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Permit 0102-M - Carlyle Technology
CITY OF TUKWILA or Building Division 6200 Southcenter Boulevard Tukwila, Washington 98188 (206) 433 - / S P? BUILDING PERMIT PERMIT # D/o z —/I1 Control # 88 -096 -M Work to be done HVAC Site Address 17620 W. VALLEY HIGHWAY Suite # Tenant CARLY1F TFCH. Building Use N/A Assessors Account # t-f //j Property Owner NORTH VALLEY BUSINESS PARK Phone # 457 -5544 Address 401 SECOND A\LENIIF SOUTH_ #200 SFATTI F, WA ZiP 98104 Contractor COMMERCIAL AIR 4EOMMFA *225M4 Phone # 883 -0957 Address 18425 N_ F. 6TH PAL R0Y 395 - g MONK, W! j Zip 98073 FOR BUILDING PERMIT ONLY Approved for Issuance By: Sq. Ft. 1st F1. Office Storage/ Warehouse Retail Other Occ. Load 2nd F1. 3rd fi. Total _ Fire Protection: EJ Sprinklers ❑ Detectors Zoning Type of Construction Special Conditions sq. ft. @ sq. ft. @ sq. ft. @ sq. ft. @ Total Valuation of Date: / 2©-1"1 1st F1. 2nd F1. $ other $ other $ Construction $ 12,500 Bldg. Permit Fee Receipt # 7 ./s'9 $ 35.00 Plan Check Fee Receipt # 72-,7 S__ _E, 75 Demolition Receipt # $ Surcharges Receipt # $ Other Receipt # 3 Other Receipt # $ TOTAL $ 43.75 FUR SIGN PERMIT ONLY ❑ Permanent [] Temporary ❑ Single Face ❑ Double Face ❑ Wall Mounted ❑ Free Standing [❑ Other Building face Setbacks: Front Side Side Rear Square Footage of each sign face Total square footage of sign Special Conditions THIS PERMIT BECOMES NULL AND VOID IF WORK OR CONSTRUCTION AUTHORIZED 1S NOT COMMENCED WITHIN 180 DAYS. OR IF CONSTRUCTION OR WORK IS SUSPENDED 0R ABANOONEU FUR A PERIOD OF 180 DAYS AT ANY TIME AFTER WORK l5 COMMENCED. I HE AND EXAMINED THI APPLICATION AND KNOW THE SANE TO 8E TRUE AND CORRECT. ALL PROVISIONS OF LAWS AND ORDINANCES GOV COMPLIED WITH W THER SPECIFIED HEREIN OR NOT. THE GRANTING OF A PERMIT DOES NOT PRESUME TO GIVE AUTHORITY TO VI �' Y • R STATE OR LOCAL LAW REGULATING CON$TR TI OR THE PERFORMANCE OF CONSTRUCTION. Sign , ;,9. ,t•� _ • Date r CERTIF' NING THIS TY ATE CANC HAT I HAVE REA OF W ILL L T •iv, I hereby affirm tha Contractor (signatur 8 I I licen ed N LICENSE f he CON 4ACTORS DECLARATION iness and Professions Code, and aq 1 Date i s full force and effect. 1 R OWNER- BUILDER DECLARATION ( ) 1, as owner of the property, or my employees, with wages as their sole compensation. will do the work. and the structure is not intended or offered for sale. ( ) 1. as owner of the property, am exclusively contracting with licensed contractor's to construct the project. Date Owner (signature) CITY OF TUKWILA Building Division 6200 Southcenter Boulevard Tukwila, Washington 98188 (206) 433 - Ig4-9 BUILDING PERMIT Work to be done Site Address Building Use Property Owner Address Contractor Address HVAC 17620 W. VALLEY HIGHWAY N/A NORTH VALLEY BUSINESS_ PARK 401 SECOND AVFNIIF SOUTH #2nn COMMERCIAL AIR fCfMMFA *22SM4 PERMIT # Control # 0/v 2 — /Lj 88 -096 -M uite enant cARLYLE TFCH. Assessors Account # 40f Phone # 467 -5544 SFATTI F, 1404 Zip 9$104 Phone # Zip 283 -0957 P 18425 N.E. 65TH P_n_ RnX_qg5 FOR BUILDING PERMIT ONLY Approved for Issuance By: S Ft. Sq. • sit FT: Office Storage/s Warehouse Retail Other Occ. Load " . • 2nd F1. 3rd FT. Total Fire Protection:(] Sprinklers [[ Detectors Loning Type of Construction Special Conditions Date: /-O 111 sq. ft. sq. ft. sq. ft. sq. ft. Total Valuation Bldg. Permit Fee Plan Check Fee Demolition Surcharges Other Other TOTAL 1st F1. $ 2nd Fl. $ other $ other $ $ 12,500 of Construction Receipt #7./5-q Receipt # Receipt # Receipt # Receipt # Receipt # $ 35.00 E__a, 75 $! $ 43.75 FOR SIGN PERMIT ONLY ❑ Permanent Ei Temporary 0 Single Face ❑ Double Face ❑ Wail Mounted ❑ Free Standing ❑ Other Building face Setbacks: Front Side Side Rear Square Footage of each sign face Total square footage of sign Special Conditions THIS PERMIT BECUMES NULL AND VOID IF WORK OR CONSTRUCTION AUTHORIZED IS NOT COMMENCED WITHIN 180 DAYS, OR IF CONSTRUCTION OR ru(lx :' ';ts:)E3 OR ABANOONEU FuR A PERIOD OF 180 DAYS AT A. ME AFTER WORK IS COMMENCED. I HE CERTIF GOV RNING THIS TV VI ATE l)R CANC Sign NAT I HAVE READiAND EXAMINED THI OF ' ILL II ONPLIED WITH W L T PRpvy is '' V APPLICATION AND KNOW THE SAME TO BE TRUE AND CORRECT. ALL PROVISIONS Of LAWS &Nu .03.kANCES THEN SPECIFIED HEREIN OR NOT. THE GRANTING OF A PERMIT DOES NOT PRESUME TO G:,( ►.'..O TTY To R STATE OR LOCAL LAW REGULATING CONSTR Ti CO OR THE PERFORMANCE LW ':NS'euCT10N. Date / I hereby affirm h 'bbl Contractor (signatur LICENSE CONTRACTORS DECLARATION f tlit IMSS and Professions Code, and my 1 ten is full force and effect Date OWNER - BUILDER DECLARATION 1 1, as owner of the property, or my employees, with wages as their sole compensation, will do the work, and the structure •% ^^ • ^�•a 7r e�a offered for sale. I I, as owner of the property, M exclusively contracting with licensed contractor's to construct the project. Date Owner (signature) CITY OF TUKWILA INSPECT! . }l RECORD Building Division 6.200 Southcunt.r Boulevard Tukiiils. W+shlnoton 98188 PERMIT #� �� (206) 433 -1849 //ie-, Dat e Type of Inspection Date Wanted ,5/2////(' 2 2/ (' a.m. p.m.. Site Address /7C .-e) 442!- l/2 /', / Project �8W -4/i r2. /fie 'lequestor Phone # ,Special Instructions Inspection Results /Comments: Inspector !s Date ���% AINX1 0.1. a1 zu ISIIi +vtxMYriktat:arxr 041,60 rowan raw+ era . rwstrrw*.- v, w. ..:mwn........... «...,m «.N.«..u......a w.,... w.... ,..,.� ................,..,..... CITY OF TUKWILA Building Division 6200 Southcenter Boulevard TukWilsr Washington' 98188 (206) 433 -1849 Type of Inspection Site Address /76t;.Q �t G Requestor L,�viii_ / INSPECTIO r RECORD PERMIT # /44; 4f Date Date Wanted Project Phone # Special Instructions Inspection Results /Comments:' /41 rrk:PG ?vfr. s . 5) Inspector tilt. Date 48H,L Series 48DP,DR Series Carrier HEATING • COOLING Si ngle- Rooftop :z „9B6 Units BUILDING DEPT. Gas Heating & Electric Cooling Weathermaker 1 48HD,LD /HDT,LDT Downshot 48HH,LH Horizontal 48H DD, LDD Downshot Dual Compressor (008) 48HHD,LHD Horizontal Dual Compressor (008) Nominal 3, 4, 5, 6, 71/2, 81/2 Tons Weathermaker 1+ 48HV,LV Downshot 48HZ,LZ Horizontal Nominal 5, 71/2 Tons 48DP,DR Nominal 10, 12, 15, 18 Tons Product Data 1 -86 Form 48H,L,D -1PD Table of contents Page Model Number Nomenclature Features Options and Accessories Physical Data Dimensions Selection Procedure Performance Data Model number nomenclature 48H,L,D GAS HEATING /ELECTRIC COOLING H — HIGH HEAT (Weathermaker 1, l +) L — LOW HEAT (Weathermaker I, I +) D — NO SPECIAL NOMENCLATURE 2 2 4 4 8 13 13 D — DOWNSHOT (Weathermaker I) H — HORIZONTAL (Weathermaker I) P — LOW HEAT R — HIGH HEAT ✓ — DOWNSHOT (Weathermaker I +) Z — HORIZONTAL (Weathermaker I +) Page Electrical Data 21 Typical Wiring Schematic 23,27 Controls 24,29 Application Data 25,29 Typical Piping and Wiring 28 Guide Specifications 25,30 48HDD008 -5 - — NO SPECIAL NOMENCLATURE T — TUBULAR HEAT EXCHANGER (004-006 Weathermaker I only) D — DUAL COMPRESSOR (008 only) Features Carrier's full line of gas heating and electric cooling single - package rooftop units is designed for small businesses, fast food stores, schools, office buildings, and shopping malls. There are 3 basic types: Weather- maker 1 (48H,L); Weathermaker I+ (high efficiency 48H,L); and 48DP,DR units. The Weathermaker I and 1+ Series features downshot models — the 48HD,LD, and 4811V,LV for roof curb applications; and horizontal models — the 48HH,LH and 48HZ,LZ for side supply /return applications. The 48DP,DR Series offers downshot air delivery for roof curb mount as standard. The 48DP,DR products can be converted to horizontal air delivery using an adapter curb assembly. Compact, self- contained units are readily trans- ported, rigged and installed. Thoroughly tested — AGA, ETL listed and ARI certified, High technology design techniques feature computer programmed balance between compressor, condenser and evaporator. Aerodynamically - designed condenser fan orifice increases airflow, reduces turbulence and dampens sound level while minimizing operating costs. 386 1 — 575.3.60 3 — 230-1-60 3 — 208/230.1.60 5 — 208/230.3.60 6 — 460.3.60 004 — 3 Ton 005 — 4 Ton 006 — 5 Ton 007 — 6 Ton 008 — 71/2 Ton 009 — 81/2 Ton 012 — 10 Ton 014 — 12 Ton 016 — 15 Ton 020 18 Ton Weather - resistant cabinet designed for durability under all climatic conditions, It's Carrier Weather Armor — galvanized steel, bonderized and painted for long life and good looks. Low - voltage terminal block makes control wiring connections quick and simple. Quiet, high volume fan operation — Indoor fans (007-016 models) are belt driven with adjustable drive for quiet and efficient operation. Outdoor fans are direct driven, factory . lubricated, and positioned for quiet effi- cient vertical discharge. In addition, indoor fans are capable of moving ample air quantities and achieving high external static pressures suitable for the most demanding application. Refrigerant coils — Built with energy efficiency in mind, the cooling coils feature staggered copper tubes and mechanically bonded aluminum fins to give you the most for your cooling dollar. AlumagardTM heat exchanger coating — Alumagard is an extra thick aluminum coating that provides corrosion resistance and assures long life performance. Intermittent pilot ignition — The pilot flame is ignited only on a call for heating. Fuel is never wasted between cycles. Indoor fan time -delay relay — ng heating mode, the indoor fan relay automatically its indoor fan after heat exchanger warms up. Prevents cold air from enter- ing supply air when conditioned space is calling for heating. Redundant gas valve — Safety is assured. Both the pilot valve and main gas valve are in series within one valve body. When there's no call for heat, the main gas valve and pilot valve block passage of gas to pilot light and main burners. Modular burner section — Efficient in -shot burners and all ignition components are contained in a compact assembly that can be easily removed for service and inspection. Induced draft combustion — Eliminates expense and unsightly appearance of flue stacks, and diminishes effects of winds on heating operation. The heat ex- changer operates under negative pressure and if any leakage should occur, the flue gases are drawn outside and will not enter the supply air. Combustion section view port — Designed with the serviceman in mind. Located on the unit's side panel, view port allows full visibility of flame operation at a safe distance from flue gases. 48H,L units: Separate downshot and horizontal models pro- vide application flexibility. No plenum required on downshot units. Air does not have to pass through a rooftop plenum. Since static pressure loss is reduced, more of the fan static pressure is available as external static pressure, increasing unit efficiency. No need for new roof openings, plenums, downturns or unit supports on horizontal units. High efficiency energy saving performance with cooling EER's up to 9.2 (Weathermaker 1 +). Belt -drive evaporator fan motor system (007,008,009) provides high static at nominal airflow. Turbo - Tubular'" heat exchanger — The tubular cell design of the heat exchanger results in a super- efficient 4 -pass configuration. A maximum amount of heat is transferred to the supply air because the hot gases make 4 passes across the supply air path. Dual refrigeration circuits on HDD,LDD /HHD,LHD 008 and HD,HH009 provide 2 stages of cooling. Improves part -load efficiency and reduces operating cost. Low - pressure cutout protection automatically guards against below - normal operating pressure and evaporator coil frost build -up. High- pressure switch protects against above normal operating pressures (008,009). Internal linebreak protects against overcurrent and overtemperature conditions. Cycle -LOCI" compressor protection prevents com- pressor short cycling. If any safety device trips, compres- sor shuts off assuring complete protection. Compressor restart is accomplished at the thermostat. Freezestat protects against low temperature operating conditions. Filter drier in refrigeration circuit traps moisture and dirt. Heavy -duty plastic shipping wrapper protects unit during shipment and storage. 3 Convenient sli` 'n filter track holds one -in. filters (downshot units ly). 48DP,DR units: Turbo - Tubular heat exchanger — The tubular cell design of the 48DP,DR heat exchanger results in an ultra - efficient "U" configuration. Maximum heat is transferred to supply air because the burner flame and resulting hot gases make 2 passes across the supply air path. Addi- tional heating efficiency results from turbulators located in each heat exchanger cell. The turbulators act as baffles, forcing the hot gases into contact with the cell walls and improving heat transfer from the flue gases. Part -load operation — The 10 -ton and 12 -ton units feature 2 hermetic compressors and 50% and 100% capacity steps. The 15- and 18 -ton units use the rugged Carrier 06D compressors with multiple steps of capacity control. Part -load operation assures you high energy efficiency and lower utility bills. Remote sensing of pilot flame — Runaway gas condi- tions are eliminated and safe operation is guaranteed. The pilot flame is proven (sensed) at burner farthest from ignition source, rather than at the ignition source itself. If pilot flame malfunctions and does not reach sensor, the main gas valve will not open. Rather than a bi- metallic sensor, which must warm-up and cool -down, the system utilizes a flame rectification sensor which quickly senses pilot flame and ignites burners almost instantaneously. Also, since the sensor is quick to react to any flame outage or system failure, fast shutdown is a certainty. Convenient duct connections — Openings in the basepan permit side -by -side or concentric ductwork connections without requiring unit internal modifi- cations. Side connections for horizontal duct appli- cations can be made using the side - supply curb accessory. Gasketing is provided with roof curb for a weathertight installation. Heating safety controls Limit switches shut off gas valve if excessive tempera- tures should develop. Centrifugal switch shuts down main gas valve in case of insufficient combustion air. Roll -out switch de- energizes gas valve on flame roll -out. Reliable, high - performance cooling power — Carrier - specified hermetic compressors (012 and 014) and semi - hermetic (016 and 020) are equipped with crankcase heaters, internal linebreak for protection against overcurrent and overtemperature conditions and Cycle-LOCTM compressor protection. Solid -state Cycle - LOC prevents compressor short - cycling by shutting off compressor if any safety device trips. Compressor is restarted by manual reset at the room thermostat (except for 016 and 020 units which, if compressor shuts off on overcurrent, requires circuit breaker reset at the unit). Ventilation air — Standard equipment includes manual damper which can be preset to admit up to 25% outdoor air for year -round ventilation. Units equipped with economizer have a thermostatically controlled, fully modulating damper which admits up to 100% outdoor air and provides low -cost cooling on mild days. Enthalpy control governs economizer cooling changeover to pro- vide lowest -cost operation in mild weather. Factory - installed opns and field - installed accessories* COMPONENT 48H,L MODELS (Downahot) 48H,L MODELS (Ho Izontal) Option Accessory Option Accessory Integrated Economlzer/W Hood X X Barometric Relief Damper 186 Two - Position Damper/W Hood Optional Motor and Drive X 1-6 Root Curb Manual Outdoor Alr Damper/W Hood X X 133 X Enthalpy Control 186 X Time Guards Circuit HOT00< Optional Motor X 198 X L.P. Kit Roof Curb X X 131 X Remote Control 187 X 129 X Thermostat 8 Subbase 181 X 125 X Time Guard 11 Device 214 X 147 X Motormaster"r Device ( -20 F Ambient) 175 X 273 X L.P. Kit 2 -4 X 199 X Low - Amblent Kit (25 F Ambient) 234 X 193 " X 'See Guide Specifications for descriptions. Physical data 4 I- A 3 786 COMPONENT 48DP,DR Option J Accessory Integrated Economizer W/Hood X X Two - Position Damper W /Hood B X Barometric Relief Damper 186 X Optional Motor and Drive X 1-6 Root Curb 130 X Remote Control 133 X Thermostat and Subbase 186 X Time Guards Circuit HOT00< X Motormastere Device ( -20 F Ambient) 198 X L.P. Kit 128 X Power Exhaust 131 X Winter Start Relay 187 X -> WEIGHT DISTRIBUTION AND CENTER OF GRAVITY UNIT 48- (Weathennaker I) WEIGHT (Ibs) OF CORNER DIMENSIONS (It -In.) 1 2 3 4 A B LDT004 126 186 189 129 3 -4 1-6 HDT005 130 192 195 133 LDT005 126 186 189 129 HOT00< 132 195 198 135 L070011 128 189 192 131 HH006 124 187 .. 