Emerson 3000 manual

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Table of contents for the manual

  • Page 1

    Precision Cooling For Business -Critic al C ontinuity™ Li eber t C ha l leng er ™ 3000 with iC OM Install atio n Manu al - 3 & 5 T ons, 50 & 60Hz[...]

  • Page 2

    [...]

  • Page 3

    i T ABLE OF CONTENTS I MPORT ANT S AFETY I NSTRUCTION S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1.0 I NTRODUCTI ON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.1 System Descriptions . . . . . . . . . . . . . . . . . .[...]

  • Page 4

    ii 5.0 G LYCOL /GL YCOOL-C OOLED M ODELS —S ELF -C ONTA INED C OMPRESSOR . . . . . . . . . . . . 41 5.1 Drycooler Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 5.2 Drycooler Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .[...]

  • Page 5

    iii FIGURES Figure 1 Removing Challenger from skid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Figure 2 Upflow (BU) cabinet dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Figure 3 Downflow (BF) cabinet dimensions . .[...]

  • Page 6

    iv TA B L E S Table 1 Unit net weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Table 2 Piping connection size . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Table 3 Recommended fre[...]

  • Page 7

    1 I MPORT A NT S AFETY I NSTRUCTIONS SAVE THESE INSTRUCTIONS This manual co ntains important safe ty instructions that sh ould be followe d during the installa tion and maintenance of the Liebert Challenger 3000 ™ . Read this manual thorough ly before attempting to install or opera te this unit. Only qualif ied personnel s hould move, install or [...]

  • Page 8

    2 NOTICE Risk of leaking water. Can cause equi pment and building damage. This unit requires a water drain connection. It may also require an external water supply to operate. Improper installati on, application and serv ice practice can result in water leakage from th e unit. Water leakage can result in severe prop erty damage and loss of critical[...]

  • Page 9

    Introd uction 3 1.0 I NTRODUCTION 1.1 System Descriptions Challenger 30 00 ™ environmental control systems are availabl e in three main system configurations: • self-contained system with a scro ll compressor in the room unit • self-contained chilled water system • split system with an evaporator section a nd a remote condensing unit All th[...]

  • Page 10

    Introd uction 4 1.1.3 Split Sy stems Each air-cooled spli t system consists of an evaporator sect ion and one of the fo llowing condensing units. Prop Fan Air-Cooled Prop Fan units include s croll compressor, condenser coil, prop fan, high pressure switch, hot gas bypass and Liebert Lee-Temp head pressure cont rol. Unit is desig ned for outdoor loc[...]

  • Page 11

    Installation (Applicab le to all Models) 5 2.0 I NST ALLATION (A PPLICABLE TO ALL M ODELS ) 2.1 Room Prep aration The room should be well insulate d and must have a sealed v apor barrier. The vapor barrier in the ceiling can be a polyethylene fi lm type. Use a rubber or plastic base paint on concrete walls and floors. Doors should not be undercut o[...]

  • Page 12

    Installation (Applicab le to all Models) 6 2.4.1 Handling With Skid • Always keep the unit upright, in doors and protected from damage. • If possible, transport the unit usin g a fork lift; otherw ise, use a crane with belts or cables, av oid- ing pressing on the top edges of the packaging. • If using a fork lift, make sure the forks, if ad j[...]

  • Page 13

    Installation (Applicab le to all Models) 7 Figure 2 Up flow (BU) cabinet dimens ions A S haded area indi c at es a rec om m ended c l earanc e of 34" (864mm ) f or c om ponent ac c es s . R i ght s i de ac c es s s ugges t ed f or G L Y C OO L unit s . D P N 000350 Re v . 0 1 FR ON T V IE W (f ront ret urn c onf igurat i on) 32-1/ 2" (826[...]

  • Page 14

    Installation (Applicab le to all Models) 8 Figure 3 Downflow (BF) cabinet dimensions Shad ed area indic ates a recommended c learance of 34” (864mm) f or component access. Right side access sugges ted for G L Y COOL units DPN000351 Rev . 01 32-1/2" (826mm) Overall Dimen sion 32-1/2" (826mm) Overall Dimen sion 30-1/2" (775mm) 76&quo[...]

