does Not Decouple the Sensible and Latent Heat Load Processes, See Whole Building Dehumidifier Option for Controlled Dehumidification, For Energy Code Minimum Equipment Sae HVAC Page 1 HVAC Equipment Shown is for Staged Capacity Selected in Compliance with Manual J, Manual S and Florida Energy Conservation Code Section R403.7.1,3. The Lowest Stage of the Staged Capechy, Equlpmant Can Not Be Undersized or Oversized by More Than 15%of the Manual J 1183 Heat Load. Do Not Use Single Stage Equipment of Equal Capacity, 1=' HVAC Installer Must Adjust the Duct System for the Increased Airflow Produced by This Upgraded Equipment or Contact the Original HVAC Designer. AIR HANDLER MARK: AHU-1 AHU-2 UNIT MANUFACTURER: 7 AMERI� CAN STND AMERICAYN STNB :UNIT MODEL NUMBER: j TAM9AOC60V TAM9A0C36 iI UNIT DIMEN H/W/D: E. 61.7X23.5X21.8 1 66.9X23.5X21.8 'UNIT WEIGHT: ) 178 143 SUPPLY PLENUM SIZE: 20.5x14.35 20.5x14.35 , RETURN PLENUM SIZE: f 20.5X17.15 20 5x17.15 'MANUAL D DUCT CFM: 17501? , 7zuUi? SUPPLY FAN CFM I SP: 1975/.110.9 ` 1197/` 1197.1 to.9to.9 SUPPLY FAN H/P : 1 1/2 VENTILATION AIR CFM: ? i ? AHU OFF / INFILTRATION: UNIT PHASE / HERTZ: i i / 89 1 / 60 UNIT VOLTAGE: I 208 / 240 208 / 240 HEATER KW: 7.2 / 9.6 3.614.8 AHU + HEAT MOP: CONDENSER MARK: r, 50 / 60 CU-1 25 / 30 CU-2 NOMINAL A/C TONS: 5 (25-100%) 3 (25-1010%) UNIT MODEL NUMBER: 4A6VOO60A1 4ASV0036A1 UNIT VOLTAGE: 208/230/ 1 / 60 !'. 208123911 /60 =UNIT MCA / MOP: 37150 I 26%40 UNIT DIMEN H/W/D: 45x37x34 41X891t85 UNIT WEIGHT: 270 284 i COOL /OUTDOOR TEMP: : 90 92 93 90 92 _-v 93' v TOTAL COOLING KBTUH: 56.6 55,8 553 36.3 35.a 35.5 _. SENS. COOL MAX KBTUH: 41.3 40,7 40 4 26.5 '7S.1 25,9 SENS. COOL MIN KBTUH: ) 10.3 10.7 f0,' ' Ei;6 6.5 +i.fi ' LAT. COOLING KBTUH: 95.2 15.1 14.9 9.8 9.7 9.6 SGN,IBLE HI -AI MAI IU: I U.13 U.73 AHRl9Sf75SHR:TC,SC,LC 114.5 40.9 113.6 _AHRI #: 10093453 10093448 TOTAL HEATING KBTUH: '. 5t,5 33.4 . SEER I HSPF: 19 / 10 19.75/ 'i n i THERMOSTAT MODEL: PROGRAM PROGRAM " ALTERNATE BRAND EQUIPMENT WITH EQUAL CAPACITY + EFFICIENCY IS ACCEPTABLE - =VIEW ENERGY FORMS FOR MIN. EFFICIENCIES. HVAC CONTRACTOR TO PROVIDE EQUIPMENT TIE DOWN AND INSTALL INSTRUCTIONS+ MATCHED EQUIPMENT AHRI RATINGS ON SITE FOR FIELD INSPECTORS APPROVAL. :INFORMATION SHOWN ABOVE IS SUBJECT TO CHANGE / SITE VERIFY EQUIP. DATA PLATE. ,SEE HVAC OPTIONS PAGE FOR UPGRADES. I 1830 Pre-Calc Exposure Diagram: Data Shown for -Room Heat Load Calculations, See'Duict Dr s)' for Sizes and CFMs Wefage Heigh 8.00000 t '47 1.J ' '. ew,i e f , occupants vent air cfm CONK BTUH BTUH AREA DAILY HOURLY R405.5.2 FECC (eff 12/31 /2017) 23.8 3630 4104 3 116606 4859 17900 + 86394 + 12312 = .5.2 DWELLING INTERNAL HEAT GAIN CALCULATOR 17,900 + (23.8*CONDITIONED FLOOR AREA) + (4104*NUMBER OF BEDS) = DWELLING DAILY INTERNAL GAIN 3-5 ach50 Building Rotation Hourly Net Gain ----------- - ---- ---- --- ---- --- ........ 61,(a00........................................................... .............. re -------- ----- --------------------- .-------------- .---- . 4,6#�t7 - _--- ---- ----- ---------- ----&__ -- -------- .I -------- ---•----- ---------- --- --- - 87 athri---------------------------------I f-- --- -- - ---.-- -- ?�--- ---- 46,000__________ _____ _____� at-___._ _ . -_-.__ " •.............. - W k +t.0043 ------------- ---- ------ ._.-..--•:..--_.-•--.-...... ....--._.....---. ...... ................................................................ . . . . . . . . . . . . . . . . . . . . \ ...... B arn Dam town 11 am 12 pet 1 on 2 Exn 3 pint 4 (:etc Sling 6 pm 7 Part Time of Day L+"e 71.71 0 N, Glass 14 NOT TO SCALE BUILDING EXPOSURE AND KEY COMPONENTS Exterior Wail ® 1 Orientation Air Handier Location Partition Wall I Conditioned Area I Condenser Location I� Interior°Wall H u Return Air Devices) 1 Gelling/Roof Exposure I� Fenestration: Overhan Offse4 e r Supply Air Device l Location(s) J Knee WallGround Reflection Other: Design Specific Break Wall ® Went: Exhaust Floor Exposure ® Vent: Dryer/Range �- C� Energy Code Consulting -c-PRU" ,4 T$3:P.rbornM DATA „ DMWATW eiri::x ref -W ifbAt3 8t 8r&,jn, X b : GLB POIA -. EjUCtwo(k 4b , , u u rk C 0 E L O C IIIIII�� SCALE4 0:. it 7/15/2019 PERMIT