191 129 LHO08 120 181 185 125 HD,HH007 141 214 218 147 3 -6 Singl001 175 254 273 188 3-31/2 2 -4 001 Dual Compr 199 288 339 234 HD,HH009 193 " 287 371 249 3 -11/2 2 -314 UNIT 41- (Wealhermaker I+) HV006 175 253 298 206 3.31/2 2 -4 HZO08 ` 162 235 277 191 HV,HZ0011 188 289 402 261 3.0 2 -3, LV,LZ0011 187 288 401 260 NOTE: Heaviest base unit weight only, accessories not included, -- WEIGHT DISTRIBUTION AND CENTER OF GRAVITY UNIT 44- WEIGHT (Ws) OF CORNER DIMENSIONS . _ (ft -In.) 1 2 3 4 A DP012 DP014 DP0111 OR012 DR014 DR01• 347 287 297 363 300 311 359 376 3 -5 3- 3 400 316 377 477 331 261 312 396 356 281 337 426 405 319 382 484 32 3 -2 389 454 582 2 -9 UNIT SIZE 46 SERIES MAKER I 004 (3 -Ton) 005 (4 -Ton) 006 (5 -Ton) 007 (6 -Ton) 008 (71/2-Ton) 008 (7'h -Ton; 2 Compr) LDD,LHD 009 2 Compr) HD,HH WEATHER LOT HDT LDT HDT LDT HH T LH FID HH HD,HH L6,LH HDD,HLD OPERATING WEIGHT (lb) Unit With Economiser Roof Curb 830 655 130 650 675 130 630 655 130 660 885 130 640 865 130 660 - - 640 -- - 720 745 130 720 - - 890 950 (HD) 125 D) 888 946 LO) 125 (LD) 945 1005 (HDD) 125 (HDD) 941 996 (LOD) 125 (LDD) 980 1040 (HD) 125 (HD) COMPRESSOR O11yy/Type O11(oz) 1/M40 42 I 1/P53 66 I 1 /P60 74 I F(ermetic 1/P60 74 1 P77 74 I 1 /BREZ" 2/P46 124 I 124 l 2/P46/P80 86 ea REFRIGERANT R -22 Charge (lb) api 5.1 ( 4.8 I 7.2 7.2 ) ary Z oniro 9,3 ' 9.9 6.2 per system ) 7.45/4.8 CONDENSER COIL Rows /Fine Per In. Face Area • ft 2/17 6.3 2/17 6.3 2/13.9 9.7 Copper Tube, Aluminum-PlateFms 2/13.9 3/13.9 2/13.9 9.7 10.8 15.8 CONDENSER FAN NominalCfm Motor Ho /Rom Motor 2200 ',/850 3100 ( 1/2/1075 3800 I 41/1075 Propeller 3800 1/1075 Type 4000 4500 1 1/1075 I 11075 6900 '1?1015 EVAPORATOR COIL Rowa/Flns Perin. Face Area • ft) 2/14 5.3 2/14 5.3 3/13.9 5.3 Copper Tube, 3/13.9 5.3 Aluminum Plate Fins 4/13.9 6.3 3/13.9 8.2 4/13.9 8.2 EVAPORATOR FAN Six,(in.) Type Drive NominalClm 10x10 Direct 1200 10x10 Direct 1500 HOT LOT HH LH HD HH 12x12 Belt 3000 3400 11x19 Direct 2000 11x10 Direct 2000 11x10 Belt 2000 11x10 Direct 2000 11x10 Belt 2200 Motor Hp Sid Opt '/, Y. 1'. - 1 - 3 1 h Y. i4 1 1 - 3 1 1.0 1.5 1.5 - Motor Frame Size Std Opt 48 48 48 - 48 - 48 48 56 56 48 48 56 - 58 58 56 56 Nominal Rpm High/Low Opt 1050/890 1000/890 11130/1000 1130/1000 - 11/30/1000 - - - Fen Rpm Range Std Opt - - - - 630- 980 796 -1130 - 930 -1260 796 -1130 930 -1260 838 -1032 852 -1127 828.1173 Motor Pulley Pitch Std Diem (In.) Opt - - - - - - - 1.9.2.9 2.4 -3.4 - - 2.8 -3.8 - 2.4 -3.4 2.8 -3.8 2.4 -3.4 2.4-3.4 1 - Fan Pulley Pitch Std Dlam (In.) Opt - - - - - - - - 5.2 5.2 - - - - 5.2 5.2 5.0 5.0 - Bell, Type /Length (In.) - - - - A/42 - - A/42 A/45 Speed Change Per Std Turn (Rpm) Opt - - - - -- - - - 88 - - 66 65 - l Max Turns Open - - - - 5 - - 5 5 Factory Setting Turns Sid Open /Speed Opt - - - - - - - - 2/830 2/995 - - 2/1130 - J" 2/1130 4017 4.5/885 0/1173 - Max Fan Rpm 1050 1150 1200 1300 1300 HEATING SECTION Firing Stages - 1 HD,HH LD,LH HHD,HDD LDD,LHD 2 1 2 1 2 Burner Orifice Dlam (In./drill else) Natural Gas Std Liquid Propane • Opt .116/32 .073/49 .132/29 .082/45 .113/33 •070/50 .132/29 .082/45 .113/33 .070/50 .132/29 .082/45 Pilot Orifice Dlam .. (In. /drill else) Natural Gas Sid Liquid Propane Opt .033/88 .018/77 .038/04 .0225/74 .033/88 .0275/74 .038/84 .0225/74 .033/88 .0275/74 •038/84 _ .0225/74 Thermostat Heat • Anticipator Selling 460 a 206/230 v 1.2 1.0 1.2 1.0 HIGH - PRESSURE SWITCH (paid) Cutout Reset - -- 428 t 7 320 ± 20 LOW - PRESSURE SWITCH (palg) Cutout Reset 27 ± 87 ± 7 _ 87 ± 7 • OUTSIDE AIR INLET SCREENS LxWsDepth (In,) Cleanable One; 32x19x1 (standard) or x2 (field supplied) Cleanable Two; 31x19x1 (standard) or x2 (field supplied) RETURN AIR FILTERSt LsWidreplh (In,) Disposable One; 25x16x1 `standard) or x2 field supplied One; 25x20x1 (standard) or x2 (Ileld supplied) Disposable Two; 20x16x1 (standard) or x2 (Ilold supplied) Two; 20x20x1 (standard) or x2 (field supplied) 'Copeland compressor. All others are Carlyle compressors. fHorizontal units have field- supplied and Installed filters. 386 Physical data (cont) � ) UNIT SIZE 48 SERIES WEATHERMAKER 1+ HV,HZ008 (5 -Ton) HV,HZ008 (71/2-Ton) LV,LZ008 (71 -Ton) OPERATING WEIGHT (lb) Unit With Cur Economizer Roof 946 1006 15 ( )) HV) 125 1140 1200 ( (HV) 1136 1125 LV) COMPRESSOR Quantity... Type 011 (oz) Capacity Steps ( %) 1...P53 Hermetic 78 100 1...Semi- Hermetic 06D 112 50/100 REFRIGERANT R -22 Charge (lb) Capillary Control 11.2 I 18.5 CONDENSER COIL Rows /Fans Perin. Face Area (sq ft) Co • per Tubes, Aluminum Fins 2/14.2 2.5/13.9 17.8 17.8 CONDENSER FAN Nominal Clm Quantity...Diam (In.) Motor Hp (1075 Rpm) 4000 1...22 h Propeller, Direct Drive 7000 2..22 '/ EVAPORATOR COIL Rows /Fins Per In. Face Area (sq II) Copper Tubes, Aluminum Fins 4/13.9 7.9 EVAPORATOR FAN Size(in.) Nominal Clm 12x12 2000 Centrifugal, Belt Drive 12x12 3000 Motor Hp Std Opt Y. — 1 1'h Motor Frame Size Std Opt 56 — 56 56 Fan Rpm Range Std Opt 760 - 1035 — 833 -1114 (@ 1 Turn Open) 850 -1180 Motor Pulley Pitch Diem Std (In.) Opt 2.4 -3.4 — 2.4 -3.4 2.4 -3.4 Fan Pulley Pitch Dlam Std (In.) Opt 5.5 — 5.0 5.0 Belt, Type /Length (In.) A/48 A/45 SpeeChange PerTurn Std t (Rpm) 55 66 Max Turns Open 5 5 Factory Setting Turns Std Open /Speed Opt 4/815 — 4/900 4.5/887 Max Fan Rpm g 1300 HEATING SECTION Faring Stages 1 2 • 1 Burner Orifice Dlam (In. /drill slze) Natural Gas Std Liquid Propane Accy .1130/33 .0700/50 .101/29. .082/45 .1130/33 .0700/50 Pilot Orifice Dlam (in. /drill size) Natural Gas Std Liquid Propane Accy .0330/66 .0225/74 .036/64 .0225/74 .0330/66 .0225/74 Thermostat Heat Anticipator Setting 480 v 230 v 1.20 1.00 HIGH - PRESSURE SWITCH (pig) Cutout Reset 426 t 7 320 t 20 LOW - PRESSURE SWITCH (psig) Cutout Reset 27 t 4 67 t 7 OUTSIDE AIR INLET SCREENSt LsWsDepth (In.) Cleanable Two; 32x19x'h (standard) or x2 (Held supplied) RETURN AIR FILTERSt LxWxDeplh(In.) Disposable Two; 20x20x1 (standard) tandard) or x2 (field supplied) 'With 2 -stage thermostat. tHorizontal units have field - supplied and Installed filters. UNIT SIZE 48DP,DR (10 012 -Ton) 014 (12 -Ton) 016 (15 -Ton) 020 (18 -Ton) DP DR DP DR DP DR DP OPERATING WEIGHT (lb) Unit With Economizer Roof Curb 1290 1400 200 1300 1410 1350 1460 200 1400 1510 1570 1680 200 1590 1700 2100 2210 200 COMPRESSOR QIy/Type 011 (oz) Capacity Steps ( %) Hermetic - 2/P64 76 ea 50.100 2 Cylinders 2/P77 76 ea 50,100 Semi - Hermetic 1/08DA537 160 67,100 - 6 Cylinders 2/06DA824 160 ea 50,100 REFRIGERANT R -22 Charge (lb) System 1", System 2 7.9/6.6 Capillary 8.3/8.3 Control 21.2/- 17.0/17.0 CONDENSER COIL Rows /Fins Per In. Face Area (sgft) 2/14 18.9 opper u .e, um 3/14 18.9 num • ate F ns 3/14 18.9 4/14 I 22.2 CONDENSER FAN Nominal Clm Oly /Diam (In.) Motor Hp (1075 Rpm) Watts Input (Total) 9000 2/22 0.5 4385 Propeller, 8000 2/22 0.5 1400 irect Drive 12,000 2/26 1.0 2672 11,400 2/26 1.0 3000 EVAPORATOR COIL Rows /Fins Per In. Face Area (sq ft) Copper Tube, Aluminum 2/14 3/15 14.7 13.8 Plate Fins 3/14 18.5 4/14 17.9 EVAPORATOR FANT Qty /Diam (In.) Nominal Cfm Fan Rpm Range Std Opt Max Allowable Rpm Motor Pulley Pitch Std Diem (in.) Opt Fan Pulley Pitch Sid Dlam (In.) Opt Bell Oty/Type /Length (In.) Speed Change Per Opt Turn (Rpm) Moveable Pulley Max Full Turns fr Closed Position Factory Setting - Full Turns Open Facto Speed Setting Std Rpm Opt Motor p (SF] Sid Motor Frame Slze Std Opt 753 878 1'h 2/10x10 4000 -1068 -1191 1550 2.4 -3.4 2.8 -3.8 5.5 5.5 1/V/41 63 5 5 753 878 1 [1.25 562) 56 Centrifugal, Adjustable 2/10x10 5000 805 -1093 978 -1265 1550 2.8 -3.8 3.4 -4.4 6.0 6.0 1/V/43 58 5 5 805 978 2 1.15 3 56 56 Belt Drive 2/10x10 6000 916 -1186 1158 -1428 1550 3.4 -4.4 4.3 -5.3 6.4 6.4 1/V/45 55 5 5 916 1158 3 (1.151 [ 56 56 2/12x12 7200 F.P. Pulley A - 846 F.P. Pulley B - 1058 1550 Pulley A - 3.2 Pulley B - 4.0 - 2/V/48 - - - 846 1058 5 (1.15) 184T - HEATINO SECTION Burner Orifice Diam (In. /drill size) Natural Gas Propane Gas Butane Gas Pllot Orifice Dlam (In. /drill size) Natural Gas Propane Butane Thermoostat Heat Anticipator Setting 206/230; Sty 1 /Stg 2 460; Stg 1 /Sig 2 Gas Valve City .98/- 1.2/- 1 I .98/.44 1.2/.44 2 .113/33 .073/49 .11 .073/49 .064/52 .064/52 .036/64 I 98/- 1.2/- 1 .98/.44 1.2/.44 2 I 98/.44 1.2/.44 2 98/.44 1.2/.44 2 .113/33 - - 064/52 - .98/.44 1.2/.44 2 HIGH - PRESSURE SWITCH Cutout (psi) Reset (psig� 320 LOW - PRESSURE SWITCH Cutout (pals) Reset (psig) 27 60 OUTSIDE AIR SCREENS Qty /LxWsDepth (In.) Two /20x25x1 One /20x20x1 RETURN AIR FILTERS Qty /LxWxDepth(in.) Two /16x20x2 Four /16x25x2 10% Efficient - 2 in. Two /16x20x2 Four /16x25x2 Disposable Fiberglass 1 ree Two /20x20x2 Three/16x20x2 Two /16x25x2 Four /20x20x2 Four /16x20x2 F.P. - Fixed Pitch SF - Service Factor 'System 1 consists of upper portion of outdoor coil and lower portion of Indoor coll. .Sizes 012, 014 and 016 have adjustable standard and optional pulley drives. Size 020 has 2 nonadjustable pulleys. Pulley A is Installed in unit; pulley B is shipped with unit. The020 unit Is not offered with optional drive. 7 386 Base unit dimension Weathermaker I, I+ (Hotcontal) FLUE HOOD 0'- LIMIT SWITCH ACCESS PANEL TWO OUTDOOR FANS ON HZ, LZ008; HH009 2''.DIAM HOLE- VALVE CONNECTION: "Q" NPT I }-DIAM HOLE FIELD POWER SUPPLY, DIAM HOLE FIELD CONTROL WIRING (4) CONDENSER AIRFLOW *EVAPORATOR AIRFLOW BURNER AC ESS. PACO i EVAPORATOR AIR FAN ACCESS PANEL CONDENSATE DRAIN (SEE NOTE) COMPRESSOR ACCESS PANEL PARTMENT• FRONT VIEW DIMENSIONS (ft -in,) UNIT MODEL 48 SERIES A B C D E F H J K S: - "- HH LHOO6 6.8 " /,e 3 -8Me 2 -8% 3 -8% 0 -51 1 -11h• 1 -11' 0 -1'h '1 -1'W 1 -0 1 -5'/:e 0 -3 "/16 0 -111/2 .• 0'/+' 1 -6 3 -4 ' 3 -6 ' HH007 7 -01/2 3 -87/0 2 -6% 3 -8% 0.51/2 1 -11/2 1.11. 0 -11/2• 1 -11/2 1 -0 1•5' /,e 0 -3 " /%e 0 -111/2 ' 01/2 1 -6 HZ008; HH,LH,HZ,LZ008; HHD,LHD008; HH009 7 -2V,e 5 -8e /to 3 -0% 5.9'/16 0-We 1 -6% 2 -6% 0 -11 1- 116/,e 0-4% 2 -2 0 -3'/ 0- 9% 0'h (1.11 0% (HH 2 -4 3 -5' .3 -1' on 481-1H009. NOTES: 1. AGA minimum clearance to combustibles: 36In. opposite flue; 6In. all other sides. 2. Minimum clearance from condenser coil for proper airflow:36 in. oppo- slte one colt; 12 In. opposite other coil (optional as to which coil); 72 In. overhead. 8 3. Minimum recommended clearance for service: 36 In. each side; 60In. overhead. 4. Factory- supplied condensate drain hose to be field attached, 114 in. OD x'/In. ID, In horizontal position through base rail. Field - supplied trap required. 5. Economizer available on downshot unit only. C r • ,Base unit dimensir3, Weathermaker I, I+ (DiJvnshot) B A TWO OUTDOOR FANS ON HV, LV008; 110009 HOPE FIELD FIELD POWER SUPPLY F OUTSIDE AIR I-1000 (OPTION) UPPER F LTER ACCESS PANEL CONTROL BOX /COMPRESSOR ACCESS PANEL CENTER OF GRAVITY REAR VIEW 1 j DIAM TYPICAL (6) PLACES M CONDENSATE DRAIN/ (SEE NOTE) • CONDENSER AIRFLOW EVAPORATOR AIRFLOW FRONT VIEW ACCESS EVAPORATOR FAN BURNER COMPARTMENT ACCESS PANEL DIMENSIONS (ft -in.) D1AM HOLE FIELD CONTROL WIRING LIMIT SWITCH ACCESS PANEL FLUE HOOD 2" DIAM HOLE GAS SUPPLY - VALVE CONNECTION - "N" NPT. UNIT MODEL 4i SERIES A S C • E _ F D H J , K L M N P O LDT004; HDT,LDT000; . 6 -8" /te 3-8%6 2-6% 3 -8%i 0.5' /,. 1 -1' 2 -8' /, 1 -3'/ 1 -5 0 -6°/,e 0 -3 " /,a 0.3% 0'% 1.6 3 -4 HDT,LDT008 110007 7 -0' /n 3 -8/, 2 -6% 3 -8% 0 -59A. 1 -1'% 2 -8' /w 1 -3Y%6 1 -5 0-5Ns 0 -3 " /%e 0 -3'% 0'% 1 -8 3 -6 HVOOS; HD,LD,HV,LV004; HDD ,L00Y LIMON; 7 -2'/. 5 -8% 3 -0% 5 -9' /6 0 -6° /6 1.6% 3 -2'/,e 2 -1 %6 2 -1 0 -9% 0 -3% 0.5'/. 0% (HD) 0h (LD) 2 -4 3 -5h' L— - - - - — - 1 - - *3 -1'% on 48HD009. NOTES: 1. AGA minimum clearance to combustibles: 36 in. opposite flue; 61n, all other sides. 2. Minimum clearance from condenser colt for proper airflow: 36 In. oppo- site one coil; 12 In. opposite other coil (optional as to which coil); 72 in. overhead. 9 3. Minimum recommended clearance for service: 36In. each side; 601n. overhead. 4. Factory- supplied condensate drain hose to be field attached, 1'% In. OD x r4In. ID, In horizontal position through base rail. Fleid- supplied trap required. . 5. Economizer available on downshot unit only. Accessory dimensiogi —roof curb (Downsho OUTLINE OF UNIT PLAN VIEW OF ROOF CURB \ zl x 2 ' GASKET; THIS END ONLY d- 3"— • G I I I ti } A 1 RETURN AIR I CURB OPENING CO r. r SUPPLY AIR CURB OPENING I 1 - 0 t0,_„ WEATNERMAKEN1004.007 5 -5% 2 -9 1 -2%i 1 -3 2 -855' 2 -10% SUPPORT BEAMS NOTE 2 SINGLE STRIP OF �- ice' GASKET -7 PLACES 0 - I "TYP OPTIONAL OUTDOOR AIR HOOD (CLEARANCE FOR BOLT HEADS) O1 -0 6 E —T- d- 3 0 -O. le Z„ (CLEARANCE FOR BOLT HEADS) NOTES: 1,, Roof curb accessory is shipped disassembled. 2. Insulated panels, with one -In. thick Isocyanurate foam, 21b density. 3. Attach all ductwork to roof curb. TYPICAL (4) SIDES GASKET (SUPPLIED WITH CURB) DUCT '(FIELD SUPPLIED) 4 NAIL COUNTER FLASHING (FIELD SUPPLIED) ROOFING FELT (FIELD SUPPLIED) CANT STRIP(FIELD SUPPLIED);' F. ROOFING MATERIAL (FIELD SUPPLIED)' 386 DIMENSIONS (ft -in.) UNIT TYPE, SIZE A • CO 1 P 0 H WEATNERMAKEN1004.007 5 -5% 2 -9 1 -2%i 1 -3 2 -855' 2 -10% 1 -21/2• 2 -81 WEATNERMAKER 1+00/,00 , WEATNERMAKER 1 0011,0011 5 -5'/u 444 1 -2 2 -31/2 4-8% 3- 31/2 1 -11/2 3 -7 10 �I } .Base unit dimensia's (48DP,DR) 25% AIR OR ECONOMIZER HOOD(ACCESSORY) 6' -IIZ I'-10" T1 -2„ 3-9 COMPRESSOR END 3i 3" at KO I FPT DRAIN CONNECTION If KO GAS OPENING/If NPT 34„ DIA DRAIN HOLE REAR VIEW ALTERNATE RETURN AIR OPENING ELECTRICAL ENTRANCE OUTDOOR AIR FANS 25% AIR OR ECONOMIZER HOOD ' (ACCESSORY) GAS SECTION ACCESS PANEL UNIT CONTROL BOX ACCESS PANEL INDOOR COIL 2" KO 3 IHKO e HOLE COMPRESSOR END 11 OUTDOOR CO I L E> INDOOR AIRFLOW *OUTDOOR AIRFLOW I >ALTERNATE AIRFLOW -v 11 L n�4 SPACE REQUIRED FOR • -`• SERVICE AND AIRFLOW Accessory dimensio `• (48DP,DR) (44) NOM. l+ x 4" (32)x (102) TYP. 4 PLACES 0' -I- (43) MITERED CORNERS (TOP ONLY) BLOCK OFF PAN FOR SIDE SUPPLY N ONDLY. O' -I *- (32) 0' -3" (76) OUTLINE OF UNIT PLAN VIEW OF ROOF OPENINGS 1ROOF CUR COMP. SECTIO 5' -7 (1703) DIMENSIONS (ft -in.) ACCESSORY PKG NO. A 50P0900221 1 -2 (356) 50P0900141 2 -0 (610) 50P0900151 2 -0 (610) NOTES: 1. Dimensions in parentheses ( ) are millimeters. 2, Attach all ductwork to roof curb. 3. Insulated panels, one -In. thick neoprene- coated, 11/2 lb density. 