  • Page 15

    Installation (Applicab le to all Models) 9 2.5 Piping Considerations All piping below the elevated floor must be located so that it offe rs the leas t resistance to air flow. Careful planning of the piping layout und er the rais ed floor is required to prevent the air flow from being blocked. When i nstalling pipi ng on the subf l oor, it is recomm[...]

  • Page 16

    Installation (Applicab le to all Models) 10 Figure 4 Piping connections for air- cooled units - Downflow models PIPI NG OU TL ET L OCA TIO NS (See Cabi net and Floor Planning Dimensional D ata for Piping Opening Si zes.) Liebert iCOM Control Panel Condensate Drain 3/4" FP T Field-pitch a mini mum of 1/8" (3.2mm) per foot (305mm). The drai[...]

  • Page 17

    Installation (Applicab le to all Models) 11 Figure 5 Piping connections for ai r-cooled unit s - Upflow models Condensat e Drain 3/ 4" F P T F ield pit ch a min. of 1/ 8" ( 3. 2mm ) per f t . (305m m) . Unit s wit hout a condens at e pump hav e a f act or y- supplied t rap in t he unit , s o a f ield t rap s hould not be added. Unit s wit[...]

  • Page 18

    Installation (Applicab le to all Models) 12 Figure 6 Piping connections for sp lit system fan coil unit s - Downflow models PI PI N G OUTL E T LOCA TI ONS ( S ee Cabinet and F l oor P lanning Dimens ional Dat a f or P iping O peni ng S iz es . ) DP N000376 Re v . 01 Condensat e Drain 3/ 4" F P T F ield pit ch a m in im um of 1/ 8" (3. 2m [...]

  • Page 19

    Installation (Applicab le to all Models) 13 Figure 7 Piping connections for split s ystem fan coil unit s - Upflow models DPN 000375 Rev . 01 Pipi ng outlet locations through the plenum are the same as the unit. See below for desc riptions and connection siz es. Humidifier W ater S upply Line 1/4" OD CU Suction R efrigerant Line #1 1 Quick Con[...]

  • Page 20

    Installation (Applicab le to all Models) 14 Figure 8 Piping connections for wate r/glyc ol and GL YCOOL unit s - Downflow models DP N000364 Rev . 01 Condensate Drain 3/4" FP T Field pi tch a minimum of 1/8" (3.2mm) per ft. (305mm). The drain line must compl y with all appli cable codes Humidi fier W a ter Supply Li ne 1/4" OD CU Cond[...]

  • Page 21

    Installation (Applicab le to all Models) 15 Figure 9 Piping connections for wate r/glyc ol and GL YCOOL unit s - Up flow models PIPING OUTLET LOCA TIONS (See Cabinet and Floor Planning Dimensional Data for Piping Opening Sizes.) Piping outlet locations through the plenum the same as the unit. See below for descriptions and connection sizes. Humidif[...]

  • Page 22

    Installation (Applicab le to all Models) 16 Figure 10 Piping connections for chilled wate r self-contained unit s - Downflow models PIPING OUTLET LOCA TIONS (See Cabinet and Floor Planning Dimensional Data for Piping Opening Sizes.) Condensate Drain 3/4" FPT Field pitch a minimum of 1/8" (3.2mm) per ft. (305mm). The drain line must comply[...]

  • Page 23

    Installation (Applicab le to all Models) 17 Figure 1 1 Piping connections for chilled wate r self-contained unit s - Upflow models Cond ensate D rain 3/ 4" FP T Field-pitch a min. of 1/8" ( 3.2mm) per ft. (305mm ). Units without a condensa te pump h ave a factory- suppli ed tra p in the unit, so a field trap shou ld not be ad ded. Units w[...]

  • Page 24

    Installation (Applicab le to all Models) 18 2.5.2 Humidifier Supply W ater—Optional Infrared • 1/4" supply l ine; maximum water pressure is 150 psi (1034kPa) • Size humidifie r supply line for 1 gpm (3.8 l/m), with a minimum water pressure of 20 psi (1 38kPa) • Do not supply de-ionized water to the humidifier 2.6 Facility Fluid a nd Pi[...]