386 25 %VENT AIR/ ECONOMIZER HOOD AIR IN 0'-2 z, (64) 5' -6" (1676) 0' -61" (155 ' SUPPLY AIR CURB .PEN NG RETURN AIR CUR OPENS 5'-9" (1753) �SECTION 6'-2 ELECTRIC ENTRANCE T jI 0- 5g(132) 1305) 1"-04- 1'-o - l'-iO (578 (54) SIDE SUPPLY /RETURN CURB- 50120900 51 GASKET (SUPPLIED WITH CURB) 457) REF OUTSIDE NR NAIL �- OPTIONAL .: COUNTER FLASHING RETURN ) FIELD SUPPLIED T• A OPTIONAL SUPPLY ROOFING FELT DUCT tii FIELD SUPPLIED FIELD SUPPLIED ,'• 1 CANT STRIP (SEE NOTE 2) r;,. FIELD SUPPLIED SECTION A -A ROOF CURB INSULATION FIELD SUPPLIED p�A �E�RIAL SUPPLIED SIDE SUPPLY CURS FIELD SUPPLIED (50PQ900151) TRANSITION DUCT SIDE SUPPLY /RETURN CURB 12 (i f Selection prxedurtwith 48HD008 example' 1 Determine job requirements. Determine summer and winter design conditions for unit installation location. Assume this example: Summer cooling design of 95 F outdoor air ambient temperature (air entering outdoor coil). Winter heat- ing design of 0 °F outdoor air ambient temperature (air entering outdoor coil). Determine from engineering schedule or calculation: Air Entering Indoor Coil (cooling) wb 67 F Air Entering Indoor Coil (cooling) db 80 F Air Entering Heat Exchanger (heating) 70 F Air Quantity (cooling and heating) 3,000 cfm Total Cooling Load 84,100 Btuh Sensible Cooling Load 69,000 Btuh Total Heating Load 145,100 Btuh External Static Pressure (ductwork, etc.) 0 6 in. wg Power supply (volts - phase -Hz) 460-3-60 Unit configuration desired Downshot Other considerations Field- supplied 2 -in. filters desired 11 Determine unit size. Select unit to meet cooling requirements. Total cooling load of 84,100 7 tons. See Gross Cooling Capacities table for 48HD,LD008, 7 -1/2 ton down - shot. Enter table at 3,000 cfm and 95 F air entering 411L outdoor coil. Find: Total Capacity (TC) = 90,600 Btuh Sensible Capacity (SHC) = 69,300 Btuh Total Unit kW = 9.52 kW NOTE: These are gross capacities and do not include the effect of indoor fan motor heat. This is to be adjusted in Step V. 111 IV Find heating capacity of selected unit. NOTE: The 4 -, 5 -, and 7-1/2 ton units are available in both "High" and "Low" Heat models. When select- ing, always check first to see if the "Low Heat" model is adequate. If so, select it. If not, select "High Heat" model. Enter Heating Capacities and Efficiencies table for 48LD008. Note that the capacity of 91,200 Btuh output is inadequate. Enter the table for 48HD008 and find an adequate output capacity of 160,370 Btuh. Select unit fan. Enter the Physical Data table for 48HD008 and note that the evaporator fan is belt drive, and that 2 selec- tions are possible, the standard 1 Hp and the optional 1.5 Hp. Since 2 -in. field - supplied filters are to be used, enter the Accessory /FIOP Static Pressure Drop table for 008 units and find that at 3,000 cfm, pressure drop for these filters is .05 in. wg. Add this to the required external static pressure (ESP) of .60 to find total ESP of 0.65 in. wg. Enter the Fan Performance table for 48HD008 at 3,000 cfm and 0.65 in. wg ESP. Find by interpolation that the rpni is 970 and the bhp is 1.50. (The boldface type indicates that the selection is the optional motor, 1.5 Hp.) V Adjust gross cooling capacity to net. Use this formula: BHP x (2545 Btuh /Bhp) x 1 /Efficiency (See Motor Service Factors and Efficiencies table and find that unit 48HD008 with optional fan motor has an efficiency of .80.) 1.50 x 2545 x 1/.80 = 4,772 Btuh Therefore, net cooling capacity = 90,600 - 4,772 = 85,828 Btuh This meets the cooling requirement. Performance data HEATING CAPACITIES AND EFFICIENCIES UNIT MODEL 48 SERIES HEATING INPUT (Btuh) OUTPUT CAPACITY (Btuh) TEMPERATURE RISE (F) DOE SEASONAL EFFICIENCY ( %) STEADY STATE EFFICIENCY ( %) CALIFORNIA SEASONAL EFFICIENCY ( %) LDT004,005 80,000 81,600 30 -60 75 77 72 HDT005,006 f 120,000 92,400 35 -65 76 77 73 LH,LDT008 80,000 61,600 30 -60 75 77 72 HH006; HD,HH007 120,000 92,400 35 -65 76 77 73 HV,HZ006 114,000 90,060 15 -45 76 79 73 HD,HH008' 125,000/203,000 98,750/160,370 98,750/160,370 35 -65 35 -65 - - 79 79 - - HDD,HH0008' 125,000/203,000 LD,LH,LDD,LH0008 114,000 91,200 35 -65 - 79 - HV,HZ008' 125,000/203,000 98,750/160,370 20-50 - - 79 - LV,LZ008 114,000 91,200 15 -45 - 79 - HD,HH009' 125,000/203,000 98,750/160,370 35 -65 _ - 79 - DP012 154,000 123,000 15 -45 - 80 - 011012' 115,500/231,500 183,000 22 -55 - 79 - DP014 154,000 123,000 15-45 - 80 - DR014' 115,500/231,500 183,000 22 -55 - 79 - DP018' 115,500/231,000 4 183,000 22 -55 - 79 - DR018' 115,500/270,000 115,50072 ,. 216,000 - 22 -55 b=4b - - _ 80 80 - - 0P020' `Two -stage heat. 13 786 Performance data (At) ARI CAPACITIES UNIT 48 SERIES NOMINAL TONS STANDARD CFM NET COOLING CAPACITY (Btuh) TOTAL kW EER SEER BELS 1 -ph LDT004 3 -ph 3 1200 36,400 37,000 5.0 4.7 - 7.8 8.1 - 8.8 HDT,LDT005 11-phi 3•ph 4 1500 46,500 47,000 6.2 5.9 - 7.95 8_0 8.0 HDT,LDT, (1 -ph) HH,LHOO8 (3 -ph) 5 1900 2000 58,000 58,000 7.77 7.77 - 7.45 8.1 - 8 B HV,HZ008 (3 -ph) 5 2000 58,000 8.29 9.2 g -7 - HD,HH007 (3 -ph) 8 2200 75,500 9.2 8.2 - 8.6 LHOOB,HH, (3 -ph) 7h 3000 87,000 11.25 7.85 - 8.8 HDD,LDD,HHD, (3.ph) LHD008 71/2 2700 88,000 10.72 8.2 - 8.8 LZ008,HZ, (3 -ph) 71/2 3000 92,000 10.0 9.2 - - HD,HH009 (3 -ph) 8h 3400 101,000 12.82 7.9 - 8.8 Rated in accordance with ARI Standards 210 -81 and 270 -82, Ratings are net values, reflecting the effects of circulating fan heat. Ratings are based on: Cooling Standard: 80 F db, 87 F wb indoor entering air temperature and 95 F db air entering outdoor unit, ARI CAPACITY RATINGS UNIT 48 SERIES TOTAL kW COOLING CAP. NET BTU /HR. STANDARD CFM EER BELS DP,DR012 14.5 120,000 4000 8.3 8.4 DP,DR014 18.6 ' 149,000 5000 8.0 8.4 DP,DR016 21.7 180,000 6000 8.3 - DP020 27,8 220,000 7200 8.0 - NOTE: Capacities for 480P,OR014 and 016 and 48DP020 are not within scope limitations of ARI Certification Program. GROSS COOLING CAPACITIES 48LDT004 (3 -TON DOWNSHOT Temp (F) Alr Ent Cond (Edb) Evap Air - Clm/BF 900/.13 1200/.16 1500/.18 Evap AIr - Ewb (F) 72 67 62 72 67 62 72 67 62 85 SHC kW 20.6 4.2 24.8 4.1 29.1 3.9 41.2 4.3 27.8 4.2 34.0 4.0 21.8 4.3 28.0 4.2 33.4 4.1 95 TC SHC kW 38.5 19.6 4.5 35.4 24.7 4.3 31.2 27,8 4.2 40.0 20.1 4.8 37.4 27.1 4.4 33.6 32.2 4,3 40.6 23.0 4.6 38.5 29.4 4.5 35.7 35.3 4,4 105 TC SHC kW 36.4 19.1 4.7 32.8 23.5 4.8 29.4 26.5 4.3 37.9 21.2 4.8 35.0 27.0 4.7 31.2 31.0 4.5 39.0 22.3 4.9 36.1 28.9 4.7 33.3 33.0 4.6 115 TC SHC kW 34.0 18.8 4.9 29.7 21.9 4.8 27.1 25.2 4.5 35,4 19.3 5.0 31.9 25.5 4.9 28.5 28.4 4.7 36.5 21.7 5.1 33.3 28.5 4.9 31.1 31.1 4.8 48HDT /LDT005 (4 -TON DOWNSHOT) Evap AIr - Clm/BF 1200/.16 1500/.18 J 1900/.22 Evap AIr - Ewb (F) Tamp (F) AIr Ent Cond (Edb) 85 95 105 115 TC kWC TC kW TC kWC TC kWC 72 52.4 26.3 4,97 50,1 26.8 5.29 48.0 23.9 5.84 44.7 24.5 5.92 67 49.0 32,2 4.82 46.8 32.6 5.12 42.9 30.9 5.43 39.1 29.4 5.72 82 45.0 38.5 4.65 41.7 37.3 4.91 37.1 34.9 5.24 33.4 33,3 5.51 72 54.0 28.9 5.05 51,8 27.1 5.38 49.7 26.9 5.73 48.7 24.4 6.03 67 50.8 36.4 4.90 48.4 33,7 5.22 45,4 34.8 5.54 41.1 33.1 5.81 62 47.4 43.1 4.76 43.6 41.5 5.05 39.8 39.6 5.34 72 55.5 28.2 5.10 53.3 27.8 5'45 51.2 27.4 5.81 36.0 49.0 38,0 27.0 5.65 8.16 67 52.4 37.3 4.99 49.8 36.6 5.31 47.1 35.9 5.62 44.4 35.1 5.93 62 49.2 45.5 4.82 45.8 43.8 5.13 42.4 41.8 5.44 39.0. 39.0 5.75 14 48HH,LH /HDT,LDT006 (5 -TON DOWNSHOT /HORIZONTAL) Tamp (F) Air Ent Cond (Edb) Evap AIr - Clm/BF 15001.10 1 2000/.12 1 2300/.14 E vap Air - Ewb (F 72 67 62 72 67 62 72 67 62 85 TC SHC kW 67.3 33.0 6.15 63.G 41.9 5.91 57.1 49,6 5.66 69,1 35.5 6.23 65.6 46.8 6.03 80.2 58.0 5.79 70.0 37.1 6.28 66.3 49.5 6.10 61.5 60.8 5.87 95 TC SHC kW 84.0 31.9 6.54 58.7 40.1 6.30 51.9 46.8 6,03 88.0 34.8 8.65 61.1 45.4 6.42 55.8 54.3 6.19 66.9 36.5 6.71 62.2 48.3 8.48 '57,6 57.0 6.28 105 TC SHC kW 60.7 30.9 6.94 53.9 38.2 6.68 46.7 44.0 6.41 82.9 34.1 7.07 56.7. 44.1 6.81 51.4 50.6 6.60 63.9 35.9 7.13 58.0 47.2 6,87 53.6 53.3 6.69 115 TC SHC kW 57.5 ' 29.8 7.33 49.0 36.4 7.06 41.5 41.2 6.78 59,9 33.4 7.49 52.3 42.7 7.20 '47.0 46.9 7.00 80.8 35.4 7.56 53.9 46.0 7,25 49.7 49.7 7.10 48HV /HZ006 (5 -TON DOWNSHOT /HORIZONTAL) Tamp (F) Air Ent Cond (Edb) Evap AIr - Cfm/OF 1500/0.02 1 2000/0.03 j 2500/0.04 Evmo AIr - Ewb (F) 67` 62 72 67 62 72 67 ' 62 72 TC 66.5 61.2 54,2 89.0 64.0 58.4 70,4 85.5 62,1 85 SHC 33.3 42.1 49.5 36.9 48.4 58.0 40.0. 63.8 82,0 kW 4.91 4.77 4.61 5,00. 4.88 4.73 5.05 4.92 4.83 TC 64.0 56.9 48.4 68,4 60.2 54.3 67,9'62.1. 59.1 95 $HC 32.6 40.5 48.8 38.5 47.5 54.2 40.0 53.6 59.0 kW , 5.35 5.17 4,99 5.44 5.28 5.14 5.50 5.34 5.26 TC 59.8 50,2 42.9 62.7 54.1 49.3 64,2 56.7 54.4 105 $HC 31.2 37.9 42.8 35.6 45.2 49.3 39.4 62.0 54.4 kW ' 5.77 5.57. 5.40 5.88 5.67 6.57 5.94 5.73 5.89 TC 55,2. 42.4 38.1 58,7 47,4 44.0 60,5 50,8. 49.0 115 SHC 29.7 34.9 38.1 34.8 42.7 44.0 38.6 50.1 49.0 kW - 8,16 5.97 5.83 6.34 6.05 6.01 6,38 6.12 6.12 ■ (fi); u t GROSS COOLING CAPACITIES (cont) 48HD,HH007 (8 -TON DOWNSHOT /HORIZONTAL) Temp (F) Air Ent Cond (Edb) Evap Air - Cfm/BF 1800/.03 ' I 2400/.05 I 2700/.05 Evap Alr - Ewb (F) 72 67 62 72 67 62 72 67 62 TC 88.3 82.3 72.7 91.0 86.7 75.8 91.1 87.5 78.5 85 SHC 42.6 53.3 62.3 46.3 60.9 73.9 47.6 64.0 78.3 kW 7.56 7.26 6.86 7.69 7.47 7.09 7.68 7.52 7.17 TC 83.2 74.9 65.7 88.5 79.2 69.8 87.0 80.4 72.7 95 SHC 40.8 50.4 58.6 45.0 58.3 68.5 46.7 61.6 72.6 kW 8.03 7.73 7.34 8.20 7.93 7.62 8.22 7.98 7.71 TC 78.1 67.5 58.6 82.0 71.7 63.7 82.9 73.3 66.9 105 SHC 39.1 47.5 55.0 43.8 55.6 63.1 45.8 59.3 66.9 kW 8.51 8.20 7.83 8.71 8.39 8.15 8.76 8.44 8.25 TC 73.0 60.0 51.6 77.5 64.2 57.7 78.8 66.2 61.2 115 SHC 37.4 44.5 51.4 42.6 52.9 57.6 45.0 57.0 61.2 kW 8.98 8.67 8.31 9.21 8.86 8.68 9.29 8.91 8.78 48HD,LD,HH,LH008 (71/2rTON DOWNSHOT /HORIZONTAL) Temp (F) Evap Alr - Cfm /BF 2250/.08 3000/.10 1 3750/.12 Air Ent Cond Evap Alr - Ewb (F) (Edb) 72 87 62 72 87 82 72 _ 87 62 TC 98.1 91.1 82.7 101. 95.8 88.3 104. 98.6 92.6 85 SHC 52.2 80.0 71.2 56.8 72.2 86.3 59.4 77.1 89.8 kW 9.08 8.73 8.41 9.16 8.95 8.64 9.33 9.12 8.84 TC 93.5 85.6 76.3 97.7 90.6 82.7 99.9 93.5 88.6 95 SHC 49.3 59.8 71.0 54.8 69.3 78.8 59.5 75.9 88.1 kW 9.83 9.32 8.98 9.86 9.52 9.22 9.98 9.66 9.47 TC 88.3 79.0 68.7 92.6 84.8 77.2 94.7 87.8 83.5 105 SHC 48.1 59.0 88.6 52.4 67.0 78.1 57.1 78.4 81.5 kW 10.2 9.90 9.50 10.5 10.1 9.85 10.6 10.2 10.0 TC 82.5 73.6 63.1 86.6 77.4 71.1 89.0 80.5 77.5 115 SHC 46.2 57.5 83.1 50.4 66.4 71.1 54.8 74.7 77.4 kW 10.8 10.3 10.1 11.0 10.6 10.5 11.1 10.8 10.7 48HDD,LOD /HHD LH0008 (7 /z -TON DUAL COMPR/ DOWNSHOT /HORIZONTAL) Temp (F) Air Ent Cond (Edb) Evap Alr - Clm /BF 2250/0.08 I 3000/0.10 I 3750/0.12 Evap Alr - Ewb (F) 72 67 62 72 87 62 72 67 62 _ TC 97.6 91.1 82.6 100. 94.6 87.7 102. 97.0 91.7 85 SHC 49.0 62.4 74.0 53.4 70.5 85.0 57.2 77.6 91.5 kW 8.99 8.70 8.33 9.15 8.87 8.56 9.25 9.00 8.75 TC 93.6 85.5 75.7 96.8 89.6 81.5 99.2 91.7 87.2 95 SHC 48.1 60.4 73.4 53.0 69.6 81.5 57.6 76.9 87.2 kW 9.65 9.25 8.78 9.83 9.48 9.10 9.98 9.59 9.36 TC 87.9 77.8 89.3 91.8 82.6 74.8 93,7 85.5 81.5 105 SHC 46.2 57.4 67.1 51.8 67.2 74.5 56.8 75.3 81.4 kW 10.2 9.73 9.15 10.5 9.95 9.68 10.8 10.1 9.93 TC 80.9 87.4 59.6 84.7 72.5 66.8 87.0 75.4 73.3 115 SHC 43.8 53.3 59.6 49.9 63.1 66.7 55.2 71.3 73.3 kW 10.7 10.2 9.83 10.9 10.4 10.3 11.1 10.6 10.5 48HV.LV /HZ,LZ008 (71/2-TON DOWNSHOT /HORIZONTAL) Temp (F) Air Ent Cond (Edb) Evap Air - Cfm /BF 2250/.03 I 3000/.05 I 3500/.06 Evap Alr - Ewb (F) 72 _ 87 82 72 67 62 72 67 82 TC 102. 95.0 86.2 106. 99.6 91.2 107. 101. 94.5 85 SHC 50.6 61.9 74.5 53.8 70.6 88.7 54.5 74.9 92.6 kW 7.54 7.31 6.95 7.64 7.46 7.19 7.68 7.51 7.31 TC 100. 90.8 82.0 104. 95.4 87.2 105. 97.6 91.1 95 SHC 47.7 62.3 73.3 53.6 71.6 86.5 57.8 78.3 91.1 kW 8.18 7.81 7.40 8.29 8.06 7.64 8.36 8.12 7.84 TC 95.5 86.4 77.5 99.9 90.5 83.1 102. 92.4 87.2 105 SHC 48.8 59.9 71.4 52.3 70.1 79.4 55.7 75.9 86.9 kW 8.75 8.29 7.90 8.93 8.50 8.16 9.00 8.61 8.35 TC 90.5 81.2 73.2 94.8 85.3 79.1 96.7 87.1 82.9 115 SHC 46.8 58.1 88.1 53.1 87.6 75.3 56.8 73.4 82.6 kW 9.25 8.81 8.44 9.50 9.01 8.72 9.62 9.10 8.91 LEGEND BF - Bypass Factor Edb - Entering Dry -Bulb Ewb - Entering Wet -Bulb kW - Compressor Motor Power Input SHC - Sensible Heat Capacity (1000 Btuh) Gross TC - Total Capacity (1000 Btuh) Gross NOTES: 1. Direct interpolation is permissible. Do not extrapolate. 15 48HD,HH009 (81/2-TON DOWNSHOT /HORIZONTAL) Temp (F) Air Ent Cond (Edb) Evap Alr - Cfm /BF 2550/0.056 3400/0.081 4250/0.104 Evap Alr - Ewb (F) 72 87 82 72 67 62 72 67 62 TC 119.1 108.5 96.2 124.8 114.4 103.6 127.2 117.6 108.6 85 SHC 57.2 70.8 82.6 63.1 80.8 96.0 67.4 89.2 104.9 kW 10.0 9.6 9.2 10.2 9.9 9.5 10.3 10.0 9.7 TC 113.5 101.9 88.4 118.8 107.6 96.1 121.8 111.1 102.4 95 SHC 55.4 68.3 78.9 61.4 78.5 91.6 66.5 87.7 100.4 kW 10.7 10.3 9.9 11.0 10.8 10.2 11.1 10.7 10.4 TC 106.6 92.9 79.9 112.0 99.1 88.2 114.5 103.2 95.2 105 SHC 53.0 84.8 74.6 59.5 75.7 86.0 64.9 85.2 94.1 kW 11.4 11.0 10.6 11.7 11.2 10.9 11.9 11,4 11.1 TC 98.2 83.7 72.8 103.8 89.0 80.5 106.6 93,1 88.1 115 SHC 50.1 61.2 70.3 57.0 71.9 79.5 62.8 81.5 87.0 kW 12.1 11.6 11.2 12.4 11.9 11.6 12.8 12.1 11.9 48DP,DR012 (10 -TON) Temp (F) Air Ent Cond (Edb) Evap Alr - Cfm /BF 3000/.153 4000/.187 5000/.216 Evap Alr - Ewb (F) 72 87 62 72 67 62 72 67 62 TC 132 123 110 136 128 118 138 131 124 85 SHC 65 81 95 70 91 109 75 99 120 kW 12.2 11.7 11.1 12.4 11.8 11.4 12.5 12.1 11.7 TC 128 116 100 133 123 110 135 126 117 95 SHC 63 79 91 70 90 106 75 99 117 kW 13.0 12.3 11.9 13.2 12.3 11.9 13.4 12.9 12.3 TC 122 107 90 127 114 100 130 119 109 105 SHC 61 75 85 68 87 100 73 97 109 kW 13.6 13.1 12.6 13.9 13.1 12.9 14.1 13.5 13.1 TC 113 98 81 120 103 92 123 109 101 115 SHC 58 71 80 86 83 92 72 93 101 kW 14.4 13.8 13.3 14.8 14.1 13.8 14.8 14.2 13.9 48DP,DR014 (12 -TON) Temp (F) Air Ent Cond (Edb) Evap Air - Cfm /BF 3750/.058 I 5000/.090 I 6250/.125 Evap Alr • Ewb (F) 72 87 62 72 67 62 72 87 62 TC 169 156 140 174 163 149 180 169 163 85 SHC 85 106 125 92 121 145 105 143 163 kW 15.0 14.3 13.5 15.4 14.8 14.1 15.6 15.1 14.8 TC 162 147 128 168 154 140 175 182 156 95 814C 82 103 120 92 117 140 108 142 156 kW 18.0 15.1 14.4 16.4 15.6 14.9 18.7 16.0 15.7 TC 153 135 115 159 144 130 167 152 148 105 SHC 79 98 113 88 114 130 105 140 148 kW 18.8 16.0 15.3 17.3 16.4 15.9 17.7 18.8 16.6 TC 143 121 103 149 129 119 158 140 138 115 SHC 76 98 103 85 109 119 102 135 138 kW 17.6 16.9 16.4 18.1 17.3_18.9_18.5 17.6 17.5 2. The following formulas may be used: sensible capacity (Btuh) tldb - tedb 1.09 x cfm tiwb = Wet -bulb temperature corresponding to enthalpy of air leaving. evaporator coil (hiwb)• total capacity (Btuh) hlwb = hew b - 4.5 x cfm Where: hewb ° Enthalpy of air entering evaporator coll. 3. SHC is based on 80 F edb temperature of air entering evaporator coll. Below 80 F edb, subtract (corr factor x cfm) from SHC. Above 80Fedb, add (corr factor x cfm) to SHC. BYPASS FACTOR (BF) ENTERING AIR DRY -BULB TEMP (F) 79 78 77 76 75 under 75 81 2 83 84 85 over 85 Cor ectlon Factor .05 .10 .20 .30 1.04 .98 .87 .76 2.07 1.96 1.74 1.53 3.11 2.94 2.62 2.29 4.14 3.92 3.49 3.05 5.18 4.90 4.36 3.82 Use formula shown below. Interpolation is permissible. Correction Factor = 1.09 x (1 - BF) x (edb - 80). Performance data (cdift) GROSS COOLING CAPACITIES (cont) 48DP,DR016 (15 -TON) Temp (F) Air Ent Cond (Edb) Evap Air - Clm/BF 4500/.086 6000/.112 I 7500/.136 Evap Air - Ewb (F Evap Air - Ewb (F) 67 72 87 62 72 67 62 72 67 62 244 TC 203 188 169 212 196 180 224 208 196 85 SHC 98 122 145 105 138 167 120 158 188 20.2 kW 16.3 15.5 14.6 16.1 18.0 14.5 17.0 16.3 15.8 238 219 1- 242 229 212 247 236 223 95 SHC 95 SHC 95 119 138 103 135 161 117 155 178 22.1 kW 17.4 16.4 15.8 17.2 18.3 15.5 18.2 17.3 18.7 226 T 171 236 217 192 240 222 213 105 SHC 105 SHC 91 113 130 101 130 149 115 152 168 23.7 kW 18.5 17.6 16.9 18.3 17.8 16.8 19.3 18.3 17.8 213 TC 175 149 126 183 158 144 194 172 168 115 SHC 87 107 120 97 124 138 112 147 157 25,4 kW 19.5 18.8 18.2 19.4 18.5 18.8 20.4 19.3 19.1 48DP020 (18 -TON) Temp Alr Cond (Edb) STANDARD MOTOR -'b HP Evap Air • CIm /BF (F) Ent 5400/0.03 1 7200/0.05 9000/0.06 Evap Air - Ewb (F 72 67 62 72 67 62 72 87 62 ESP TC 244 230 211 249 238 223 254 243 232 85 SHC 112 145 175 123 165 203 133 183 222 .25 kW 20.2 19.7 19.0 20.4 19.9 19.4 20.7 20.2 19.7 .20 TC 238 219 192 242 229 212 247 236 223 95 SHC 111 141 165 121 163 198 132 183 213 .88 kW 22.1 21.3 20.5 22.2 21.7 20.9 22.5 22.0 21.4 .15 TC 226 202 171 236 217 192 240 222 213 105 SHC 106 134 154 120 159 183 132 178 203 .38 kW 23.7 22.9 22.0 24.3 23.3 22.6 24.5 23,5 23.1 - 1 TC 213 179 154 221 197 177 226 209 197 115 SHC 102 125 144 115 151 167 127 174 187 .43 kW 25,4 24.4 23.5 25.8 24.8 24.3 26.0 25.1 24.7 LEGEND BF - Bypass Factor Edb - Entering Dry-Bulb Ewb - Entering Wet -Bulb kW - Compressor Motor Power Input SHC - Sensible Heat Capacity (1000 Btuh) Gross TC - Total Capacity (1000 Btuh) Gross NOTES: 1. Direct interpolation Is permissible. Do not extrapolate. 