  • Page 25

    Installation (Applicab le to all Models) 19 Figure 12 Electrical connections 1. Electric conduit knockouts on top and bottom of electric bo x. Knockout size 1-3/4" (44.5mm). 2. Three-phase connec tion . Electric service connection termin als when fa ctory disconnect is NOT supplied. 3. Three-pha se connection . Electric service connection term[...]

  • Page 26

    Installation (Applicab le to all Models) 20 15. Heat rejection connection . Field-suppl ied 24V Class 1 wiring to interlock heat rejection from pigtails 70 + 71 which are factory -connected to co mpressor side switch (s elf-con tained units only) or to GLYCOOL relay (K11, GLY COOL units only). On Dual Cool units only, pigtails 72 + 73 connect auxil[...]

  • Page 27

    Installation (Applicab le to all Models) 21 2.8 Balancing the Air Distribution 2.8.1 Under-Floor Discharge Systems The systems are designed for consta nt air delivery, therefore any unusual restrictions within the air circuit must be avoided. For under-floor air distri bution, observe the fo llow ing guidelines: • Select the air supply g rilles a[...]

  • Page 28

    Installation (Applicab le to all Models) 22 2.9 Checklist for Completed Inst allation ___ 1. Unpack and check received material. ___ 2. Proper clearance for service access has been maintained around the equipment. ___ 3. Equipment is level and mountin g fasteners are tight. ___ 4. Piping completed to refrigerant or coolant loop (if re quired). Pipi[...]

  • Page 29

    Air-Cooled Models—Sel f-Contained Compressor 23 3.0 A IR -C OOLED M ODELS —S ELF -C ON T AINED C OMPRESSOR 3.1 Condenser Location The air-cooled condenser should be located for maximum security and maintenance accessibility. Avoid ground level sites with public access or area s that contribute to heav y snow or ice accumula- tions. Utilize cent[...]

  • Page 30

    Air-Cooled Models—Sel f-Contained Compressor 24 Figure 14 Air-cooled condensers T able 4 Air-cooled condenser st atistics Model Number of Fans Connection Sizes (OD Copper) Net Weight lb (kg) “A” Dimension in (mm) Hot Gas (in.) Liquid (in.) 083 1 7/8 5/8 295 (133.8) 42 (1067) 104 1 1-1/8 5/8 315 (142.8) 42 (1067) 165 2 1-1/8 7/8 425 (193) 82 ([...]

  • Page 31

    Air-Cooled Models—Sel f-Contained Compressor 25 3.3 Refrigerant Piping All refrigeration pip ing should be installed with high temperature brazed joi nts. Prevailing good refrigeration pr actices should be employed for piping supports, le ak testing, dehydra tion and charg- ing of the refrigeration circuits. Unit refrigeration components and pipi[...]

  • Page 32

    Air-Cooled Models—Sel f-Contained Compressor 26 3.4 Fan Speed Control Systems The Variable Fan Speed Control systems (FSC & VFD) uses pressure-activated electronic fan speed control systems and remotely located thermostat(s) to ensure operation at ambient temperatures as low as 0°F (-18°C). For this ambient temp erature range, the VFD Contr[...]

  • Page 33

    Air-Cooled Models—Sel f-Contained Compressor 27 V ariable Fan S peed Control Materials Supplied •B u i l t - i n , p r e - w i r e d condenser control box • Air-Cooled con denser • Piping access cover to be reinst alled when piping is comple te • Bolts—four per leg (3/8" x 5/8") • Terminal block for two-wire, 24V interloc k [...]

  • Page 34

    Air-Cooled Models—Sel f-Contained Compressor 28 V ariable Fan S peed Charging 1. Check un it nameplate for refriger ant type to be used. Unit contro l configurations dif fer depending on refrigerant type. 2. Refrigerant chargin g requires unit operatio n. Refer to 2.9 - Checklist for Completed Installation . 3. Calculate the amount of charge for [...]

  • Page 35

    Air-Cooled Models—Sel f-Contained Compressor 29 Figure 15 General arrangement—Air -cooled models with fan speed co ntrol DP N000349 Rev . 3 Condenser Coil Schrader Va l v e Fusi ble Plu g Evaporator Coil Hot G as Bypas s Va l v e T raps* every 25 ft. ( 7.6m) of rise Solenoid Va l v e s Sigh t Glass Filter Dryer Liquid Return Shutoff* Va l v e S[...]

  • Page 36

    Air-Cooled Models—Sel f-Contained Compressor 30 Figure 16 General arrangement—Air -cooled models with digit al scroll and fan speed control Inve rted Trap * o n discharge line to extend above ba se of coil by a minimum of 7-1/2" (190mm) Condenser Coil Schr ade r Va l v e Fusi ble Plug T raps* every 25 ft. (7.6m) of rise Evaporator Coil Exp[...]

  • Page 37

    Air-Cooled Models—Sel f-Contained Compressor 31 3.5 Air-Cooled Condenser with Lieber t Lee-T emp “Flooded Condenser” Head Pressure Control System The Liebert Lee-Temp system consis ts of a modulating type head pressure control v alve and insulated receivers with heater pa ds to ensure operation at ambient temperatures as low as -30°F ( -34.4[...]

  • Page 38

    Air-Cooled Models—Sel f-Contained Compressor 32 6. Aft er four hours, check the pres sure readings and, if they have not changed, break vacuum with dry nitrogen. Pull a second and third vacuum to 250 microns or less. Recheck the pressure after two hours. 7. Remov e the jumper hose installed previously from between the service valve fitting and th[...]

  • Page 39

    Air-Cooled Models—Sel f-Contained Compressor 33 Figure 17 General arrangement—Air -cooled models with Liebert Lee-T emp * C omponents are not supplied by Li ebert but ar e recommended for proper circui t operation and maintenance. * * Components suppli ed by Liebert and must be fi eld instal led. FA C T O R Y P I P I N G FI ELD PIPING Pip in g [...]

  • Page 40

    Air-Cooled Models—Sel f-Contained Compressor 34 Figure 18 General arrangement—Air -cooled models with digit al scroll and Lee-T emp Digital Sole noid V al ve DPN 001725 Rev . 0 * Components are not s upplied by Liebert but are recommended for proper circuit operation and maintenanc e. * * Components suppl ied by Lieb ert and must be field -inst[...]

  • Page 41

    Water-Cooled Models—Sel f-Contained Compressor 35 4.0 W ATER -C OOLED M ODELS —S ELF -C ONT AINED C OMPRESSOR 4.1 Piping Considerations Manual shutoff valves should be installed at the supply and return li nes of each unit. This will pro- vide for routine maintenance or emergency isolation of the unit. When the water source for the condenser is[...]

  • Page 42

    Water-Cooled Models—Sel f-Contained Compressor 36 Figure 19 General arrangement—W ater-cooled models with scr oll compressor Field-Supplied Reduce rs Requi red on 3-T on Units DPN0003 59 REV 02 Evaporator Coil Expansion Va l v e Sens ing Bulb Exter nal Equa lizers Scroll Compr essor Serv ice Va l v e s Hot Gas Byp as s Solen oid Va l v e Hot Ga[...]

  • Page 43

    Water-Cooled Models—Sel f-Contained Compressor 37 Figure 20 General arrangement diagram—W a ter-coole d models with digital scroll D P N 001727 Re v . 0 E v aporat or Co i l E x pans ion Val v e S ens i ng Bu lb E x t ernal E quali z er Se r v ice Va l v e s S ight Glas s Filter Dr ye r T ube in T ube C ondens er T ube in T ub e C ondens er Flu[...]

  • Page 44

    Water-Cooled Models—Sel f-Contained Compressor 38 4.3 W ater Regulating V alve The water regulating valve automati cally regulates the a mount of flui d necessary to remove the heat from the refrigeration system, permitting more flui d to flow when load conditions are high and less fluid to flow when load conditions are low. The va lve consists o[...]