2. The following formulas may be used; sensible capacity (Btuh) tldb - tedb - 1.09 x cfm tlwb - Wet -bulb temperature corresponding to enthalpy of air leaving evaporator coil (hiwb). total capacity (Btuh) hlwb " hewb 4.5 x cfm Where: hewb - Enthalpy of air entering evaporator coil. 3. SHC Is based on 80 F edb temperature of air entering evaporator coil. Below 80 F edb, subtract (corr factor x cfm) from SHC. Above 80 F edb, add (corr (actor x dm) to SHC. BYPASS FACTOR (BF) 79 81 ENTERING AIR DRY -BULB TEMP (F) 78 1 77 1 78 f 1 under 55 82 1 83 84 85 Correction Factor 11 .05 .10 .20 .30 1.04 .98 .87 .76 2.07 1.96 1.74 1.53 3.11 2.94 2.62 2.29 4.14 3.92 3.49 3.05 5.18 4.90 4.36 3.82 Use formula shown below. Interpolation Is perm ssible. Correction Factor = 1.09 x (1 - BF) x (edb - 80). FAN PERFORMANCE 48LDT004 (3 -TON DOWNSHOT - LOW HEAT) CFM STANDARD MOTOR -'b HP OPTIONAL MOTOR -'/4 HP Low Speed High 208 Speed 230/480 Low Spud 208 230/480 High 208 Seed 230/460 208 230/460 ESP Bhp ESP Bhp ' ESP Bhp ESP Bhp ESP Bhp ' ESP Bhp ESP Bhp ESP Bhp 900 .48 .19 A' .48 4 .T9 .50 AA .24 00 CD V A 0 .25 - ' - - - 1000 .30 .20 .38 .21 .42 .26 .26 .98 .34 1.0 .34 - - 1.13 .45 1100 - - .27 .22 .33 .27 .27 .88 .35 .90 .38 .99 .48 1.04 .47 1200 - - .15 .23 .24 .28 .29 .78 .37 .81 .37 .90 .49 .95 .50 1300 - - - - .15 .29 .30 .68 .38 .70 .38 .60 .51 .85 .53 1400 - - - - .05 .30 .31 .56 .39 .60 .40 .68 .54 .74 .56 1500 - - - - - - - .43 .41 .43 .42 .57 .57 .62 .68 48LDT,HDT005 (4 -TON DOWNSHOT - LOW /HIGH HEAT) STANDARD MOTOR -'/4 HP CFM Low Speed 208 230/460 208 High Speed 230/460 ESP Bhp E8P Bhp ESP Bhp ESP Bhp 1200 1300 1400 1500 1600 1700 1800 1900 .78 .68 .56 .43 .29 .11 .37 .38 .39 .41 .43 .44 .80 .70 .60 .50 .38 .25 .12 .37 .39 .40 .42 .44 .45 .47 .90 .80 .68 .56 .43 .30 .15 .01 .49 .51 .54 .57 .60 .63 .66 .70 .95 .85 .74 .82 .49 .35 .20 .04 .50 .53 .56 .58 .61 .64 .68 .71 16 48HDT006 (5 -TON DOWNSHOT - HIGH HEAT) STANDARD MOTOR - 1 HP Spied High Spud 230/480 CFM Low 8 208 230/480 208 ESP Bhp ESP Bhp ESP Bhp ESP Bhp 1500 1600 1700 1800 1900 2000 2100 2200 2300 .76 .64 .49 .29 .45 .48 .51 .54 .80 .70 .58 .41 .22 .48 .50 .53 .55 .58 .96 .88 .80 .70 .61 .50 .37 .23 .05 .62 .65 .68 .72 .75 .79 .83 .87 1.06 1.00 .93 .85 .78 .68 .55 .42 .26 .07 .70 .73 .75 .78 .81 .84 .87 .91 1.10 - " FAN PERFORMANCE (cont) � 48HDT /LDT006 (5 -TON DOWNSHOT - H(GH /LOW HEAT)* EXTERNAL STATIC PRESSURE (In. wg) (I CFM 0. Rpm 1500 1800 1700 1800 1900 2000 2100 2200 2300 2400 2500 779 817 855 893 931 970 1008 1047 1 Bhp 0.52 0.60 0.68 0.78 0.87 0.98 1.10 1.22 0. Rpm 827 863 899 938 973 1010 1047 1085 2 Bhp 0.57 0.65 0.74 0.84 0.95 1.06 1.18 1.31 0. Rpm 871 905 940 978 1011 1047 1084 1120 3 - Bhp 0.62 0.70 0.79 0.89 1.00 1.11 1.24 1.38 0. Rpm 911 945 979 1013 1048 1083 1118 1154 4 Bhp 0.68 0.75 0.85 0.95 1.05 1.17 1.29 1.43 0, Rpm 948 980 1014 1048 1082 1118 1151 1185 5 Bhp 0.70 0.79 0.89 1.00 1.11 1.23 1.36 1.49 0. 6 Rpm 937 959 999 1022 1047 1080 1114 1148 1182 'Values shown are for units factory equipped with optional one -hp belt drive fan. NOTES: 1. Factory pulley ratio provides 1260 rpm when ully closed. 2. Maximum allowable power = 1350 watts (1.52 Hp). Bhp 0. Rpm 7 Bhp 0.8 Rpm Bhp 1.0 Rpm .85 .69 0.77 0.84 0.93 1.04 1.16 1.29 1.42 979 973 995 1017 1046 1075 1100 1135 1170 1210 0.62 .69 .75 0.80 0.91 1.00 1.09 1.20 1.34 1.48 987 1009 1031 1060 1080 1110 1140 1164 1200 .68 .72 .78 0.83 0.94 1.06 1.17 1.27 1.38 1080 1081 1106 1128 1150 1175 1202 1250 Bhp .75 .81 .88 0.93 1.02 1.12 1.25 1.39 1. --Rpm 1135 1160 1170 1190 1210 1235 1270 2 Bh .81 .88 .96 1.04 1.13 1.23 1.34 1.46 1. R 1193 1219 1227 1245 1275 1300 1335 Bh .87 .94 1.02 1.13 1.24 1.34 1.46 48LDT008 (5 -TON DOWNSHOT - LOW HEAT) CFM 1500 1600 1700 1800 1900 2000 2100 2200 2300 STANDARt1t MOTOR -'/4 HP Low Speed High 208 230/460 208 Speed 230/460 ESP .56 .40 .20 Bhp .49 .52 .55 ESP .67 .55 .42 .27 .11 Bhp .48 .51 .53 .56 .59 ESP .81 .72 .63 .50 .37 .20 Bhp .68 .70 .73 .76 .79 .82 ESP .86 .78 .69 .58 .45 .25 Bhp .69 .71 .74 .77 .80 .83 2 ESP .78 .84 .49 .29 08 Bhp OPTIONAL MOTOR - 1 HP Low Speed High Speed .45 .48 .51 .54 230 /480 ESP .80 .70 .58 .41 .22 Bhp .48 .50 .53 .55 .58 20 ESP .96 .88 .80 .70 .61 .50 .37 .23 .05 8 Bhp .62 .85 .68 .72 .75 .79 .83 .87 1.06 230/ 80 Bhp ESP 1.00 .93 .85 .76 .66 .55 .42 .26 .07 .70 .73 .75 .78 .81 .84 .87 .91 1.10 48HV /HZ008 (5 -TON DOWNSHOT /HORIZONTAL) CFM EXTERNAL STATIC PRESSURE (In. wg) 0.1 0.2 0.3 0,4 0.5 0.8 0.7 0.8 0.9 "Rpm 1.0 1. Rpm - 1.2 1.3 1.4 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm /hp Rpm Bhp Rpm Bhp Rpm 1043 1060 1077 1095 1113 1133 - Bhp -lir .95 1.02 1.10 1.18 1.28 - 1600 1600 1700 1800 1900 2000 2100 2200 2300 2400 2500 549 580 612 645 678 711 745 778 813 647 861 .24 .28 .33 .38 .44 .51 .58 .68 .75 .85 .95 598 626 654 682 710 740 770 801 833 864 897 .29 .33 .38 .43 .48 .55 .62 .69 .78 .87 .97 647 671 696 722 750 777 606 834 862 891 921 .33 .37 .42 .48 .54 .61 .68 .75 .83 .92 1.01 b94 716 739 763 788 814 840 867 895 923 951 .38 .43 .47 .53 .59 .66 .74 .81 .90 .99 1.08 738i 759 781 803 820 850 875 900 926 953 981 .43 .48 .53 .59 .65 .71 .78 .87 .98 1.06 1.15 /01 800 820 842 884 887 910 933 958 983 1010 .49- .53 .58 .65 .71 .78 .85 .93 1.01 1.11 1.22 019 039 059 878 900 922 944 967 990 1014 1039 .b2• .58 .84 .70 .77 .84 .92 1.00 1.08 1.17 1,27 0b4 874 895 915 934 955 977 999 1022 1044 .b( .63 .89 .78 .83 .90 .98 1,07 1.16 1.25 1700 907 928 949 968 988 1008 1030 1052 .62 .68 .74 .82 .69 .96 1.04 1.13 1.23 914 939 959 980 1000 1020 1039 1080 1082 .67 .73 .80 .87 .95 1.03 1.11 1.19 1.29 954 971 989 1010 1030 1051 1071 1090 .72 .79 .85 .92 1.00 1,09 1.18 1,26 954 1002 1020 1038 1059 1079 1100 .77 .84 .91 .98 1.06 1.14 1.24 1014 1031 1049 1067 1088 1106 1127 .53 .89 .96 1.04 1.12 1.20 1.30 48HH006 (5 -TON HORIZONTAL - HIGH HEAT) CFM EXTERNAL STATIC PRESSURE 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 0.60 0.70 0.62 0.94 - _ - - - 1500 1600 1700 1800 1900 2000 2100 2200 2300 673 711 750 788 827 868 908 945 984 0.33 0.39 0.46 0.52 0.59 0.67 0.75 044 0.93 721 757 793 830 888 905 943 981 - 0.35 0.41 0.49 0.57 0.66 0.76 0.86 0.97 - 768 802 836 871 906 942 978 1015 - 0.40 0.46 0.52 0.59 0.68 0.77 0.88 1.00 - 811 843 876 910 944 978 1013 - - 0.43 0.50 0.57 0.64 0.72 0.81 0.91 - .- 853 883 914 948 979 1013 1047 - - 0.47 0.54 0.61 0.69 0.76 0.87 0.97 - - 891 921 951 982 1013 1046 - - - 0.51 0.58 0.65 0.73 0.82 0.92 - -- - 924 956 987 1016 1047 1078 - - - 0.55 0.62 0.89 0.78 0.67 0.98 - - -- 947 986 1019 1049 1079 1109 - - - 0.57 0.66 0.74 0.82 0.91 1.01 - - - 959 1009 1047 1080 1110 - - -- - 0.57 0.68 0.78 0.87 0.96 - - - - 957 1022 1069 1107 1139 - - - - 0.59 0.69 0.61 0.91 1.01 - - - - 939 1023 1083 1128 - - .... - - NOTES TO ALL FAN PERFORMANCE DATA TABLES Boldface indicates optional fan motor is required. Bhp - Brake Horsepower Rpm - Blower Speed. Revolutions Per Minute NOTES: 1. Values Include wet coil pressure drop. 2. Field- supplied filters to be Included in duct system external static pressure. Bhp x .746 kW Motor Efficiency 17 Performance data (ctht) FAN PERFORMANCE (cont) 48LH006 (5 -TON HORIZONTAL - LOW HEAT) CFM STANDARD MOTOR -'/4 HP OPTIONAL MOTOR - 1 Low Speed High Speed Low Speed HP High Speed 208 ESP Bhp 230/460 ESP Bhp 208 ESP Bhp 230/480 ESP Bhp 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 2500 .64 .49 .31 .1 .49 .52 .55 ,58 .78 .67 .54 .40 .22 .48 .51 .51 .56 .59 .91 .83 .72 .61 .48 .30 .16 .67 .69 .72 .75 .78 .82 .87 .97 .88 .78 .88 .55 .37 .30 .16 .68 .70 .73 .76 .79 .83 .88 .93 208 ESP Bhp .90 .80 .70 .35 .44 .55 .88 .74 230/460 ESP Bhp 1.10 1.00 .90 .80 .60 .45 .20 .43 .55 .66 .74 .80 .84 .91 208 ESP Bhp 1.36 1.20 1.10 1.00 .95 .85 .76 .68 .55 .45 .36 1.00 1.02 1.04 1.05 1.06 1.07 1.10 1.15 1.19 1.24 1.31 230/460 ESP Bhp 1.40 1.25 1.15 .95 .90 .80 .70 .62 .50 .40 .30 1.04 1.05 1.08 1.09 1.14 1.18 1.21 1.28 1.32 1.35 1.41 48HH007 (6 -TON HORIZONTAL - HIGH /LOW HEAT) CFM EXTERNAL STATIC PRESSURE 0.10 1 0.20 0.30 1 0.40 1 0.50 1 0.60 1 0.70 1 0.80 1 1.00 1.20 1 1. 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm 838 884 890 916 942 970 998 1027 1055 1084 661 693 725 758 791 824 857 891 924 958 0.38 0.44 0.50 0.57 0.64 0.73 0.81 0.91 1.01 1.12 712 741 770 799 829 859 890 921 953 984 0.42 0.48 0.54 0.61 0.69 0.77 0.86 0.95 1.06 1.17 757 785 814 842 871 900 928 957 987 1017 0.48 0.52 0.59 0.66 0.74 0.82 0.91 1.01 1.11 1.22 799 825 852 880 908 937 965 994 1023 1051 0.50 0.56 0.63 0.70 0.79 0.87 0.96 1.06 1.16 1.28 0.54 0.61 0.87 0.75 0.83 0.92 1.01 1.11 1.22 1.33 876 901 925 951 977 1003 1030 1057 1085 1114 0.59 0.65 0.72 0.80 0.88 0.97 1.06 1.17 1.28 1.39 912 938 980 985 1010 1035 1062 1088 1114 1142 0.63 0.70 0.77 0.85 0.93 1.02 1.11 1.22 1.33 1.45 946 989 993 1017 1041 1066 1092 1118 1144 1170 0.87 0.74 0.81 0.89 0.98 1.07 1.17 1.27 1.38 1.50 1014 1034 1055 1078 1101 1125 1150 1174 1199 0.76 0.83 0.90 0.99 1.08 1.17 1.28 1.38 1.50 1077 1097 1117 1137 1158 1181 1204 1228 0.85 0.93 1.01 1.09 1.17 1.27 1.38 1.49 Bh p 1139 1156 1174 1194 1214 1235 1256 0.94 1.02 1.11 1.19 1.28 1.38 1.48 48HD007 (6 -TON DOWNSHOT - HIGH HEAT) CFM 0.10 0.20 0.30 0.40 EXTERNAL STATIC PRESSURE 0.50 0.60 0.70 0.80 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 1.00 Rpm Bhp 1.20 1.40 Rpm Bhp Rpm Bhp 1800 1900 2000 2100 2200 2300 2400 2500 2800 2700 779 817 855 893 931 970 1008 1047 1086 1125 0.52 0.60 0.68 0.78 0.87 0.98 1.10 1.22 1.35 1.50 827 863 899 938 973 1010 1047 1085 1122 0.57 0.85 0.74 0.84 0.95 1.06 1.18 1.31 1.45 871 805 940 976 1011 1047 1004 1120 0.62 0.70 0.79 0.89 1.00 1.11 1.24 1.38 911 945 979 1013 1048 1083 1118 1154 0.66 0.75 0.85 0.95 1.05 1.17 1.29 1.43 948 980 1014 1048 1082 1116 1151 1185 0.70 0.79 0.89 1.00 1.11 1.23 1.38 1.49 999 1022 1047 1080 1114 1148 1182 0.77 0.84 0.93 1.04 1.16 1.29 1.42 1028 1065 1092 1114 1144 1177 1211 0.80 0.91 1.00 1.09 1.20 1.34 1.48 1048 1089 1128 1160 1181 1206 0.83 0.94 1.06 1.17 1.27 1.38 1111 1139 1168 1207 1248 0.93 1.02 1.12 1.25 1.39 1169 1196 1225 1253 1282 1.04 1,13 1.23 1.34 1.46 1225 1251 1278 1306 1.13 1.24 1.34 1.48 48HD,LD008 /HDD,LDD008 (71/2 -TON DOWNSHOT - LOW /HIGH HEAT EXTERNAL STATIC PRESSURE (In. w CFM 9) 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 1.0 1. 2 Bh Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Shp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm p 2300 2500 2700 2900 3000 3100 3300 3500 3800 705 745 790 830 852 874 914 985 1013 .68 .78 .91 1.04 1.11 1.19 1.53 1.83 1.95 739 771 814 859 887 915 949 1010 .71 .83 .95, 1.08 1.17 1.26 1.82 1.88 770 801 839 886 911 941 980 .78 .87 .99 1.13 1.24 1.36 1.70 799 824 869 915 934 952 1005 .82 .92 1.05 1.17 1.30 1.53 1.77 826 855 899 940 962 984 1035 .87 .97 1.09 1.26 1.50 1.62 1.87 854 885 929 974 992 1020 1069 .91 1.00 1.15 1.33 1.58 1.70 1.97 889 921 961 992 1017 1045 .96 1.05 1.22 1.53 1.64 1.76 925 949 994 1028 1047 1089 1.00 1.11 1.29 1.62 1.74 1.87 973 1019 1034 1057 1080 1.11 1025 1.25 1090 1.55 1150 1.75 - 1.91 - 1.29 1.40 1.85 48HH,LH008 /HHD,LHD008 (7'/2 -TON HORIZONTAL - HIGH /LOW HEAT) EXTERNAL STATIC PRESSURE In. w CFM 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp R Bh R.M Bh R.m Bh R Bh erimirrn 1. 2300 693 .66 725 .69 754 .75 785 .79 810 .82 840 .88 875 .94 909 .99 961 2500 731 .76 754 .80 785 .84 810 .88 840 .93 870 .99 904 1.02 934 1,09 1005 2700 770 .88 794 .92 819 96 850 1.01 879 1,06 911 1.10 939 1.17 976 1.24 1025 2900 809 1.01 839 1.05 865 1.09 895 1,13 920 1.19 954 1.29 975 1.35 1002 1.54 1056 3000 829 1.08 867 1.13 884 1.17 920 1.22 945 1.27 961 1.41 988 1.56 1025 1.67 1077 3100 850 1.14 891 1.21 915 1.24 945 1.32 956 1.52 985 1.62 1010 1.68 1050 1.60 1100 3300 900 1.29 911 1.53 946 1.60 975 1.72 1005 1.63 1040 1.59 1073 1.96 - - - 3500 934 1.71 972 1.82 1010 1.89 - - - - - - - - - - - 3600 962 1.86 - - - - - - - - - - - - - - - 1.09 1.23 1.48 1.89 1.82 1.96 1020 1075 1095 1110 Bh 1.20 1.40 1.72 1.87 18 A' t • FAN PERFORMANCE (cont) 48HV,LV008 (71/2-TON DOWNSHOT) CFM EXTERNAL STATIC PRESSURE (In. wg) 0.1 Rpm if hp 0.2 0.3 0.4 0.5 0.8 0.7 0.8 0.9 1. Rpm -Bhp 2300 2500 2700 2900 3000 3100 3300 3500 738 765 795 825 846 868 900 965 .81 .86 .78 .93 1.03 1.14 1.34 1.58 788 790 820 850 872 895 940 1003 .65 .71 .85 1.00 1.09 1.22 1.40 1.66 Rpm �hp 794 .69 815 845 080 900 922 978 1037 .76 .90 Rpm Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 1.06 1.16 1.27 1.47 1.73 820 845 873 908 928 960 1008 .74 .83 .95 1.13 1.24 1.34 1.55 845 875 905 938 960 993 1036 .18 .88 1.03 1.20 1.29 1.39 1.62 875 900 932 972 977 1017 1066 .84 .92 1.10 1.27 1,33 1.45 1.70 905 930 982 1002 1035 1056 .88 .99 1.15 1.33 1.40 1.53 930 961 992 1040 1082 1081 .91 1.04 1.21 1.37 1.48 1.60 960 998 1025 1073 1095 1105 .97 1.11 1.28 1.45 1.57 1.67 994 1022 1050 1091 1105 1125 1.02 1.15 1.32 1.53 1.63 1.73 48HZ,LZ008 (71/2-TON HORIZONTAL) CFM EXTERNAL STATIC PRESSURE (In. wg) 0.1 0.2 0.3 0.4 0.5 0.8 0.7 0.8 0.9 1.0 R • m Bh . Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bh . R.m Bh• R Bh• R • m Bh• 2300 725 .58 753 .62 781 .86 807 .72 832 .78 860 .81 892 .86 913 .89 946 .94 978 1.01 2500 748 .64 774 .69 803 .74 030 .79 853 .84 883 .90 912 .95 941 1.01 981 1.06 1006 1.13 2700 777 .75 804 .81 827 .85 850 .90 882 .98 909 1.03 942 1,07 978 1,17 1008 1,22 1035 1.27 2900 809 .89 833 .94 857 1.02 884 1.07 915 1.15 945 1.21 975 1.28 1006 1.34 1045 1.40 1073 1.46 3000 823 .98 848 1.03 876 1.10 901 1,18 939 1.24 975 1.31 1000 1.38 1034 1.42 1064 1.51 1094 1.57 3100 842 1.08 888 1.15 892 1.21 924 1.28 980 1.34 992 1.39 1022 1,46 1053 1.52 1074 1.60 1105 1.68 3300 870 1.28 900 1.33 939 1.40 975 1.48 1004 1.54 1035 1.61 1066 1.70 - - - •- - - 3500 920 1.48 960 1,57 998 1.66 - - - - - - - - - - - - - - 48HD009 (81/2-TON DOWNSHOT) CFM EXTERNAL STATIC PRESSURE (In. wg) 0.1 0.2 0.3 0.4 0.5 0.6 0.8 1.0 1.2 2600 2800 3000 3200 3400 3600 3600 4000 Rpm 735 788 838 890 942 994 1047 Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm 0.87 1.04 1.24 1.45 1.69 1.94 2.22 770 819 888 919 989 1020 1071 0.89 1.06 1.25 1.47 1.70 1.96 2.24 804 851 898 947 998 1045 1095 0.92 1.09 1.28 1.49 1.72 1.98 2.26 836 882 928 975 1022 1070 1119 0.96 1.13 1.31 1,52 1.75 2.00 2.28 888 911 956 1001 1048 1095 1142 1.01 1,18 1.38 1.58 1.79 2.04 2.31 899 941 983 1027 1073 1119 1185 1.06 1.23 1.41 1.61 1.83 2.08 2.35 963 999 1038 1079 1121 1185 Bhp 1.17 1.33 1.51 1.72 1.95 2.19 Rpm Bhp Rpm 1022 1058 1093 1130 1170 1,29 1,46 1.63 1.83 2.05 1077 1110 1147 Bhp 1.37 1.58 1.76 Rp 1.4 Rpm Bhp 1131 1162 1.38 1.65 48HH009 (81/4-TON HORIZONTAL.) CFM EXTERNAL STATIC PRESSURE (In. wg) 0.1 0.2 0.3 2800 2800 3000 3200 3400 3800 3800 4000 Rpm • 722 773 824 875 926 978 1029 Bhp 0.86 1.04 1.23 1.45 1.68 1.94 2.22 Rpm 755 803 852 902 951 1002 1052 Bhp Rpm Bhp 0.4 Rpm 0.5 bhp 0.88 1.05 1.24 1.46 1.69 1.95 2.23 788 834 881 929 977 1025 1075 Bhp - Brake Horsepower Rpm - Revolutions Per Minute 0.90 1,07 1.26 1.47 1.71 1.96 2.24 821 865 910 955 1002 1049 1097 0.94 1.10 1.29 1.50 1.73 1.98 2.26 Rpm 853 1 895 938. 982 1027 1073 1120 Bhp 0.99 1.15 1.33 1.53 1.76 2.01 2.28 0.6 'Rpm 0.6 1.0 1.2 885 925 968 1009 1053 1097 1143 Bhp 1.04 1.20 1.38 1.57 1.80 2.04 2,31 Rpm Bhp Rpm Bhp Rpm 945 983 1021 1061 1102 1144 1.14 1.30 1.48 1.68 1.91 2.14 1003 1035 1074 1112 1151 1.25 1.41 1.59 1.79 2.01 1085 1092 1122 1160 Bhp 1.36 1.53 1.70 1.90 Rp 1.4 Rpm Bhp 1.39 1_84 111 9 114 9 NOTES: 1. Maximum allowable fan speed, 1300 Rpm. 2. Maximum allowable Input watts, 2200 (2.47 Hp). 3. NOMINAL RPM TURNS OPEN NOMINAL RPM TURNS OPEN 1173 0' 966 3 1105 1 897 4 1035 2 828 5 'Factory Setting. NOTES TO ALL FAN PERFORMANCE DATA TABLES Boldface Indicates . optional fan motor is required. Bhp - Brake Horsepower Rpm - Blower Speed, Revolutions Per Minute NOTES: 1. Values include wet coil pressure drop, 2. Field - supplied filters to be Included in duct system external static pressure. Bhp x .746 _ kW Motor Efficiency 19 Performance data (clit) FAN PERFORMANCE (cont) UNIT MODEL 480P,DR CFM EXTERNAL STATIC PRESSURE (In. wg) 0.20 0.40 0.60 0.80 1.00 1.20 1.40 1.60 1.80 2.00 Rpm "Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp Rpm Bhp 012.. 3000 834 0,39 737 0.51 830 0.64 914 0.78 992 0.92 1088 1.08 1139 1.26 - - - - - - 3200 664 0.45 760 0.58 851 0.72 934 0.86 1009 1.01 1081 1.17 1150 1.34 1218 1.53 - - - 3400 695 0.53 785 0.66 874 0.80 954 0.95 1028 1.11 1097 1.27 1084 1.44 1228 1.63 1293 1.83 - - 3600 726 0.61 811 0.75 897 0.90 974 1.05 1048 1.22 1115 1.38 1180 1.58 1242 1.74 1303 1.94 1364 2.16 3800 750 0.70 839 0,85 921 1.00 997 1.16 1069 1.33 1135 1.50 1198 1.68 1250 1.87 1318 2.07 1376 2.23 4000 792 0.80 867 0,96 945 1.12 1020 1.28 1089 1.48 1158 1,84 1217 1.82 1273 2.01 1334 2.21 1389 2.42 4200 825 0.91 896 1.07 970 1.24 1043 1.41 1111 1.59 1178 1.78 1237 1.97 1294 2.16 1351 2.36 1405 2.57 4400 859 1.03 927 1.20 997 1.37 1087 1.56 1135 1.74 1197 1.93 1258 2.13 1315 2.33 1369 2.53 1423 2.74 4600 893 1.16 957 1,39 1024 1.52 1091 1,71 1157 1.90 1219 2,09 1279 2.30 1335 2.51 1380 2.71 1440 2.92 4800 928 1.30 989 1.48 1052 1.67 1117 1.87 1181 2.07 1244 2.27 1300 2.47 1356 2.69 1410 2.91 1460 3.12 5000 962 1.45 1020 1.64 1081 1.84 1143 2.04 1205 2.25 1265 2.46 1322 2.67 1376 2.89 1430 3.12 1480 3.34 014 3750 740 0,78 856 0.95 957 1.11 1049 1.27 1132 1.44 1202 1.62 1255 1.81 1282 2.00 - - - - 4000 773 0,92 885 1.11 983 1.27 1074 1.44 1155 1.81 1230 1.79 1293 1.99 1340 2.19 1366 2.39 - 4250 807 1.07 914 1.26 1011 1.44 1099 1.61 1180 1.60 1254 1.98 1322 2.17 1379 2.38 1423 2.59 1450 2.80 4500 842 1.23 945 1.43 1039 1.63 1124 1.80 1204 1.99 1278 2.18 1346 2.38 1409 2.59 1482 2.81 1504 3.03 4750 878 1.40 978 1.62 1069 1.83 1152 2.01 1230 2,21 1303 2.41 1371 2,61 1435 2.82 1493 3.04 1544 3.28 5000 915 1,60 1011 1.82 1099 2.05 1181 2.25 1256 2.44 1329 2.65 1396 2.86 1459 3.07 1519 3.29 - - 5250 952 1,83 1045 2.06 1129 2.30 1210 2.52 1283 2.71 1355 2.93 1422 3.15 1485 3.36 1544 3.58 - - 5500 990 2,06 1079 2.30 1181 2.55 1240 2.78 1313 3.00 1381 3.20 1448 3.43 1510 3.66 - - - - 5750 1028 2.31 1114 2,58 1194 2.82 1270 3.06 1342 3.30 1408 3,51. 1473 3.73 1538 3,97 - • - - - 6000 1067 2.59 1149 2.85 1228 3.11 1300 3.37 1372 3.62 1437 3.85 1499 4,07 - - - - - - 6250 1105 2.88 1184 3.15 1261 3.42 1332 3.69 1402 3.96 1466 4.20 1529 4.43 - - - - - - 016 4500 801 1.05 890 1.26 971 1.46 1050 1,67 1125 1.88 1200 2.12 1275 2.39 1349 2.70 1421 3.03 1490 3.39 4800 843 1.25 928 1.47 1006 1,68 1081 1.90 1153 2.13 1223 2.36 1293 2.82 1384 2.92 1433 3.24 1501 3,59 5100 885 1.47 968 1.70 1043 1.93 1114 2.16 1183 2.40 1250 2.64 1316 2.90 1382 3.18 1448 3.49 1514 3.86 5400 927 1.71 1008 1.95 1080 2.20 1148 2.44 1214 2.89 1279 2.94 1342 3.20 1403 3.47 1466 3.77 1529 4.16 5700 971 1.98 '1049 2.24 1118 2.50 1134 2.75 1247 3.01 1309 3.28 1370 3.54 1429 3.81 1487 4.11 1547 4.43 6000 1016 2.28 1091 2.55 1158 r 2,83 1222 3.10 1282 3.38 1342 3.64 1401 3.92 1458 4.20 1514 4.50 1569 4.80 6300 1059 2,80 1133 2.89 1198 3.17 1259 3,48 1318 3.74 1375 4.02 1432 4.31 1487 4.61 1542 4.91 - - 6600 1104 2.96 1174 3.26 1239 3.56 1297 3.86 1355 4.15 1410 4.45 1464 4.75 1518 ' 5.06 - - - - 6900 1150 3.35 1218 3.67 1281 3.98 13391- 4.29 1394 4.60 1447 4,91 1500 5.22 1550 5.54 - - - - 7200 1194 3.77 1260 4.10 1321 4.42 1377 4.75 1431 5.07 1482 5.40 - - - - - - - - 7500 1238 4,23 1303 4.57 1362 4.91 1418 5.25 1470 5,59 - - - - - - - - - 020 5500 665 1.68 735 1.96 803 2.24 871 2.57 932 2.91 992 3.27 1050 3.65 1102 4.02 1148 4.38 1183 4.65 5750 689 1.85 756 2.14 821 2.42 888 2.74 947 3.09 1005 3.45 1062 3.83 1116 4.21 1184 4.58 1206 4.93 8000 714 2.03 778 2.32 840 2.61 904 2.93 964 3.27 1020 3.63 1074 4.01 1128 4.40 1178 4.79 1224 5.17 6250 738 2,23 800 2.52 860 2.82 921 3.13 981 3.48 1035 3.83 1088 4.21 1140 4.80 1191 5.00 1238 5.40 6500 763 2.43 822 2.73 881 3.04 938 3.34 997 3.69 1051 ' 4.05 1103 4.42 1153 4.81 1203 5.22 1251 5,83 6750 708 2.85 845 2,96 901 3.27 956 3.57 1014 3.91 1068 4,27 1117 4.65 1167 5.04 1216 .5.44 -.. - 7000 813 2,88 868 3.19 922 3.51 976 3.82 1030 4.15 1084 4.51 1133 4.89 1182 5.28 - - - - 7250 838 3.12 891 3.44 944 3,76 996 4.08 1047 4.40 1101 4.76 1150 5.14 1197 5.53 - - - - 7500 863 3.38 914 3.70 966 4.02 1016 4.35" 1068 4.87 1117 5,03 1167 5.40 - - - - 7750 889 3.65 938 3.97 988 4.30 1037 4.63 1085 4.96 1134 5.30 1184 5.68 - - - - - - 8000 914 , 3,93 962 4.25 1010 4,58 1058 4.92 1105 5.25 1162 5.59 - - - - - - - - 8250 940 4.22 986 4.55 1033 4.89 1079 5.23 1125 5.57 - - - - - - - - - 8500 986 4.53 r 1 1011 4.86 1056 5.20 1101 - -. - - - - - - - - . - ... - 8750 992 4.85 1035 5.18 1079 5.53 -- - - - - - - - - - - - - 9000 1018 5.18 1060 5.52 - - - - - - - - - - - - - - Boldface indicates optional mo or and drive units 012 -016 (016 unit offered with optional drive only). Field- supplied drive equired, units 020. italic Indicates field - supplied motor and /or drive. Bhp - Brake horsepower Input to fan Rpm - Revolutions per minute Conversion - Bhp to watts Watts input = Bhp x 746 Motor efficiency Motor efficiencies: Service factors: 1 Hp - 0.81 1 Hp 1.25 ' 1% Hp - 0,78 1 h Hp --' 1,20 2Hp - 0.83 2Hp, - 1.15 3Hp - 0.84 3 H . - 1,15 5Hp - 0,85 5 H ' 1.15 386. 20 NOTES: 1. Fan performance is based on wet coils, clean filters and casing losses. 2. Condenser tan watts Input: 48DP,DR012 - 1385 watts 48DP,DR014 - 1400 watts ' 48DP,DR016 - 2672 watts 480P020 - 3000 watts 3, Static pressure losses must be added to external static pressure before entering Fan Performance table. STATIC PRESSURE LOSSES (in, wg) ACCESSORY /FIOP Economizer CFM 4000 I 5000 I 8000 I . .05, .07 • I' '.09;: MOTOR SERVICE FACTORS AND EFFICIENCIES (48H,L) UNIT 48_ STANDARD MOTOR OPTIONAL MOTOR Nom Hp Service Factor Efficiency Nom Hp Service Factor Efficiency Spud S peed HI Low HI Low LDT004 'h 125 .63 .59 % 1.25 .88 .52 LDT,HDT005 4 1 .66 .52 - - - - HDT008 .76 .62 - - - - LDT008 '/. .68 .52 1 1.25 .76 .62 HV,HZ008 Y. 1.40 .81 - -- - - - H0007 1 1.50 .81 - - - - - HD,LD, HDD,LDD008 1.4 .70 - 1'h 1.3 .80 - HH006 h 1.25 .80 - % 1,35 .76 480.3 -60 LHOO6 , .66 .52 1 1.25 .62 HH007 1.35 .78 - 1.50 .81 - HH,LH HHD,LHD008 1 1.40 .70 - 1' 1.30 .80 - HV,LV HZ,LZ008 1 1.40 .81 - 1' 1.15 .81 - HD,HH009 1'% 1.50 .81 - - - - - Electrical data ACCESSORY /FIOP STATIC PRESSURE DROP (in. wg) UNIT, SIZES CFM ECONOMIZER' FILTERS 1 -In. 2 -In. COMBUSTION FAN MTR 1000 .01 - .01 Weathermaker I, 004-007 1500 2000 2500 .03 .05 .08 - - - .01 .02 .03 FLA 3000 .12 - .05 Weathermaker 1, 008,009 2250 3000 3750 .01 .02 .03 - - - .04 .05 .09 2.2 1500 .006 - .036 008 2000 .010 - .068 Weathermaker I+ 2500 .016 - .099 .90 2300 .02 .050 .082 008 3000 .02 .087 .140 .33 .75 3700 .030 .129 .212 *Downshot units only. WEATHERMAKER I UNIT 48 SERIES VOLTS -PH -HZ VOLTAGE RANGE COMPR OUTDOOR FAN MTR INDOOR FAN MTR COMBUSTION FAN MTR POWER SUPPLY (Amps)* Min Max RLA LRA Oty FLA Hp FLA FLA MCA MOCP LDT004 208/230 -1 -60 197 254 22.2 100 1 2.2 .75 6.9 .90 40 50 208/230 -3 -60 187 254 15.1 100 1 2.2 .75 .33 8.9 .90 30/30 45/45 480 -3 -60 414 508 7.6 36.5 1 1.1 .33 .75 1.8 3.5 .57 15 25 HDT /LOT005 208/230 -1 -60 197 254 28.1 106 1 2.9 .75 6.9 ' .90 46 60 208/230 -3 -60 187 254 18.3 105 1 2.9 .75 6.9 .90 35/35 45/45 480.3 -60 414 508 9.2 35 1 1.5 .75 3.5 .57 20 25 575 -3 -60 518 632 8.3 41 1 2.9 .75 6.9 .90 19 20 HDT /L0T008 LH008 230 -1 -60 207 254 28.5 130 1 2.9 1,00 8.0 .90 55 50 208/230 -3 -60 187 254 20.9 98 1 2.9 1,00 8.0 .90 .90 40/40 45/45 460 -3 -60 414 508 10.4 49 1 1.5 1.00 4.0 .57 20 25 575 -3 -60 518 632 8.3 41 1 2.9 1.00 8.0 .90 30 45 HH006 230 -1 -60 207 254 28.5 130 1 2.9 .50 7,3 .90 55 50 208/230 -3 -60 187 254 20.9 98 1 2.9 .50 - 4.0 ' .90 40/40 45/45 460 -3 -60 414 508 I' 10.4 49 1 1.5 .75 2.0 .57 20 25 575-3-60 516 632 8.3 41 1 2.9 .75 6.9 .90 30 45 HD /HH007 208/230 -3 -60 187 254 27.4 137 1 2.9 .75t 1.00 3.6 4.8 90 40/40 42/42 60 460 -3 -60 414 508 12.1 69 1 1.5 _ .75t 1.00 1.8 2.4 .57 _ 18.5 19.5 30 575 -3 -60 518 832 9.6 51 1 2.9 -. 1.00 7.5 .90 22.4 30 HD,LD /HH,LH008 208/230 -3 -60 187 254 32.5 183 1 2.9 1,5 5.0 .90 ' 50/50 60/60 460 -3 -60 414 508 15.2 91.1 1 1.5 1.5 3.0 57 r 25 35 575-3-60 518 632 15.8 73.3 1 1.5 1.0 1.4 57 25 28 35 40 FLA Hp RA MCA - Full Load Amps - Horsepower - Locked Rotor Amps - Minimum Circuit Amps for wire sizing. Complies with NEC, 1984, Section 430 -24. Select con- ductor ampacity based on this value, MOCP - Maximum Overcurrent Protection, fuse size (amps). Complies with NEC, 1984, Section 430 -53. RLA - Rated Load Amps NOTE: 575 volt units are CSA listed only. 21 'Fuse only. tHH units only. Electrical data (cor WEATHERMAKER I UNIT 48 SERIES VOLTS -PH -HZ VOLTAGE RANGE COMPR OUTDOOR FAN MTR INDOOR FAN MTR COMBUSTION FAN MTR POWER SUPPLY (Amps)* , Min Max RLA LRA Oly FLA Hp FLA FLA MCA ' MOCP HDD,LDD /HHD,LHD 008 208/230 -3 -60 187 254 15.2 (ea) 80 (ea) 1 2 9 1.0 1,5 4,8 6.5 90 43/43 45/45 50 50 480 3 -60 414 508 • 7.2 (ea) 35 (ea) 1 1 5 1.0 1.5 2.4 3.3 57 21 22 25 25 HD,HH009 208/230 -3 -60 187 254 15.5 80 2 (ea) 1.5 5,6 .90 54/54 60 /60 460 -3 -60 414 508 10;3 35 2 (ea) 1.5 2.6 .56 27 30 FLpA - Full Load Amps LRA - Locked Rotor Amps MCA - Minimum Circult Amps for wire sizing. Complies with NEC, 1984, Section 430 -24. Select con- ductor ampactty based on this value. MOCP - Maximum Overcurrent Protection, fuse size (amps). Complies with NEC, 1984, Section 430 -53. RLA - Rated Load Amps NOTE: 575 -volt units are CSA listed only. *Fuse only. tHH units only. WEATHERMAKER 1+ UNIT 48 SERIES VOLTS -PH -HZ VOLTAGE RANGE COMPR OUTDOOR FAN MTR INDOOR FAN MTR COMBUSTION FAN MTR POWER SUPPLY (Amps)* Min Max RLA LRA Oty FLA Hp FLA FLA MCA MOCP DP,DR012 230-1-60 207 254 26.5 110 1 2.9 .75 7.3 ,90 44 60 HV,HZ008 208/230 -3.80 187 254 18.3 105 1 2.9 .75 4.0 .90 30/30 35/35 518 480 -3 -80 414 508 8.8 35 1 1.5 .75 2.0 .57 15 25 187 208/230 -3 -60 187 254 30.0 137 2 2.9 j;5 8.5 .90 50/50 60 /60 HV,LV,HZ,LZ008 480 -3 -60 414 508 13.7 62 2 1.5 0 33 4 .57 24 35 9.3 (ea) FLA - Full Load Amps Hp - Horsepower LRA - Locked Rotor Amps MCA - Minimum Circuit Amps (for wire sizing) MOCP - Maximum Overcurrent Protection RLA - Rated Load Amps 'Fuse only. UNIT 48 UNIT VOLTS -PH -HZ VOLTAGE RANGE COMPR' OUTDOOR FAN MTR INDOOR FAN MTR COMBUSTION FAN MTR POWER SUPPLY (Amps)t Min Max RLA LRA City FLA Hp FLA FLA MCA MOCP DP,DR012 208/230 -3 -60 187 253 24.0 (ea) 136 (ea) 2 4.6 1.0 1.5 3.45 5.50 '� 70 80 80 460-3-60 414 508 10.5 (ea) 49 (ea) 2 2.1 1.0 1.5 1.60 2.60 67 30 30 35 35 575 -3 -60 518 632 8.3 (ea) 41 (ea) 2 1.8 1.0 1,5 1.35 1.70 90 25 25 25 25 DP,DR014 208/230 -3 -60 187 253 27.0 (ea) 137 (ea) 2 4.6 2.0 3.0 7.40 10.40 78 78 90 90 460 -3 -60 414 508 11'6 (ea) 69 (ea) 2 2.3 2.0 3.0 3.30 4.70 ,87 35 35 40 40 575-3-60 518 632 9.3 (ea) 55 (ea) 2 18 2.0 3.0 2.30 3.80 30 30 30 30 DP,0R016 208/230 -3 -60 460 -3 -60 575 -3 -60 187 414 518 253 508 632 61.6 32.0 25.6 266 120 96 2 2 2 7.7 3.3 2.6 3.0 3.0 3.0 10.40 4.70 3.80 .90 .57 .90 105 55 50 125 60 45 DP020 208/230 -3 -60 460-3-60 187 414 253 508 49.3 (ea) 22.2 139 153 (eat 1 2 7.7 6.2 3.3 5.0 5.0 16.2 6.6 .90 .90 145 65 175 65 FLA - Full Load Amps LRA - Locked Rotor Amps MCA - Minimum Circuit Amps MOCP - Maximum Overcurrent Protection RLA - Rated Load Amps 'Units 48DP,DR012 and 014 and 48DP020 have 2 compressors. Values apply to each. tFuse only. 22 } Typical wiring sch #vatic (48HD,LD) (Single compressor downshot unit shown with option /accessory economizer or 2- position damper and accessory thermostat) RH JUMPER O ON FAN ro 'O AUTO. CC TB 24V IFR I - TDR e 0 0 AUTO. HEAT DOFF COOLO o AUTO. 0 HEATO OFFO 0 OPTIONAL THERMOSTAT ASSEMBLY LEGEND AHA — Heat Anticipator C — Contactor CC — Cooling Compensator CLO — Compressor Lockout CLS — Cooling Lockout Switch CS — Centrifugal Switch DM — Damper Motor DR — Damper Relay EC — Enthalpy Control ECT — Economizer Thermostat (Freezeatat) HPS — High - Pressure Switch I — Ignitor IDR — Induced Draft Relay IFC — Indoor Fan Contactor IFR — Indoor Fan Relay IPP — Ignitor Power Pack L — Light LPS — Low - Pressure Switch L8 — Limit Switch MAT. — Mixed Air Thermostat MGV — Main Gas Valve NS — Night Switch OAT. — Outdoor Air Thermostat PI — Plug P8 — Pilot Sensor PGV — Pilot Gas Valve RLC — Rotor Locking Circuit R8 — Rollout Switch Sw — Switch TC -- Thermostat, Cooling TDR — Time -Delay Relay THOThermostat, Heating Terminal (Marked) DTerminal Board (Marked) Plug /Receptacle Assembly ..