  • Page 45

    Water-Cooled Models—Sel f-Contained Compressor 39 Figure 22 Metrex V alve adjustment Manual Flushing The valve may be flushed by rotating the socket head screw clockwise. T h is s c r e w m u s t b e in t h e O U T position (counterclockwise) for normal valve operation. 4.4 Motorized Ball V alve—Digit al Scroll Compressors On digital scroll uni[...]

  • Page 46

    Water-Cooled Models—Sel f-Contained Compressor 40 4.4.2 Adjustment Both pressure thresholds can be shifted simultaneously over a 50psi ( 345kPa) range (the 35psi [241kPa] differenti al remains constant). The ball va lve setpoint offset parameter in the Liebert iCOM Service menu can be adjusted from 0 to 50 PSI (345 kPa) to raise or lower th e con[...]

  • Page 47

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 41 5.0 G LYCOL /GL YCOOL-C OOLED M ODELS —S ELF -C ONT A INED C OMPRES SOR 5.1 Drycooler Location The drycooler shou ld be located for maximum secu rity and maintenance acce ssibility. A void groun d- level sites with public access or areas which contribute to heavy snow or ice accu mula[...]

  • Page 48

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 42 5.4 Glycol Piping These guidelines apply to the field leak checking and fluid requirements for field piping systems. General Guidelines • Equipment damage and personal injury can resul t from improper piping insta llation, leak check- ing, fluid chemistry and fluid maintenance. • Fo[...]

  • Page 49

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 43 NOTICE Risk of debri s or precipitate clogg ing pipes. Can cau se equipment damage. Galvanized pipe mu st not be used in or wi th systems or units that contain glycol. The phosphates in the inhi bitor can react with the zinc in the galvan ized pipe, precipitating an insoluble m aterial [...]

  • Page 50

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 44 5.4.1 Exp ansion T anks, Fluid Relief V alves and Other Devices An expansion tank must be provided for expansion and contraction of the fluid due to temperature change in this closed system. Vent s are required at s ystem high points to v ent trapped air whe n fill- ing the system. A re[...]

  • Page 51

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 45 5.5.2 Glycol Solutions When considering the use of any glycol products in a particular application, you should rev iew the lat- est Material Safety Data Sheets an d ensure that the use you intend can be accomplished safely. For Material Safety Data Shee ts and other product saf ety info[...]

  • Page 52

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 46 NOTICE Risk of corrosion from water impu rities. Can cause equipment damage. The quality of water used for dilutio n must be considered because water may contain corrosive elements which reduce the effectiveness of the inhibite d fo rmulation. Wate r that is classified as soft (low in c[...]

  • Page 53

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 47 Figure 23 Drycoolers and pump pa ckages Notes 1. Single pump packages are 17-1/4" (438 mm) wide. Dual pump p ackages ar 32-1/4" (819 mm) wide. 2. Mounting holes are 15-1/4" ( 387 mm) apart on single pump pa ckages and 30- 1/4" (768 mm) apa rt on dual pump packages. 3[...]

  • Page 54

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 48 Figure 24 Pump p ackages—exp ansion tank T able 17 Mounting hole dimensional dat a PUMP PACKAGE A in (mm ) B in (mm) C in (mm) SINGLE (0.75 - 7.5 Hp) 15-1/4 (387.4) 2-1/2 (63.5) 22-1/2 (571.5) DUAL (0.75 - 5 Hp) 30-1/4 (768.4) 2 -1/2 (63.5) 22-1/2 (571.5) T able 18 Drycooler dat a Mod[...]

  • Page 55

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 49 Figure 25 General arrangement—Glycol-c ooled models with scroll compressor Glycol Pump Pum p Housing Unions* Isolation V alves* Expans ion Va l v e Drycoole r Electr ic Box Drycool er Coil Fluid Retu rn to Pump Flui d Sup ply from Pum p Unions* Field-S upplied Reducers R equired on 3-[...]

  • Page 56

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 50 Figure 26 General arrangement—Glycol-cooled mode ls with digit a l scroll Digital Solenoi d Va l v e Glycol Pump Housing Unions* Isolati on V alves* Expansion V alve Drycool er Elec tric Box Drycooler Coil Flui d Return to Pump Fluid Su pply from Pump Unions* Fill* Expansi on T ank Fi[...]