— .....Factory Splice Factory Wiring Field Wiring Common potential (Not to represent wiring) YI Y2 FACTORY - SUPPLIED -► TERMINAL �„�^ STRIP LSO RS C$O (48H0008 ONLY) CLO (LOGIC, • LPS HPS REMOVE WITH NS NOT WITH STANDARD UNIT PS I PP b USED ON LD i01 ONLY PGV MGV I MGV (48H0008 ONLY) TOR PL I PLI FOR STD UNIT I— n— n^ -,• —n— n -- -PL 1 CL OPTIONAL ECONOMIZER I tIFC i\%n n _ ._ 1 _1 T -T T� DRI gM,ATT.. i DR2 DRI I MAT. DR2 • DR2 DR 1 • T T PL OPTIONAL TWO POSITION DAMPER r - -- EC OAT. WITH EC, REMOVE OAT. J sw2-- i"' -- I R ' � R SW I I 23 Controls (48H,L) Base unit operating sequence Cooling — Power on and thermostat set at COOL and desired temperature. Fan switch set at AUTO. position. On a call for cooling, cooling contact TC1 closes, ener- gizing the indoor (evaporator) fan relay (IFR), closing IFR contact and in turn energizing the indoor fan con- tactor (IFC). Simultaneously, the compressor contactor (C) is energized if the compressor lockout contact (CLO), the low - pressure switch (LPS), the high - pressure switch (HPS), and the economizer freezestat (ECT) are all closed. The compressor, indoor and outdoor fan motors start and run to effectively cool the space. On the dual- compressor 008 and 009 size units, the second compressor is energized when the second -stage cooling thermostat contact (TC2) closes. When room thermostat is satisfied, compressor, con- denser fan motor and evaporator fan motor shut down. Heating — Power and gas on and thermostat set at HEAT and desired temperature. Fan switch set at AUTO. position. On a call for heating, heating contact TH1 closes, ener- gizing the induced draft fan relay (IDR) and the time -delay relay (TDR). The induced draft fan motor is energized. When the induced draft fan motor reaches a speed of 2200 rpm, its centrifugal safety switch (CS) closes. With the limit switch (LS) and rollout switch (RS) in their normally closed positions, the ignitor power pack (IPP) generates a spark and the pilot is lit. When the pilot sensor (PS) closes, proving the pilot, the main gas valve (MGV) is opened and lit. The time -delay relay (TDR) contact closes after a period of 30 to 130 seconds, ener- gizing the indoor fan contactor. The indoor fan motor starts and space heating is initiated. On the high -heat 008 and 009 size units, the second stage of heating is energized when the second -stage heating thermostat contact (TH2) closes. Automatic changeover — When system selector switch is set at SYSTEM AUTO., unit automatically changes from heating operation to cooling operation when the temperature of the conditioned space rises to cooling lever setting. When temperature of conditioned space falls to heating lever setting, unit automatically changes from cooling operation to heating operation. Thermostat is interlocked so that cooling and heating systems cannot operate at the same time. Air circulation — With power on, thermostat set at SYSTEM OFF and FAN ON, indoor air fan operates continuously for air circulation. When controls are set at SYSTEM HEAT or SYSTEM COOL and FAN ON, heating and cooling operation is provided as required, while indoor air fan motor operates continuously. Integrated economizer operation (downshot units only) Vent mode operation: • With no 24 -volt signal to the indoor fan control circuit, the economizer outdoor blades are closed and sealed. • To vent the structure, set the system thermostat fan switch to ON or CONTINUOUS. This provides 24 -volt power to the fan relay control and the econo- mizer motor control circuits. The economizer motor 24 integrated circuit drives open to a predetermined posi- tion and stops. This position is "fixed" by the inter- action of the cam on the motor rotor and the field - adjustable switch plate in the motor housing. There are 2 microswitches mounted on the plate which are set 3 angular degrees apart. SW2 drives the motor and SW1 controls the STALL circuit through a resistor and diode in series with the motor windings. This posi- tion is maintained as long as power is applied to the fan control circuit through "G" on the system thermostat. • If a night switch is used and installed per the unit label diagram, the economizer motor circuit is de- energized and the motor spring closes and seals the outdoor blades. • To terminate the vent cycle, turn the thermostat fan switch to AUTO. Heating mode operation: • With no 24 -volt signal applied to the indoor fan motor control circuit, the economizer outdoor blades are closed and sealed. • When the system thermostat initiates a HEAT call through W1, the "G" circuit provides a 24 -volt signal to the indoor fan control circuit and the economizer motor control circuit. The economizer is in the VENT mode. VENT is maintained until the system thermo- stat terminates the HEAT call and the indoor fan circuit is de- energized. • If a night switch is used and installed per the unit wiring diagram, the economizer motor circuit is de- energized and the motor spring closes and seals the outdoor damper blades. The night switch opens the econo- mizer between terminals 1 and 2 on the unit terminal board. Cooling mode operation: • With no 24 -volt signal applied to the indoor fan motor control circuit, the economizer outdoor blades are closed and sealed. • If the outdoor ambient is above the outdoor air thermostat (OAT.) setting and the system thermostat initiates a COOLING call, the fan(s) and compres- sor(s) are energized and the economizer is in the VENT mode through the indoor fan control circuit. • If the outdoor ambient is below the outdoor air thermostat (OAT.) setting and the system thermostat initiates a COOLING call, a 24 -volt signal is applied to the "G" circuit and the economizer control circuit by Y1. In the economizer mode (controlled by the OAT. setting) the first -stage cooling (Y1) is econo- mizer operation. Y2 then controls the mechanical cooling through contacts 1 and 3 on DR2. Y1 is con- nected to DR1 through contacts 4 and 6 on the DR2 relay. • This energizes DR1 and switches the economizer to the MODULATING mode. Modulation is accom- plished by the mixed air thermostat (MAT.) much in the same manner as the mechanical vent setting except that the MAT. directly controls both the DRIVE and STALL circuits by bypassing SW1 and SW2 elec- trically. The MAT. is a 4 degree differential tempera- ture controlled switch with T1 controlling the STALL (1) circuit and T2 controlling the 111NE circuit. When the mixed air temperature in the unit return air cavity is warmer than the MAT. setting, both T1 and T2 are closed. The economizer motor opens because T2 by- passes the T1 STALL circuit through the DR1 relay contacts 4 and 6. When the mixed air temperature in the unit return air cavity drops to the MAT. T2 set- ting, T2 opens and T1 STALLS the motor. If the mixed air temperature drops 4 degrees below the T1 setting, T1 opens and allows the motor spring to close the damper blades causing a rise in the mixed air tempera- ture. This causes T1 and T2 to close and re- energizes the motor circuit which re -opens the outdoor blades. This process repeats until the system is stabilized at the MAT. setting. If the ambient temperature changes, the MAT. reacts and opens or closes the blades Application data (48H,L) Heating -to- cooling changeover — All units are auto- matic changeover from heating to cooling when auto- matic changeover thermostat and subbase are used. Airflow — Units are draw- through on cooling and blow - through on heating. Condensate trap — Evaporator is draw - through con- figuration. A trap (minimum 4 in. deep) must be field provided prior to start -up on cooling cycle. Maximum airflow — To minimize possibility of con- densate blow -off from evaporator, airflow through units should not exceed 500 cfm /unit ton. accordingly tt. aintain the MAT. temperature in the return air cavity of the unit. • The economizer control thermostat (ECT) is factory installed in the base unit on the indoor coil suction header to detect an ice buildup and turn off the econo- mizer control circuit which closes the outdoor damper, allows the return air to warm -up and melt the ice. Once the ice is melted, the ECT closes and the economizer is re- energized. • The compressor lockout switch (CLS) disables the mechanical cooling (when the ambient temperature is below 50 degrees F) by thermostatically opening the Y2 circuit. All cooling is provided by the economizer. • If the night switch is opened, the outdoor damper closes. MINIMUM AMBIENT OPERATING TEMPERATURE (F) UNIT 48H,L STANDARD WITH ACCESSORY LOW AMBIENT KIT WITH ACCESSORY 32LT MOTORMASTER" 004. 35 25 -20 005 35 25 -20 008 35 25 -20 007 45 35 -20 008 45 35 -201* 0008 25 25 -20t 009 45 35 -20t 'Install 32LT Motormastere accessory as indicated In accessory Installa- tion Instructions and base unit wiring book. (Requires replacement of standard condenser fan motor with special Carrier 'h hp, 208 /230 -volt single -phase motor. See base unit wiring book for details. CAPACITY ADJUSTMENT PROCEDURE 1. Ratings are approved for altitudes up to 2,000 feet. At altitudes over 2,000 ft, ratings are 4% less for each 1,000 ft above sea level. 2. At altitudes up to 2,000 ft, the following formula may be used to calcu- late air temperature rise: output capacity t 1.09 x air quantity Guide specifications (48H,L) Units shall be of the single - package type, combination air -to -air cooling and gas -fired heating. Unit shall be AGA certified. Total net cooling capacity of the unit shall be Btuh or greater, and sensible capacity shall be Btuh or greater at conditions of: cfm evaporator air entering unit at F wet -bulb, F dry -bulb; and condenser entering air temperature of F dry -bulb. Unit shall have an EER of or greater, rated in accordance with ARI Standard 210 -81. Heating capacity of the system shall be Btuh or greater with gas input of Btuh. Unit cabinet shall be constructed of galvanized steel, bonderized and coated with baked enamel. Compressor(s) — The unit shall contain one or 2 welded, fully hermetic compressor(s) with suitable vibra- 25 3. At altitudes above 2,000 ft, the following formula may be used: output capacity - t (.24 x specific weight of air x 60) (air quantity) 4. Maximum aflowable gas pressure is 14.0 in. wg. Minimum allowable gas pressure for full rated Input is 5.0 in. wg. 5. Output capacity rated in accordance with ANSI Z21.47 — 1978. tion isolators and crankcase heater and shall have a 5 -year warranty. Coils shall be constructed of aluminum fins mechanically bonded to copper tubes. Fans and motors — The evaporator air fan shall be of the forward - curved centrifugal type, direct -drive multi - speed or adjustable belt- driven hp motor, capable of in, wg external static pressure, The condenser air fan shall be of the propeller type, directly driven by a hp motor and discharging upward. Heat exchanger shall be tubular in design and con- structed of corrosion - resistant aluminized steel. Heat exchanger shall carry a 5 -year warranty and an extended 10-year warranty at additional cost, Burners shall be con- structed of aluminized steel and be of the in -shot type. Safety controls — Cooling section shall be protected by high (008) and low pressurestat, compressor motor over- loads, crankcase heaters, freezestat and a lockout circuit Guide speciflcationAcont) (Cycle-LOCTM) that prevents compressor restart until reset at the thermostat. Heating controls shall consist of a redundant gas valve, intermittent pilot ignition system, limit switches, centrif- ugal switch, and rollout switch. Dimensions — The unit casing shall not be more than in. wide, in long and in high. Accessories and options The following factory - installed options (FLOP), or field - installed accessories (Accessory) shall be provided: Roof curb (Downshot) shall be of the same manufacture as unit and shall include an insulated panel under com- pressor section to prevent condensation forming on the bottom. Dimensions shall be provided to allow for easy duct location and connection to roof curb prior to unit placement. Roof curb shall be a minimum of 14 in. high. Curb design shall comply with National Roofing Con- tractors Association requirements. (Accessory) Economizer control (Downshot) shall include return air (R.A.) and outdoor air (O.A.) low -leak dampers, built -in barometric relief, outdoor air filter and hood, and fully modulating electric control system with O.A. thermostat and mixed air thermostat. Economizer control shall be capable of introducing up to 100% out- door air. The control changeover from mechanical cool- ing to economizer operation shall be fully automatic through an adjustable outdoor air changeover thermo- stat. Economizer shall be integrated type capable of simultaneous compressor and economizer operation for maximum benefit of outdoor air. (FIOP and Accessory) Optional motor to provide added static pressure capability. (FIOP) AHA — Adjustable Heat Anticipator C — Contactor, Compressor Cop. — Capacitor CB — Circuit Breaker CC — Cooling Compensator. CH - Crankcase Heater CLO — Compressor Lockout Comp — Compressor Motor CR — Control Relay CS — Centrlfugal Switch OM — Damper Motor DR — Damper Relay Du — Dummy Terminal EC - Enthalpy Control FPT — Freeze Protection Thermostat HPS . — High- Pressure Switch HR - - Ignitor Relay ICP — Ignitor Control Pack IFC Indoor Fan Contactor Enthalpy control (Downshot) shall sense total heat content of outdoor air for optimum economizer opera- tion. (Accessory) Remote control panel shall provide central unit control of heating, cooling, indoor fan and outdoor air damper. Panel shall contain indicator lights for up to 6 unit functions. (Accessory) Time Guard 11 circuit shall prevent compressor short cycling as a result of a rapid change in thermostat setting. Also, automatically prevents compressor restart at least 5 minutes after shutdown. (Accessory) Two - position damper (Downshot) with spring return motor, shall admit up to 35% outside air and provide remote closing of air inlet when unit shuts down, (Accessory) Manual outdoor air damper (Downshot) shall be capable of admitting up to 35% outside air for year -round ventilation. (F[OP and Accessory) Thermostat assembly shall provide staged heating and cooling, manual or automatic changeover and fan control. Standard subbase shall include "compressor malfunction Tight" LK -OUT designed to illuminate if com- pressor lockout is activated. (Accessory) LP kit shall convert unit for use of LP gas. (Accessory) Head pressure control — A solid -state outdoor air fan speed control to permit unit to operate down to 0 °F shall be provided. (Accessory) Low ambient temperature kit shall include low - pressure switch and freezestat and allow for unit opera- tion down to outdoor ambient temperature of 25 F. (Accessory) LEGEND FOR TYPICAL WIRING SCHEMATIC IFM IP LPS LS MAT. OAT. OFC PI RT': RS Sw TC TOR — Indoor Fan Motor - Indoor Fan Relay - Internal Protector — Light — Low- Pressure Switch — Limit Switch — Mixed Air Thermostat — Main Gas Valve — Outdoor Air Thermostat — Outdoor Fan Contactor — Pilot Gas Valve - Plug Assembly — Quadruple Terminal — Relay - Roll Out Switch — Sensor - Switch — Terminal Block - Thermostat, Cooling — Time -Delay Relay 26 TH - Thermostat, Heating Trion — Transformer U - Unloader UR . — Unloader Relay 0 Terminal (Marked) 0 Terminal (Unmarked) 0 Terminal Block • Splice ▪ Splice (Marked) Factory Wiring _ Field Control Wiring �.� Field Power Wiring �, ..._ Accessory or Optional Wiring Common Potential (Not to represent wiring.) i?, ' •T Typical wiring scheatic 48D, 2-stage unit sown Yp 9 � � 9 it TB3 RC OFF I, I NEAT 1 I 0 AUTO. 0 COOL X- -0 0 HEAT AUTO. ICI —4 COOL THI AHA Two AHA CC CC c. TC2 sw o b AUTO ON HR FACTORY INSTALLED JUMPER-1 USED WITHOUT ECONOMIZER ICP2 MV COM GND GRN LS RS IFR CI -OV2 S PGV2 MGV2 I rI L.._ — L...0 FACTORY' INSTALLED JUMPER USED WITHOUT ECONOMIZER 1 —O ' 0- SN0-- ICPI MV COM GND OAT FPT • •Z• • HPSPS • • •0• ECONOMIZER OPTION DRZ gOR3O EC DR3 27 Typical piping and Wilting CONDENSATE �.r•� (FAR SIDE) ... • i POWER WIRING CONTROL WIRING POWER WIRING CONTROL WIRING OPTIONAL OUTDOOR AIR HOOD FROM MAIN GAS SUPPLY OPP • OSUPPLY AIR ROOFCURB 'W CONDENSER , '- EVAPORATOR WEATHERMAKER I AND X+ UNITS (DOWNSHOT) MANUAL GAS VALVE FROM MAIN GAS SUPPLY SLAB MOUNT AIRFLOW ER b AIRFLOW TOR WEATHERMAKER IANDI* UNITS (HORIZONTAL) NOTES: 1. Illustrallons shown are a general guide only and are not Intended for or to Include all details for any specific installation. 