  • Page 57

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 51 Figure 27 General arrangement—GL YC OOL models with scroll compressor Field-S upplied Reducers Required on 3-Ton Units Pum p Housi ng Pum p Unions * Unions* Isolati on Valves * Expans ion Valve Evapo rator Coil Drycool er Coil Drycooler Electr ic Box Pressu re Por t* Pressu re Por t* [...]

  • Page 58

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 52 Figure 28 General arrangement—GL YCOOL models with digita l scroll compressor r Di gi t a l S olenoi d Va l v e Pu m p H ous ing G l yco l Pu m p Uni ons * Is ol at i o n Va l v e s * Ex p a n s i o n Va l v e Ev a p o r a t o r Co i l Dr yc ooler Co i l Dry co ol er El e c t r i c Bo[...]

  • Page 59

    Glycol/GL YCOOL-Cooled Mode ls —Self-Contained Compressor 53 5.5.4 Motor Ball V alve—Digit al Scroll Compressors Refer to 4.4 - Motorized Ball Valv e—Digital Scroll Compressors for details on the motorized ball valve. 5.6 Condenser The condenser is designed to operate in conjuncti on with a dry cooler. The maximum coolant pressure is 350 psig[...]

  • Page 60

    Chilled Wa ter Models 54 6.0 C HILLED W ATER M ODELS 6.1 Piping Considerations Manual shut-off valves should be install ed at the supply and return lines to each unit. This will pro- vide for routin e service and emergen cy isolation of the unit. Consideration of the minimu m water temperature to be supplied fr om the chiller will determine if the [...]

  • Page 61

    Chilled Wa ter Models 55 Figure 30 Chilled water general arrangement - Downflow (BF) mode ls SL-11899 Pg. 6 A B Flow Switch (optional) Chilled Wat er Retu rn Chilled Water Supply Chilled Wat er Retu rn Chilled Water Coil Chilled Water Coil 2-Wa y Chilled Wat er Valve Chilled Wate r Sup ply Sh ut o ff Va lve s * Hose Bib s * 3- WAY VALVE 2- WAY VALV[...]

  • Page 62

    Split System Models 56 7.0 S PLIT S YSTEM M ODELS Three condensing unit styles are available: two ai r-cooled and one wate r/gl ycol-coole d condensi ng unit. 7.1 Location Considerations 7.1.1 Air-Cooled Condensing Unit s To assure an adequate air supply, it is recommende d that al l condensing un its be located in a clean air area, away from loose[...]

  • Page 63

    Split System Models 57 7.2.2 Low V oltage The control cable between the cond ensing unit and the evaporator unit is connecte d between termi- nals 1,2 and 3 on the terminal strip in the evapo rat or unit and the condensing unit control box. A fourth wire is requ ired on systems with hot gas bypass. NEC Class 1 w iring is required. Glycol -cooled un[...]

  • Page 64

    Split System Models 58 Refrigerant charge requirements: Total refrigerant char ge wi ll be required only if units ar e evacuated during installat ion or maintenance. Total refrig er ant charge = evaporator + lines + conden sing unit. Once all piping is comp lete, check for leaks and dehydrate the field pi ping as follows: 1. Pressurize the field pi[...]

  • Page 65

    Split System Models 59 Figure 31 Refrigerant p iping diagram 7.3.2 Quick Connect Fittings Be especially careful wh en connecting the quick connect fitting s. Read through the following steps before making the connectio ns. 1. Remove protector caps and p lugs. 2. Carefully wipe coupling se ats and th readed surfaces with a clean cloth. 3. Lubricate [...]

  • Page 66

    Split System Models 60 7.4 Out door Air-Cool ed Condensing Unit s Figure 32 Out door air-cooled condensing unit—horizon t al air discharge models A B C Shad ed area indi cates a minimum cl earance of 18" (457mm) fo r proper air fl ow Shaded area indicates a minimum cl earance of 18" (457mm) for proper air flo w Removab le (Front) P anel[...]