2. Installation must comply with all applicable codes, rrwrrrrrrrr-rr?gi rwrrrrrr rrrrrrr■ r�rwrwrwi11r rwrrw ��rrr r rrrrrrrrri rrrr■ r rrrrrwrrrrrrrr r%rwrrr rrrr ��rrarrrrM rwrra r1r�111 - 9.x11i1 �rrr 11`rUr rMIwrwrr 11rirrwrir rrrrrr ■r wrrr NUNNINioo+ 1010wrrrr � uu DISCONNECT PER NEC- -- 25 % AIR OR ECONOMIZER HOOD HEAT EXCHANGER ROOF CURB if • CONTROL WIRING SUPPLY AIR. 1 Controls (48DP,DR) Base unit operating sequence Cooling — Power on and thermostat assembly set at COOL and desired temperature. Fan switch set at AUTO. position. Upon a rise in room temperature, cooling contact no. 1 in the thermostat closes, energizing the first -stage cool- ing contactor and the indoor fan contactor. The first - stage compressor (012,014) or unloaded compressor (016), outdoor fan motor and indoor fan motor start and run. Upon a further rise in room temperature, cooling con- tact no.2 in the thermostat closes, energizing the second -stage cooling contactor. The second -stage com- pressor (012,014) or unloaded compressor (016) starts and runs. If unit operation is interrupted by the low- pressure switch, high - pressure switch or compressor linebreak device (motor overload or overtemperature), and there is a call for cooling, the Cycle -LOC" circuit prevents the compressor from restarting until manual reset is accomplished at the thermostat by turning the unit off and then on. All units have condenser fan cycling thermostats which, at 55 F, shut off one outdoor fan motor. This permits unit to operate down to 35 F outdoor air temperature. Heating NOTE: The 48DP012,014 units have one stage of heat. Fhe 48DR012,014 and 48DP,DR016 and 48DP020 units have 2 stages of heat. Unit power on. Manual gas valve open supplying gas to base unit. Thermostat system switch set at HEAT or AUTO., fan switch set at AUTO. First -stage thermostat calls for heat. Time -delay relay, controlling indoor fan, begins timer sequence. Induced - draft relay closes and induced -draft motor starts. Centrifugal switch closes. Pilot valve no. 1 opens, allowing gas to flow to first -stage pilot.Spark ignitor ignites pilot flame. Sensor detects flame, energizes main gas valve coil and main gas valve no. 1 opens. Gas flows to main burners and first -stage burners ignite. Spark ignitor turns off. Application data (48DP,DR) Ductwork — Ductwork should be attached to the curb on all units. Interior installation may proceed before unit is set in place on roof. If ductwork will be attached to unit, do not drill in condensate drain pan area — leaks may result. Condensate traps — Evaporator coil is draw - through configuration. Trap (minimum 4 in. deep) must be field )rovided prior to start -up on cooling cycle. Install plug in condensate drain on opposite side of unit from trap. Operating limits — Cfm and other values indicated illustrate the operating range of the equipment. Opera- tion outside these limits is not recommended. 29 When time delay li;uence is complete, time -delay relay closes and indoor fan motor starts. On 2 -stage units (48DR012,014 and 48IDP,DR016, 48DP020) with an additional heating Toad, the second - stage thermostat closes. (The control relay closes during first -stage operation.) Pilot valve no. 2 opens. Spark ignitor operates and ignites pilot. Sensor detects flame, energizes main gas valve coil no. 2 and main gas valve no. 2 opens. Gas flows to main burners and second -stage burners ignite. Spark ignitor turns off. On 2 -stage units (48DR012,014 and 48DP,DR016 and 48DP020), when second-stage thermostat is satis- fied, second -stage gas valve closes. When first -stage thermostat is satisfied, first -stage gas valve closes. Induced draft motor goes off. Time- delay relay opens and timer sequence begins. When sequence is complete, indoor fan motor goes off. Air circulation — Unit power on. Control set at OFF, fan switch set at ON. Indoor fan contactor is energized through the switch on the thermostat, and the indoor fans run continuously. When controls are set at HEAT or COOL, operation is as above, except indoor fan runs continuously. Economizer operating sequence (if supplied) Cooling mode — Upon a call for cooling, when outdoor ambient is above the enthalpy control setting, the indoor and outdoor fans and compressor energize. The econo- mizer damper moves to VENT position. Upon a first -stage call for cooling, when outdoor ambient is below the enthalpy control setting, the indoor fan starts and the economizer damper goes fully open. Compressor remains off. Upon a second -stage call for cooling, compressor no. 1 (012,014) or unloaded compressor (016,020) is energized and mechanical cooling is integrated with economizer cooling. Economizer damper modulation occurs when the mixed air temperature goes below the mixed air thermo- stat setting. A freeze protection thermostat (FPT) is located on the indoor coil. It detects frost buildup and turns off the com- pressor, allowing the coil to clear. Once frost has melted, the compressor can be re- energized. Heating mode — Outdoor air damper stays at VENT position while evaporator air fan is operating. Low - ambient cooling operation — Units are designed to operate at outdoor temperatures down to 35 F. At temperatures below 35 F, accessory Motormaster® will permit operation at outdoor temperatures as low as -20 F. Roof curb — All curb installations must be counter - flashed to prevent water leakage. Power supply — Electric power may be brought to unit within curb perimeter through fittings provided in base - pan. Provide power supply in accordance with local codes. Branch circuit protection to unit must be provided by fuses no larger than Maximum Overcurrent Pro- tection Amps shown in Electrical Data. Control wiring — 24 -volt wiring to thermostat is NEC Class 11. Guide specifications8DP,DR) Base unit Unit shall be a one -piece air-cooled electric cooling, gas heating unit and shall be mounted on a full perimeter roof curb. Standard unit shall include a manual outdoor air inlet. Total cooling capacity of unit shall be Btuh or greater, and sensible capacity shall be Btuh or greater at conditions of cfm evaporator air enter- ing unit at _F wet -bulb, F dry -bulb and con- denser entering air temperature of F dry-bulb. Heating capacity of units shall be Btuh. Unit compressor(s) shall be serviceable semi- hermetic or welded fully hermetic with crankcase heater(s) and suitable vibration isolators. Compressors shall be of the same manufacture as unit. The 48DP,DR012,014,016 compressors shall have a 5-year warranty; the 48DP020 compressors shall have a one-year warranty with optional 4 -year extension. Coils — Indoor and outdoor coils shall be of nonferrous construction with aluminum plate fins mechanically bonded to seamless copper tubes with all joints brazed. Fans and motors — Indoor blowers shall be forward - curved, centrifugal, belt- driven type capable of delivering cfm at in wg external static pressure. Motor pulley shall be adjustable pitch. Indoor blower motor shall be hp with permanently lubricated bearings. Outdoor fans shall be of the propeller type, with direct-driven permanently lubricated motor of hp or less. Outdoor fans shall discharge upward. Unit cabinet shall be constructed of galvanized steel, bonderized and coated with a baked enamel finish. Cabinet interior shall be insulated with one -in. thick neoprene - coated fiberglass. Cabinet panels shall be easily removable for service to all operating components. A condensate drain for the indoor coil shall be provided. Controls — The cooling system shall be protected with high pressurestat, low pressurestats, loss -of- charge protection, indoor coil freezestats, and current and temperature sensitive overload devices. Each of these devices shall be wired through the Cycle - LOC" circuit to prevent compressor restart until reset at the thermostat (or unit circuit breaker). Heat exchanger shall be tubular in design and con- structed of corrosion - resistant aluminized steel. Heat exchanger shall carry a 5 -year warranty and an extended 10-year warranty at additional cost. Burners shall be constructed of aluminum painted cold rolled steel and be of the in -shot type. Heating controls shall consist of a redundant gas valve, intermittent pilot ignition, remote pilot flame sensor, time -delay relay, limit switches and centrifugal switch. Unit electrical connections — Cabinet shall contain suitable openings for routing of all utility connections. The base unit shall contain a terminal strip in the control compartment to allow for terminal-to-terminal connec- tion of room thermostat and field - installed accessories. Maximum dimensions — Width in., depth in., height inches. 386 30 • Accessories and options The following factory - installed options (FIOP) or field - installed accessories (accessory) shall be provided. Roof curb shall be of the same manufacture as unit and shall include an insulated panel under compressor sec- tion to prevent condensation forming on the bottom. Dimensions shall be provided to allow for easy duct loca- tion and connection to roof curb prior to unit placement. Curb design shall comply with National Roofing Con- tractors Association requirements. (Accessory) Economizer shall include return air (R.A.) and outside air (O.A.) clambers, outdoor air filter and hood, and fully modulating electric control system with enthalpy change- over control and adjustable mixed air thermostat. Econo- mizer control shall be capable of introducing up to 100% outdoor air. The control changeover from mechanical cooling to economizer operation shall be fully automatic through an adjustable enthalpy control device. Econo- mizer shall be integrated type capable of simultaneous compressor and economizer operation for maximum benefit of outdoor air. (FIOP or Accessory) -> Alternate motor and /or drive assembly (48DF,DR 012,014,016) to provide added cfm and static pressure capability. (FIOP) Remote control panel — The panel shall provide central control of heating, cooling, indoor fan and out- door air damper. Indicator lights for unit functions shall be provided. (Accessory) Thermostat assembly shall provide staged heating and cooling, automatic changeover and fan control. (Accessory) Head pressure control — A solid -state outdoor air fan speed control to permit unit to operate down to -20 F shall be provided. (Accessory) Barometric relief damper — An automatic damper to relieve positive building pressure shall be provided. (Accessory) Time Guard® circuit to prevent compressor short cycling as a result of a rapid change in thermostat setting. Also, automatically prevents compressor restart for at least 5 minutes after shutdown. (Accessory) Power exhaust to be used only in conjunction with economizer, exhausts up to 75% of return air at 0,1 S.P. Eliminates overpressurization of the building. (Accessory) Two - position damper — Allowing remote closure of 25% outside air opening when unit shuts down shall be provided. (Accessory) LP kit — Shall convert unit for use of LP gas. (Accessory) Manutacturar raaarvas the right to • Iscontinua, or c anon N Any Um; apadfcatbna or *flank without notice and without Incurring O$Igat Book It " 14 PC 111 +. Catalog No 624.809 Printed in U $ A Form 48H,L,D -1 PD :` Pg 32 788 1118 Replaces 48ND. 3P Tab: to ea u: t, 18DP 2P 48NV 1P. THE : FL?LL©W.I Na COMMENTS APPLY ' TO '� AND`. BECOME PART OF THE: • APPROVED ' PLANB . UNDER TUKWILA BUILDING PERMIT NUMBER w/v7 =/119. 1. Ago changes will be made to plans unless. approved Building Department. 'Y. Architect. and Plumbing permit to be' obtained through King County Health Department and plumbing will be inspected by that agency. ;(inclgdinall c,ia giving). 3. Electrical wort; to be inspected by State Electrical lnepectora and all required electrical permits obtained through` that agency. 4. All permits to be posted at job site prior, to constructi on r . All construction ,to be done in conformance w .th..'appr °owed plane •and requirements of. the Uniform building Code (198 Edi.tian), Uniform :Mechanical. Code (1985.Edit,ion)aehington State. Energy. Code (1986 Editidn),. and WatOiTigtprit4te 'Regulations-. far:.barrier Free Facility (1986,Edit:icn)�; 2•- I C)l-ri'ce, are.\ CARLYLE TECH 10/27/88 KENT *USER SUPPLIED LAT = 47 ALT = 100 CONST= 70W /40R/ 70B ID= 70/50 : 70 WALL COLOR: LIGHT ROOF COLOR: LIGHT - SER# 30206831.6 D.B.TEMP TOTAL TONS RSH TONS C.F.M. 1. JUN AT 9 A.M. 71.2 4.11 3.75 2,731 2. JUL AT 9 A.M. 72.2 4.28 3.92 2,848 3. SEP AT 10 A.M. 73.0 5.62 5.22 3,798 4. OCT AT 2 P.M. 77.0 6.03 5.48 3,987 5. SEP AT 3 P.M. 83.0 5.76 5.04 3,665 6. JUL AT 4 P.M. 84.0 4.41 3.80 2,766 7. JUN AT 4 P.M. 83.0 4.42 3.83 2,787 ZONE HEATING - -> = 21,546 W /INFIL= 21,546 C.F.M = 490 INPUTS CEILING PARTITION FLOOR SKYLIGHT TRANSMISSION FACT. 0.03 0.08 0.00 0.00 TEMP DIFF HEATING 20 20 0 55 TEMP DIFF COOLING 20 20 0 7 FLOURESCENT LIGHTS - Y SOLAR FACTOR SKYLIGHT = 0.00 OVERHANGS AND /OR REVEALS PRESENT (FT) TYPE 1 TYPE 2 TYPE 3 HEIGHT OF OVERHANG - 0.00 0.17 0.00 DEPTH OF OVERHANG - 0.00 4.00 0.00 HEIGHT OF WINDOW - 0.00 9.00 0.00 DEPTH OF REVEAL - 0.00 0.17 0.00 NUMBER FLOORS - 1.00 1.00 1.00 EFFECTIVE AVERAGES FOR ZONE LOADS OR OP -COST : EXPOSURE: N. NE E. SE S. SW W. NW WALL TRANS. FACTORS 0.00 0.00 0.08 0.00 0.08 0.00 0.00 0.00 GLASS TRANS FACTORS 0.00 0.00 0.55 0.00 0.55 0.00 0.55 0.00 GLASS SOLAR FACTORS 0.00 0.00 0.79 0.00 0.63 0.00 0.96 0.00 ROOF TRANS. FACTOR = 0.08 SKYLIGHT TRANS. FACTOR = 0.00 NUMBER OF PEOPLE _ TOTAL LIGHTS = OTHER ELECTRICAL = E. TYPE 1 GLASS AREA= E. TYPE 2 GLASS AREA= S. TYPE 1 GLASS AREA= S. TYPE 2 GLASS AREA= S. TYPE 2SHADE AREA = W. TYPE 2 GLASS AREA= W. TYPE 2SHADE AREA = TOTAL GLASS AREA = TOTAL GLASS AREA = SKYLIGHT AREA = SKYLIGHT AREA = E. TYPE 1 WALL AREA = OUTPUTS 9 SENSIBLE PEOPLE LOAD = 4,392 LIGHTING LOAD = 1,098 OTHER ELECTRICAL = 25 E. TYPE 1 GLASS SOLAR = 36 E. TYPE 2 GLASS SOLAR = 315 S. TYPE 1 GLASS SOLAR = 90 S. TYPE 2 GLASS SOLAR = 23 S. TYPE 2 SHADE SOLAR = 36 W. TYPE 2 GLASS SOLAR = 15 W. TYPE 2 SHADE SOLAR = 502 TOTAL GLASS SOLAR = 502 TOTAL GLASS TRANS. = 0 TOTAL SKYLIGHT SOLAR = 0 TOTAL SKYLIGHT TRANS = 155 E. TYPE 1 WALL LOAD 2,152 18,737 3,747 399 1,027 25,005 9,456 162 1,312 101 37,462 1,933 0 0 S. TYPE 1 WALL AREA = TOTAL WALL AREA PARTITION AREA CEILING AREA FLOOR AREA AREA OF ROOF SAFETY FACTOR EVAP FAN H.P. ._ MISC SENSIBLE = VENTILATION CFM = MISC LATENT = NUMBER OF PEOPLE= VENTILATION CFM = TOTAL CFM -STD AIR= c 144 S. TYPE 1 WALL LOAD 299 TOTAL WALL TRANS. 144 TOTAL PART. TRANS 2,196 TOTAL CEILING TRANS 0 TOTAL FLOOR TRANS 0 ROOF LOAD 0% SAFETY B.T.U.S 0.57 FAN HEAT GAIN - BT 0 MISC. SENSIBLE 399 0. A.SENSIBLE LOAD 0. MISC. LATENT 9 PEOPLE LATENT LOAD 399 0.A. LATENT LOAD 3,987 TOTAL LATENT LOAD 197 200 230 1.318 0 0 = 0 = 1,750 0. = 3,070 0 1,801 0 1,801 ROOM SENSIBLE = 65,780 ROOM LAT. LOAD *************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** CARLYLE TECH - -> GRAND TOTAL LOAD = 72,401 BTU'S OR 6.03 TONS LOAD RUN FOR # 4. OCT AT 2 P.M. = 1,801 AREA (SQ FT) TOTAL.CFM -STD AIR PARTITION LOAD •VENTILATION LOAD = FLOOR HEATING LOAD= GLASS HEATING LOAD= SLAB HEATING LOAD = WARM UP LOAD 2,196 SQ. FT PER TON 3,987 CFM PER SQ FT HEATING LOAD 230 CEILING LOAD 24,119 ROOF HEATING LOAD = 0 SKYLIGHT LOAD = 15,186 WALL HEATING LOAD 3,497 INFIL HEAT LOAD = 0 H LOAD WITH VENT = 364: 1.82 • 0: • '0 1,316 0. 45,665 COIL SELECTION PARAMETERS DB TEMP ENT /LVG = 71.1 / 55.0 .TOT SENSIBLE:LOAD: WB TEMP ENT /LVG = 60.7 / 54.6 TOTAL COIL LOAD SPECIFIED ROOM RH _. 50% RESULTING ROOM RH TERM AIR°TEMP = 55.00 / 110 .DEGREES ROTATED =..0 .T. ST. EVAP FAN = 0.50 NON- CEILING:;RETURN BLDG. 'U' FACTOR =. 0.37 CARRIER DEFAULTS'... 70,600 72,401 58$ Z- I OrI"i'ce. are \ CARLYLE TECH 10/27/88 KENT *USER SUPPLIED LAT = 47 ALT = 100 CONST= 70W /40R/ 70B ID= 70/50 : 70 WALL COLOR: LIGHT ROOF COLOR: LIGHT - SER# 30206831.6 D.B.TEMP TOTAL TONS RSH TONS C.F.M. 1. JUN AT 9 A.M. 71.2 4.11 3.75 2,731 2. JUL AT 9 A.M. 72.2 4.28 3.92 2,848 3. SEP AT 10 A.M. 73.0 5.62 5.22 3,798 4. OCT AT 2 P.M. 77.0 6.03 5.48 3,987 5. SEP AT 3 P.M. 83.0 5.76 5.04 3,665 6. JUL AT 4 P.M. 84.0 4.41 3.80 2,766 7. JUN AT 4 P.M. 83.0 4.42 3.83 2,787 ZONE HEATING - -> = 21,546 W /INFIL= 21,546 C.F.M = 490 INPUTS CEILING PARTITION FLOOR SKYLIGHT TRANSMISSION FACT. 0.03 0.08 0.00 0.00 TEMP DIFF HEATING 20 20 0 55 TEMP DIFF COOLING 20 20 0 7 FLOURESCENT LIGHTS - Y SOLAR FACTOR SKYLIGHT = 0.00 OVERHANGS AND /OR REVEALS PRESENT (FT) TYPE 1 TYPE 2 TYPE 3 HEIGHT OF OVERHANG - 0.00 0.17 0.00 DEPTH OF OVERHANG - 0.00 4.00 0.00 HEIGHT OF WINDOW - 0.00 9.00 0.00 DEPTH OF REVEAL - 0.00 0.17 0.00 NUMBER FLOORS - 1.00 1.00 1.00 EFFECTIVE AVERAGES FOR ZONE LOADS OR OP -COST : EXPOSURE: N. NE E. SE S. SW W. NW WALL TRANS. FACTORS 0.00 0.00 0.08 0.00 0.08 0.00 0.00 0.00 GLASS TRANS FACTORS 0.00 0.00 0.55 0.00 0.55 0.00 0.55 0.00 GLASS SOLAR FACTORS 0.00 0.00 0.79 0.00 0.63 0.00 0.96 0.00 ROOF TRANS. FACTOR = 0.08 SKYLIGHT TRANS. FACTOR = 0.00 NUMBER OF PEOPLE = TOTAL LIGHTS = OTHER ELECTRICAL = E. TYPE 1 GLASS AREA= E. TYPE 2 GLASS AREA= S. TYPE 1 GLASS AREA =. S. TYPE 2 GLASS AREA= S. TYPE 2SHADE AREA = W. TYPE 2 GLASS AREA= W. TYPE 2SHADE AREA = TOTAL GLASS AREA = TOTAL GLASS AREA = SKYLIGHT AREA = SKYLIGHT AREA E. TYPE 1 WALL AREA = OUTPUTS 9 SENSIBLE PEOPLE LOAD = 4,392 LIGHTING LOAD 1,098 OTHER ELECTRICAL = 25 E. TYPE 1 GLASS SOLAR = 36 E. TYPE 2 GLASS SOLAR = 315 S. TYPE 1 GLASS SOLAR = 90 S. TYPE 2 GLASS SOLAR = 23 S. TYPE 2 SHADE SOLAR = 36 W. TYPE 2 GLASS SOLAR = 15 W. TYPE 2 SHADE SOLAR = 502 TOTAL GLASS SOLAR = 502 TOTAL GLASS TRANS. 