  • Page 67

    Split System Models 61 T able 26 Horizonta l air discharge cabi net and floor planning dimensional dat a Model Numbers Dimensional Data in. (mm) Module Weight lb (kg) net 60 Hz 50 Hz A B C PFC042A-_L P FC041A-_L 48 (1219) 31 (787) 18 (457) 241 (109) PFH042A-_L — PFC042A-_H PFC041A-_H 53 (1343) 36-1/4 (918) 18 (457) 351 (159) PFH042A-_H — PFCZ42[...]

  • Page 68

    Split System Models 62 Figure 33 Out door air-cooled conde nsing unit—top air disch arge models C A 2" (51mm) B D 36-1/8" (918mm) 25-3/32" (637mm) 46-7/32" (1174mm) 4-23/32 " (120mm) 53-3/16" (1351mm) 4" (ty p.) (102mm) 2" (typ.) (51mm) 2" (51mm) 32-1/8" (816mm) FOOTP RI NT DIME NSIONS 1/2"[...]

  • Page 69

    Split System Models 63 T able 28 Cabinet and floor planning dimension al dat a - prop fan condensin g modules, top air discha rge Model Numbers Dimensional Data in. (mm) Module Weight lb (kg) net 60 Hz 50 Hz A B C D PFC067A-_H PFC066A-_H 53 (1343) 36-1/4 (918) 38-1/2 (978) 5-1/2 (140) 488 (222) PFH067A-_H — PFCZ67A-_L PFCZ66A-_L T able 29 Piping [...]

  • Page 70

    Split System Models 64 Figure 34 Electrical field connect ions, prop fan condensing module NOTE: Refer to specifi cation sheet for full load amp and wire size amp ratings SL-1 1081 Pg. 8 Factory-wired to components on electric panel. Heat rejection connection. Field supplied 24V N EC class 2 w iring. Wire connections from evaporator module: 1. 24V [...]

  • Page 71

    Split System Models 65 7.5 Centrifugal Air-Cool ed Condensing Unit s 7.5.1 Inst alling the Indoor Condensing Unit Refer to drawings for unit dime nsions and component locations. The indoor condensing unit is usual ly mounted abov e the ceiling and must be securely mounted to t he roof structure. The ceiling and ce iling sup ports of existing buil d[...]

  • Page 72

    Split System Models 66 Figure 35 Det ail of ceiling hanging bracket 7.5.2 Ducting The total external static pressure for the inlet an d outlet ducts, including grille, must not exceed 0.5 inches of H 2 O. Hood intake dimensions should be the same as t he condensing unit d uct dimen- sions. If the condensing unit is lo cated close to the outside of [...]

  • Page 73

    Split System Models 67 Figure 36 3-ton centrifugal air-cooled conde nsing unit dimensional dat a & piping connections C D B A Customer- supplied threaded rods for  module supp ort from ceiling ( typ. 4) SL-1 1085 Pg. 4 Air Ou tlet Duct C o nnec tion Air Out let Duct Dimension Note:Unit is evenly spaced in reference to threaded for cent[...]

  • Page 74

    Split System Models 68 Figure 37 3-ton centrifugal air-coole d condensing unit (con't.) DP N000207 Rev0 Si ngle- or three-phase electri c service not by Li ebert Optional fac tory-installed disconnect s witch Factory-wired to component s on electric panel Line volt age electric power supply conduit entrance Field-suppl ied 24V NEC Class 2 wir [...]

  • Page 75

    Split System Models 69 Figure 38 5-ton centrifugal air-coole d condensing unit dimensional dat a SL-1 1087 Pg. 4 24" (610mm) Cabinet Dimens ion 32" (812.8mm) Cabinet Dimens ion 3-3/8" (85.7mm) 14-1/2" (368.3mm) 8-15/16" (227mm) 15-3/4" (400mm) 1-5/8" (41.1mm) 54" (1371.6mm) Cabinet Dimens ion 1-3/4" (44.[...]