0 TOTAL SKYLIGHT SOLAR = 0 TOTAL SKYLIGHT TRANS = 155 E. TYPE 1 WALL LOAD 2,152 18,737 3,747 399 1,027 25,005 9,456 162 1,312 101 37,462 1,933 0 0 S. TYPE 1. WALL AREA = TOTAL WALL AREA = PARTITION AREA = CEILING AREA = FLOOR AREA = AREA OF ROOF = SAFETY FACTOR = EVAP FAN H.P. = MISC SENSIBLE = VENTILATION CFM = MISC. LATENT. NUMBER OF PEOPLE= VENTILATION CFM TOTAL CFM -STO AIR= ROOM SENSIBLE = c 144 299 144 2,196 0 0 0.57 0 399 0 9 399 3,987 S. TYPE 1 WALL LOAD TOTAL WALL TRANS. TOTAL PART. TRANS TOTAL CEILING TRANS TOTAL FLOOR TRANS ROOF LOAD SAFETY B.T.U.S FAN HEAT GAIN - BT MISC. SENSIBLE 0. A.SENSIBLE LOAD MISC. LATENT PEOPLE LATENT LOAD 0.A. LATENT LOAD TOTAL LATENT LOAD 65,780 ROOM LAT. LOAD *************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** CARLYLE TECH - -> GRAND TOTAL LOAD = 72,401 BTU'S OR 6.03 TONS LOAD RUN FOR # 4. OCT AT 2 P.M. 197 200 230 1.318. 0 0 0 750 0 3,070 0 1,801 0 1,801 1,801 (SQ FT) _ 2,196 SQ. FT PER TON TOTAL CFM -STD AIR = 3,987 CFM PER SQ FT PARTITION LOAD VENTILATION'LOAD FLOOR HEATING LOAD= GLASS HEATING LOAD= SLAB 'HEATING LOAD= WARM UPLOAD HEATING LOAD 230 CEILING LOAD 24,119 ROOF HEATING LOAD .= 0 SKYLIGHT LOAD 15,186 WALL HEATING LOAD = 3,497 INFIL HEAT LOAQ' = 0 H LOAD WITH VENT COIL SELECTION PARAMETERS" DB TEMP ENT /LVG ='71.1 / 55.0 TOT SENSIBLE LOAD WB TEMP ENT /LVG = 60.7 / 54.6 TOTAL COIL LOAD. SPECIFIED ROOM.RH = 50% RESULTING ROOM RH = TERM AIR TEMP = 55.00 / 110 DEGREES ROTATED., :0 EVAP FAN 0.50 NON - CEILING.,. RETURN BLDG. 'U' FACTOR= 0.37 CARRIER DCFAULTS 'CARLYLE TECH* 10/27/88 KENT *USER SUPPLIED LAT = 47 ALT = 100 CONST= 70W /40R/ 70B ID= 70/50 : 70 WALL COLOR: LIGHT ROOF COLOR: LIGHT SER# 30206831.6 D.B.TEMP TOTAL TONS 1. JUN AT 9 A.M. 71.2 4.99 2. JUL AT 9 A.M. 72.2 5.01 3. SEP AT 10 A.M. 4. OCT AT 2 P.M. 5. SEP AT 3 P.M. 6. JUL AT 4 P.M. 7. JUN AT 4 P.M. ZONE HEATING - -> = 73.0 5.03 77.0 5.13 83.0 5.28 84.0 5.31 83.0 5.28 7,463 W /INFIL= RSH TONS 3.75 3.75 3.75 3.75 3.75 3.75 3.75 7,463 C.F.M = INPUTS CEILING PARTITION FLOOR TRANSMISSION FACT. 0.03 0.08 0.00 TEMP DIFF HEATING 20 20 0 TEMP DIFF COOLING 20 20 0 FLOURESCENT LIGHTS - Y SOLAR FACTOR SKYLIGHT OVERHANGS AND /OR REVEALS PRESENT TYPE 1 TYPE 2 HEIGHT OF OVERHANG DEPTH OF OVERHANG HEIGHT OF WINDOW DEPTH OF REVEAL NUMBER FLOORS 0.00 0.00 0.00 0.00 1.00 C.F.M. 2,726 2,726 2,726 2,726 2,726 2,726 2,726 170 SKYLIGHT 0.00 55 14 = 0.00 (FT) TYPE 3 0.17 0.00 4.00 0.00 9.00 0.00 0.17 0.00 1.00 1.00 EFFECTIVE AVERAGES FOR ZONE LOADS OR OP -COST : EXPOSURE: N. NE E. SE S. SW W. NW WALL TRANS. FACTORS 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 GLASS TRANS FACTORS 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 GLASS SOLAR FACTORS 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 ROOF TRANS. FACTOR = 0.08 SKYLIGHT TRANS. FACTOR = 0.00 NUMBER OF PEOPLE TOTAL LIGHTS OTHER ELECTRICAL TOTAL GLASS AREA TOTAL GLASS AREA SKYLIGHT AREA SKYLIGHT AREA TOTAL WALL AREA PARTITION AREA CEILING AREA FLOOR AREA AREA OF ROOF. OUTPUTS = 29 SENSIBLE PEOPLE LOAD = 5,856 LIGHTING LOAD = 1,464 OTHER ELECTRICAL 0 TOTAL GLASS SOLAR 0 TOTAL GLASS TRANS. 0 TOTAL SKYLIGHT SOLAR 0 TOTAL SKYLIGHT TRANS = 0 = 2,880 = 2,928 _ 0 0 TOTAL WALL TRANS. TOTAL PART. TRANS TOTAL CEILING TRANS TOTAL FLOOR TRANS _ ROOF LOAD 8,638 24,983 4,997 0 0 0 0' 4,608 1,757 0. 3 CARLYLE TECH *. SAFETY FACTOR =; EVAP FAN H.P. MISC SENSIBLE VENTILATION CFM MISC. LATENT _. NUMBER OF PEOPLE= VENTILATION CFM = TOTAL CFM -STD AIR= 0% SAFETY B.T.U.S " 0.39 FAN HEAT GAIN - BT . 0 MISC. SENSIBLE 273 0. A.SENSIBLE LOAD 0 MISC. LATENT 29 PEOPLE LATENT.LOAD 273 0.A. LATENT LOAD 2,726 TOTAL LATENT LOAD ROOM SENSIBLE = 44,982 ROOM LAT. LOAD ************** * * * * * * ** * * * * * * * * * * * * * * * * * * * * * ** CARLYLE TECH* -> GRAND.TOTAL LOAD = 63,700 BTU'S OR 5.31 LOAD RUN FOR # 6. JUL AT 4 P.M. AREA (SQ FT) _ TOTAL CFM -STD AIR = PARTITION LOAD VENT I LAT ION ,LOAD . _. FLOOR HEATING LOAD= GLASS HEATING LOAD= SLAB HEATING LOAD = WARM UP LOAD = 2,928 SQ. FT PER TON = 2,726 CFM PER SQ FT HEATING LOAD 4,608 CEILING LOAD 16,493 ROOF HEATING LOAD = 0 SKYLIGHT LOAD 0 WALL HEATING LOAD = 1,098 INFIL HEAT LOAD _ 0 H LOAD WITH VENT COIL SELECTION PARAMETERS DB TEMP ENT /LVG = .71.8. / 55.10.. TOT .SENSIBLE LOAD = 50,377..-. WB.TEMP ENT /LVG =. 62.3 / 54.5. TOTAL COIL: LOAD _ 63,700 SPECIFIED ROOM RH _ 50% RESULTING ROOM RH _ 63% TERM AIR TEMP = 55..00 / 110 DEGREES ROTATED ..= 0 ST. EVAP FAN = 0.50 NON- CEILING,RETURN, BLDG. 'U' FACTOR= 0.00 CARRIER DEFAULTS 0 1,197 0 '4,198 0. 13,322 13,322 13,322 552` Vito CARLYLE TECH* 10/27/88 KENT *USER SUPPLIED LAT = 47 ALT = 100 CONST = 70W /40R/ 7UB ID= 70/50 : 70 WALL COLOR: LIGHT ROOF COLOR: LIGHT - SER# 30206831.6 D.B.TEMP TOTAL TONS RSH TONS C.F.M. 1. JUN AT 9 A.M. 71.2 4.99 3.75 2,726 2. JUL AT 9 A.M. 72.2 5.01 3.75 2,726 3. SEP AT 10 A.M. 73.0 5.03 3.75 2,726 4. OCT AT 2 P.M. 77.0 5.13 3.75 2,726 5. SEP AT 3 P.M. 83.0 5.28 3.75 2,726 6. JUL AT 4 P.M. 84.0 5.31 3.75 2,726 7. JUN AT 4 P.M. 83.0 5.28 3.75 2,726 ZONE HEATING - -> = 7,463 W /INFIL= 7,463 C.F.M = 170 INPUTS CEILING PARTITION FLOOR SKYLIGHT TRANSMISSION FACT. 0.03 0.08 0.00 0.00 TEMP DIFF HEATING 20 20 0 55 TEMP DIFF COOLING 20 20 0 14 FLOURESCENT LIGHTS - Y SOLAR FACTOR SKYLIGHT = 0.00 OVERHANGS AND /OR REVEALS PRESENT (FT) HEIGHT OF OVERHANG - DEPTH OF OVERHANG - HEIGHT OF WINDOW - DEPTH OF REVEAL - NUMBER FLOORS - TYPE 1 TYPE 2 0.00 0.17 0.00 4.00 0.00 9.00 0.00 0.17 1.00 1.00 TYPE 3 0.00 0.00 0.00 0.00 1.00 EFFECTIVE AVERAGES FOR ZONE LOADS OR OP -COST : EXPOSURE: N. NE E. SE S. SW W. NW WALL TRANS. FACTORS 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 GLASS TRANS FACTORS 0.0U 0.00 0.00 0.00 0.00 0.00 0.00 0.00 GLASS SOLAR FACTORS 0.00 0.00 0.00 0.00 0.00 0.00.0.00 0.00 ROOF TRANS. FACTOR = 0.08 SKYLIGHT TRANS. FACTOR = 0.00 NUMBER OF PEOPLE TOTAL LIGHTS OTHER ELECTRICAL TOTAL GLASS AREA TOTAL GLASS AREA SKYLIGHT AREA SKYLIGHT AREA TOTAL WALL AREA PARTITION AREA CEILING AREA FLOOR AREA AREA OF ROOF OUTPUTS SENSIBLE PEOPLE LOAD LIGHTING LOAD OTHER ELECTRICAL TOTAL GLASS SOLAR TOTAL GLASS TRANS. TOTAL SKYLIGHT SOLAR TOTAL SKYLIGHT TRANS = 29 = 5,856 1,464 0 0 = 0 0 0 2,880 2,928 0 0 TOTAL WALL TRANS. TOTAL PART. TRANS TOTAL CEILING TRANS TOTAL FLOOR TRANS ROOF LOAD 8,638 24,983 4,997 0, 0 = 0 = 0 = 0 =. 4,608 1,757 0 0 CARLYLE TECH* SAFETY FACTOR.: EVAP FAN. H.P. MISC SENSIBLE VENTILATION CFM = MISC. LATENT = NUMBER OF PEOPLE= VENTILATION CFM TOTAL CFM -STD AIR= ROOM SENSIBLE _ - -> GRAND TOTAL LOAD LOAD AREA (SQ FT) = TOTAL CFM -STD AIR = PARTITION LOAD= VENTILATION LOAD = FLOOR HEATING.LOAD= GLASS HEATING L0AD= SLAB HEATING LOAD = WARM UP LOAD 0 %. 0.39 0 273 0 29 273 2,726 SAFETY B.T.U.S FAN HEAT GAIN- BT MISC. SENSIBLE 0. A.SENSIBLE LOAD MISC. LATENT PEOPLE, LATENT LOAD 0.A. LATENT LOAD. TOTAL LATENT LOAD 0 1,197. 0 4,198 0 13,322 0 13,322 44,982 ROOM LAT. LOAD = 13,322; CARLYLE TECH* = 63,700 BTU'S OR 5.31 TONS' <-- RUN FOR # 6. JUL AT 4 P.M. 2,928 SQ. FT PER TON = 2,726 CFM PER SQ FT HEATING LOAD 4,608 CEILING LOAD 16,493 ROOF HEATING LOAD = 0. SKYLIGHT LOAD = 0 WALL HEATING.LOAD = , 1,098 INFIL HEAT LOAD . 0 H LOAD WITH VENT COIL SELECTION PARAMETERS' DB TEMP.ENT /LVG = 71.8 / 55.0 TOT SENSIBLE LOAD WB TEMP ENT /LVG = 62.3 / 54.5 TOTAL COIL LOAD. :SPECIFIED ROOM RH .50% RESULTING ROOM RH. TERM AIR TEMP = 55.00 / 110 DEGREES ROTATED =:0 T. ST.. EVAP,FAN = 0.50 . NON- CEILING.RETURN BLDG. 'U' FACTOR=-. 0.00. CARRIER DEFAULTS. CITY Of TUKWILA Building Division 6200 Southc.ntir Boulevard Tukwila, Washinotnn nAlss (206)- 433 -1849 Site Address / 7b Project Name /Tenant MECHANICAL PERMIT APPLICATION 5g fro CONTR 0 . 1_, �.:�. Suite# Floor# ! .Y 11.1ti Valuation of work ' + 00 Assessors Account # g52 30(1- ?O(J --c0a Property Owner 11111Mi• ril. ..._ � 1._ Phone `f67-- s 5yy. Address _ *) ( zc,,,,cstL 410. Z i p.__ `'((9 ._, Address I < S Nl;, .S- nvu•NA (.4..) Applicant Phone Zip 1aos- Architect /Engineer ..Phone Address - Contractor rol Yy,s2.s\.c_& ., 0,,,A, Zip License# COPIAY1 E4 9►?gPhone gg3 -09s -7 Address • ` C , `� • S95 �• .,��, .�,.� (� al Zip `i sd ? Describe work to be done it Glati rte.) um3) 42 art c4 . L Wad cA„ �•kl al iL, / .3 Indicate the type of equipment to be installed, rating /size of equipment, and number of each: TYPE RATING /SIZE & Pay\ ,4jc .qq.': NUMBER F-50 Two (2) sets of plans must be submitted meeting the application requirements of Section 302(b) and (c), 1985 Uniform Mechanical Code. Roof -top equipment work requires submission of building elevations. I HEREBY CERTIFY THAT 1 HAVE READ AND EXAMINED THI CORRECT AND THAT 1 HAVE-THE-PROPERTY ''S AUT Applicant /Authorized Agent (signature (print name) * c:t (ci 0 R2Ct Vi c: e. Contact Person (please print) ( .0r4; f .'circ e_ RIZATIO ATION AND KNOW THE SAME TO BE TRUE AND TO 00 THIS WORK. Date < 1h23 fM Phone 53S3-095 7 FEES: Basic Permit Fee Unit Fee Plan Check Fee Other ov Y,I 19bd TRA K N OFFICE USE ONLY (000/322.100) S /5.00 (000/322.100) ap,00 (000/345.830) $. 7 S ( / ), Receipt# 7 S-f Receipt# Receipt# Receipt# TOTAL ..1.1.1.12j.. (OWES: $ A/3,'95 Date Paid / -g- 5 Date Paid Date Paid Date Paid BLDG PLNG 1Z-Z0 -N Approved for Issuance Approved (Initials) i2 -20 -88 rlq ve4/ Apt 1\1 ! tatio%'UL. ENGINEERS-- NORTHWEST 14C. P.S. 6869 WOODLAWN AVE. N.E. • SUITE 205 • SEATTLE, WA 98115 • (206) 525 -7560 • FAX # (206) 522 -6698 Jos NO.8Q%- ---Jos NAME TM %r7 00 0-1 yiLLCI DATE SUBJECT (30S %N)i1LS QI,rZ�C_ �Q G CO -T SHEET l or BY ovAl 4-me ,Co r.it 9 _tSSU`2'F-, SLR- ..1'V6 M9 0. • I unJerstand that the Plan Check. approvals are subject to errors and omissions and approval of plans.does not authcriz n of adopted •r crdinah -. copy • approve i plans ac By 'Q,E.-11xE€10 aavD5 -CD : 14rk O Da Date .....G. Permit No t.. Sri • 0/0 RECEIVED • 'NOV 1 2 1989 TE CITY OF TUKWILA APPROVED DEC 2 1988 i ./1". ' •VISION 8699 .426S 153MH1 J)'1 SN13 }JI9N3 95:80 88, E:? inH BUILD • 1.111.1I.11I'IIaq. LEI. X1111 1.I111111111111ll11111�11j11I 111111 111111jl11i111 1 1'11111 II 111111 II 111jii111j11I1f111IIIil1 I 12 0 16 Tf15 INCN 1 2 3 /�.., 16 r . 8 9 10 11 M4DEIN CARMAN! 12 ,.,11- .. Sy. � � t O y..,O E . If the microfilmed document is less clear than this c� ot�°,` it is due' to the qu• ality :of the orig�.nal� document - ? „� '{ 7: riv. 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IIIIIIIIIII111IIII11111II1,111111 111111111 11111111111I111)1111111IIII;I 1 (6 ) B 60 I 0 - ' B ci D • E F ad-o' NORTH r- 0)(10;t114 <1-- 7) li 011-10tZ 9) I II 60-0 f • ( A ; B • • NEW EXPANSION vo-.21-aqa caik1N 4 00c.1". coLLIKI +I% rAF,111104-1 .t5X le-41HG WAL.I.- .ID 1.4"1,1 PAW. 3a C,/,,/rArq-rIoN ANN,1111i,■1' ■••••/ ANEW' ,N(..a.6 -.aim • dm./ aMir CORRIDOR N • _f-: 14- t:::au;s No 1+;:C7 I • !1( _ LUNCH/F. L4P•1 igs;e4P p„r., F. Wi otiurr Arov9. 11 Rk111,4 . c•Lix-,0 (prow •27 +4 6X1r0-1-11,1 V.1(1.r ckJ.1Wr iN -ro N'Ad CAll&U OPEN woKK krA Lir ■••Ix'7'-o 11 MK- NA P003)001:10W0B1LY. : oe„ +11.. HenTer' 2 -15'1 e- - .----figLifi tr. \-row;-K til, pmcIAL, Folro -511-4.• 47.e. TOAAL.LaN pr,. HP, - . . L 011-It4 • g-oleff) a +49 +4 roJp,fi, 2 F.Aff.42 lir to PW 511z1111.11'Z' Avar-e% 1-14r. r-zwe rwrof--rlaw •Ase.4.. iji• :4e4Ter 19e, WOR NWItge .(1a.10(7=,' -p 317t.iF2- ourc.exs „Ibry, (14,i1G+ 1,211)7 Z-1 OPE N u.• . • • • L =1 - L.4 L LJ wcuosit . -4110 fi -‘16. A1.1:74 OFFICE., 0(.210t-1 • WAREHOUSE I! CIL4HL Hi. 11/wx • 1.41irlorl ar a,t1 0,51.+1-;*-• C-5"N'EN g: Pwrit.-k; 1-"011 WA-r • „iFIRSt FLOOR PLAN ve,lf- 'cos X1'11N(a- 220 V t.iIAt- J11_1_ ( ill'ACt;;C2) e•oLirrr-i • •®• E r CITY OF 'TUKWILA APPROVED (JEC23 1988- BUILDING DRISION 1 Fii icnpy ( G 1 understand that the Man Check approvals are sublect to errors and omissions and approval of plans does not authorize the violation of any cadoltcd code or ordi eipt of contractor's cPkef-ap;zed xi,-.Y CA we _41/8- Li Permit No ................, CONSTRUCTION LEGEND DOOR SCHEDULE ELECTRICAL and TELEPHONE LEGEND - LIGHTING LEGEND .-.............................. ,. GENERAL ' N•: 'TES • - ' ' ' - ' '-' - ' ' ' ' - • • — ''" - - ' • ' - - --- . - , • CARLYLE TECH. 2..K.K.4-try ,,,IAV...: I.VviY.E..9ti, (0TIN777.,1621.-‘2•6• Wi2-1,AMS 5/" rim-- x 0.1•II:,, P00114 .".NPp 14/ 1-44K. nc_01-r-C410N e.,... POP. I I 2=m-az V.+I Nr IKiTatIoR AK-L-111°N : 2/2 tIF,-rm. iiir.;6,••iall ac• LI/ -ro-x aLuo, MN Itip, MI FL-OP -1"0 LINI91:IP5 0+, uN6 084.11-16 . . , .... , ., . =Da= ;1)1417 IN*1.11,A15 rAcinial.6AL45 /6 -1V,HANI" INV-KIOK rAKrinoN. rrovir/0 2Vg"11,-X AC,011-7110A1- 0AfrIFK-411.,,AllON II.I 1,14,!.. 0Avl-fir6 C.e.4.1rAlous, . . — =,----r- UL._ Ur. rp-ire PAK11lot4 44 !Ivy FfeAt-ir,•rovic70-44'0_,- • WOrT 4!-A, WIlig5 KEWIJIKW• . . , .. I - r.,cort NUM E0E.K. Typv. or- rx:rnr.. A. ,'0$0,011e0c• W009 vex 4 MC' fr.(HAta CAlc0ril. 1:' ALA- -ff-Lvr09- 011A*r.: .„., ..- • i----1 r.1,o 2,rr, x.k•rf rCpcpc,,..r.7,.. pulagg••x.-7•4•If I-W+I" GlIffirt5C0 31 lo1 1-4410 Oxlinzr,* • 14z( 1:p Lt_v... hictIRTFoo 1-1R.IT tlY-11.1 1: 0,4: I cfA°WAxii)111:::IT:PAWIle2I-r61:1M4 _ 1. CONTRACTOR SHALL BE RESPONS/BLE IY 1 FRO:TING ALL WORE AND MATERIALS IN ACCORDANCE V'TH ALL A2PLICABLE CITY, COUNTY, AND LOCAL BUILDING !.'.H.) FIRE CoDES AS 2. CONTRACTOR SHALL BE GOve..1NED BY AIL CONDITIONS AS INDICATED IN CONTRACT DRAWINGS & E2ECIFICATIONS FOR BUILDING. . , — .. • . - 3. CON.,R-CTOR SHALL VISIT JOB SITE AN) VERIFY ALL FI.•'LD DIMENSIONS AND COND TIONS AND NOTI0Y F..1 4 A OF ANY DISCREPANCIES BEFORE PRQCEEDING wr214 WORK. 4. B/3 INDICATES "BUILDIN.1 STANDARD, AS PROVIDED BY LANDIoRD DRAKE D/OR SPECIFIED IN BUILDING CONTRACT DOCUMENT S , ' 5. BY L.L. 6- T.E. InDICATES "BY LANDLORD AT TENANT'S 6. 'AHE•:VAS' TO AND OF ELECTRICAL 4 TELEFHOSE OUTLETS . DiDICATE3 MIMI OF 6" FROM 1„ OF F.LECTRICAL'OUTLET TO .f.. OP TELEPRONE OUTLET. - 7. A.F.F. INDICATES 'ABOVE Ft NIS:' FLOOR". . 8. CONTRACTOR TO OBTAIN 4LL PERMITS 4 APFROVALS. . . . . . . NORTH VALLEY BUSINESS PARKREcervED CITY OF t&- 101:g WAR- t21Jf1-:%X P.,5C-"CKIGAL- 011-11-5-r + n' VW- FoUNt1-5x 0.1),-11,•IGAL•61111451. ie. pio wv, zzo v. -",,,,,5-nticAL, ouilx-r 0 ni l,, ::.,t,,,,-7,-0... Te...1.1,,,, 0, •-••• w12•1151'lz r•,-- tx• 1-+ c-t' G,h+71 01111.51" . ^ • '''''' ),". art gAr g.x,f•••W) C. rK.5.1,dx-e:c4 02,. 40 Ki.i. • 1...kr..41-149,0 GK. ii HMI.- P.?. A.)--Alttr,Zetter44 rxiiii-44) .. ..- • BUILMNI3 Dall'• . Pam e-X-rAKAT C4PLIJIc 9141•&XM•561XIcAl- e:nrW,12•0V-.20A vi/TIVeg +- FOUNLE6 (7714M Ft.NteE NOTED ;`': ' tra6101.-.S. 4 rf,P, agc4Ilr Me, A-rci: ouiW27.0v,5oik • • • - • - . . . • • • ' ' . MarvinSt iateS,InC. ORAval VVA rianning &sip i HAPC.DF4Ar‘a 4. 104,KbP.r. RATF44 Plsr.N4 17, Pc1=4K-rir HAral f-AlsrING ® .,(Is r!!..i a '' if rAra1;41, FIT: MIA-15 rAR-11-11014 It4 W049 14".. rrovir.5, kiirf- ' .5Aritr 1-)k* I,-JII re.Q,JIRW. - 2221 5th Avenue • Seattle Washington 98121 • (206) 441.1444 stEcKED . .' CONSTRUCTION PLAN DATE Gal ZO Iief: OF SHEETS . MIAL. tfi• r-LovAv, 011-rioN, Room Nui,-.ber -Ceiling Flt. . JOB NO 1 1 • 0 1 1 1 1 1 1 1 I WI I I I 11 1 1 1 1111 11111111111111911111111111111 I II II 1'111111p III I I I1 • - _ • • - • • • 4, • ",141A1',;•,,