  • Page 76

    Split System Models 70 Figure 39 5-ton centrifugal air-cooled conde nsing unit dimensional dat a (con't.) DPN000226_Rev0 Fiel d-Suppl ied Uni t Di sconnec t Switch whe n F actor y Unit Dis connect Swit ch is no t Suppl ied Electric se rvice not by Liebert Optional Fact ory- Insta lled Dis connect S wi tch AIR COOLED Line V ol tage Electric P o[...]

  • Page 77

    Split System Models 71 Figure 40 Split sys tems general arrang ement Conden ser Coil 1/2" (1 2.7mm) NP T Pressure Re lief V alve Pressure Balancing Va l v e Sigh t Glass Check Va l v e Lee- T emp Receiver High -Pres sure Switc h Scro ll Compre ssor Scro ll Compress or Head-P ressure Control with Integral Check Va l v e Liqui d Line Solenoid V [...]

  • Page 78

    Split System Models 72 7.6 W ater and Glycol-Cooled Con densing Unit s For installation gu idelines, refer to Installing the Indoor Condensing Unit on page 65. 7.6.1 Piping Considerations It is recommended that manual serv ice shut-off va lves be installed at the supply and return line to each unit. This will provide for routine service or emergenc[...]

  • Page 79

    Split System Models 73 7.6.4 Glycol Systems For split system glycol syst ems, use drycooler and pump data found in 5.0 - Glycol/GLYCOOL- Cooled Models—Self-Contained Compressor . See Table 18 - Drycooler data . Electrical control interconnect to drycooler is wired from water/glycol condensing unit. Figure 41 3-ton water/gly col-cooled condensing [...]

  • Page 80

    Split System Models 74 Figure 42 3-ton water/g lycol-cooled condensing unit (con't .) DPN 000209_R ev0 Singl e- or three-phase electric service not by Liebert Field-suppli ed unit disconnect switc h when optional dis connect is not provi ded in unit Field-suppl ied 24V NE C Cl ass 1 wiri ng to fan/coil unit Field-suppl ied 24V NE C Cl ass 1 wi[...]

  • Page 81

    Split System Models 75 Figure 43 5-ton water/gly col-cooled condensing unit dimensional da t a 7/8" (22.2mm) & 1-1/8" (28.6mm) dia. knockouts electrical entrance for line voltage connection (S ingle Point Power Kit) Removable Acce ss Pan el 1/2" (12.7mm) dia. holes for module rigging (typ. 2 each end) Customer-supplied threaded r[...]

  • Page 82

    Split System Models 76 Figure 44 5-ton water/g lycol-cooled condensing unit (con't .) DPN000228_Rev0 Field-supplied uni t disconnect switch when factory unit disconnect switch i s not suplied Electric service; not by Liebert WA T E R /G LYC O L Optional factory-instal led disconnect swi tch Field-supplied 24V NEC Class 1 wirin g to fan/coil un[...]

  • Page 83

    R407C Refrigera nt 77 8.0 R407C R EFRIGERANT T able 33 R407C pressure/temperature chart for oper ation and superheat (discharge/hot gas and suction gas) Temperature Gauge Pressure Temperature Gauge Pr essure Temperature Gauge Pressure °F °C Psig kPa °F °C Psig kPa ° F °C Psig kPa 0.0 -17.8 18.9 130 35.0 1.7 54.8 3 78 70.0 21.1 114.9 792 1.0 -[...]

  • Page 84

    R407C Refrigera nt 78 8.1 Calculating Subcooling Example Measure the liquid pressure (e.g., 200 psig). Find the liquid saturation temperature at that pressure on Table 34 (e.g., 93°F). Measure the temperature of the li quid line (e.g., 90°F). Subtract the actual temperature from the liquid saturati on temperatur e to obtain the subc ooling (e.g.,[...]

  • Page 85

    R407C Refrigera nt 79 NOTES[...]

  • Page 86

    R407C Refrigera nt 80[...]

  • Page 87

    [...]

  • Page 88

    Ensuring The Hi gh A vai lab ilit y Of Mission-Critic al Dat a And App lic ations. Emerson Net work P ower , the global leader in enabling business-critical continuity , ensures network re siliency and adaptabilit y through a family of technologies—inc luding Liebert power and cooling technologies—that prot ect and suppor t business-critical sy[...]