matrix crh 004
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SERVICE MANUAL
English
Cod. 273044Rev. 25.05.2005 Issued by T.D.Service
HIGH PERFORMANCE AIR COOLED CHILLER
R [004-032]
CautionIt is recommended that:S the manual is retained for the entire service life of the machine;S the user reads the manual carefully before carrying out any operations on the machine;S the machine is used exclusively for the purpose for which it is intended; incorrect use of the machine shall release themanufacturer from any liability.
This manual has been prepared to enable the end---user to carry out only those operations that can be donewith the panelsclosed. Any operations that require the opening of doors or equipment panels must be carried out only by qualified person-nel.Each machine is equipped with an electric isolating device which allows the operator to work in conditions of safety. Thisdevice must always be used to eliminate risks during maintenance (electric shocks, scalds, automatic restarting, movingparts and remote control).The panel key supplied with the unit must be kept by the person responsible for maintenance.For identification of the unit (model and serial no.) in caseof thenecessity for assistance or spare parts, read the identificationlabels affixed to the outside and inside of the unit.
IMPORTANT: This manual may be subject to modification; for complete and up---to---date information the user shouldalways consult the manual supplied with the machine.
Index
1 -- Introduction 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.1 --- Foreword 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.2 --- Responsibility 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.3 --- Inspection 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1.4 --- General description 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2 -- Preliminary Operations 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2.1 --- Operating limits 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2.2 --- Sound pressure levels 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2.3 --- Transport 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2.4 --- Foundations 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2.5 --- Service area 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3 -- Installation 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3.1 --- Aeraulic connections 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3.2 --- Hydraulic connections 2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3.3 --- Connection of the safety valve discharge 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3.4 --- Electrical connections 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4 -- Start--Up and Operation 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.1 --- Initial check 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.2 --- First start ---up (or after a long stop) 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.3 --- Starting and stopping 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.4 --- Chillers serving special plants 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.5 --- Freecooling 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4.6 --- Microprocessor control 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5 -- Refrigerant and Oil Charge 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5.1 --- Refrigerant charge 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5.2 --- Oil charge 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6 -- Safety Devices Settings 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6.1 --- Setting thermostatic expansion valve 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7 -- Maintenance 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7.1 --- Spare parts 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7.2 --- Dismantling the unit 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8 -- Options and Accessories 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8.1 --- Pump set 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8.2 --- Water chiller with partial heat recovery (20%) 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8.3 --- Water chiller with total heat recovery (100%) 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8.4 --- Hydraulic circuit accessories 8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8.5 --- Water chiller with inertia tank 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Tables 10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Drawings 20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Circuits 35. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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1 --- Introduction1.1 --- ForewordThishandbook isaimedatenablingboth the installerand theop-erator to carry out the correct installation, operation andmainte-nanceof the refrigeratingmachine,without damaging it or caus-ing injuries to the relevant staff.Thehandbook is thusan aid for thequalified staff in thearrange-mentof the specific equipment for thecorrect installation,opera-tion and maintenance in compliance with the local regulationsin force.The MATRIX R water chillers can be identified as follows:
CRH004
Version:R Radial
Execution:C ChillerS Superchiller
Compressor:H Hermetic Scroll
Cooling Capacity �kW�Nominal cooling capacity / 10
1.2 --- ResponsibilityLiebert Hiross accepts no present or future responsibility fordamage to persons, things or to themachine itself due toopera-tors� negligence, failing tocomplywith the installation, operationand maintenance instructions of this handbook, failed applica-tion of the safety norms in force for the system and the qualifiedstaff charged with the operation and maintenance.
1.3 --- InspectionAll units are fully assembled and wired in the manufacturingplant. Before shipment they are charged with the necessaryquantities of refrigerant and oil and then tested at the operatingconditions normally required by the customer. The machine�shydraulic circuit is equipped with drain plugs and open ventvalves; the free---cooling coils are supplied dry to avoid possibleproblemsdue to frost in the storageperiod. Immediately inspectthe machine carefully on delivery to check for damage duringtransportation ormissing components; possible claimsmustbemade immediately to thecarrier and the factoryor its representa-tive.
1.4 --- General descriptionMATRIX R units with air ---cooled condensers have been de-signed and manufactured for producing chilled water.They are also available in versions with a built --- in freecoolingmodule, in versionswith heat recovery for simultaneous heatingof thermal circuit water, with a pump assembly installed on themachine and/or inertial buffer tank inside themachine; the chill-ing units can be equipped with several options indicated in theprice list.The �MATRIX R� product line has been designed utilising thestate---of --- the---art techniques available nowadays in the indus-try, and includes all the components necessary for automaticand efficient operation.The Matrix R units are specifically designed for indoor installa-tion (protected from weather agents), for the connection with
ducts of condensation air in machine intake (if present) andoutlet.Eachunit is completely factory assembled; after evacuation, thenecessary quantity of refrigerant is added to the refrigerant cir-cuit(s) and the unit is tested.All theunitsareequippedwithoneor two independent refrigerat-ing circuits, each one composed of: an air ---cooled condenser,a hermeticScroll compressor andabraze---weldedplateevapo-rator. The components of the liquid line are the charging valves,filters---dryers, solenoidvalve, shut---off valve,moisture indicatorand thermostatic expansion valve.The hydraulic circuit --- with max. working pressure 5 bar --- ismade up on mod. 004---016 of hydraulic lines both in steel andflexibleEPDM rubber, connectedby fittingsand threaded joints,on mod. 017---032 of carbon steel pipes connected withgrooved---end (Victaulic) fittingsand couplingsand includealsoa flow switch (optional) and, in the freecooling versions, chilledwater coils and a three---way valve.Thehermeticscroll compressorsare completewith the followingprotection/safety devices: oil heater (if necessary), electronicprotection monitoring the temperature of the motor windingsand the direction of rotation (the latter may be enclosed in theelectronics of the compressor or external, depending on themodel).Fans are radial type, with aluminum reverse curved blades andstructure, statically and dynamically balanced, directly coupledto amotor with external rotor. It is always available the fan speedcontrolwhichnormally is achieved throughanadjusterwithcon-tinuous speed modulation.By simplymodifying theparameters (of theMicrofacemicropro-cessor control), limiting the fanmax. rotation speed, it ispossibleto change the useful air static pressure (equal to the differenceof the static pressure between the delivery and suction ductsconnected with the unit).The �MATRIX R�water chillers are controlled by the �MICROFA-CE�microprocessor,managingall theunit operatingconditions.The user can change and/or modify the operating parametersthrough the display keyboard installed on the electrical panel.The electrical control board is equipped with all the safety andoperating devices required for reliable operation. The compres-sormotors are equippedwith protectionon all three phasesandare started by three---pole contactors.
2 --- Preliminary Operations2.1 --- Operating limitsThe units can operate within the indicated operating limits (seeTab. 6). These limits apply to new machines, subject to correctinstallation and maintenance.S Ambient air minimum temperature: ---25ûC for Superchiller,---10ûC for Chiller (either Triac or EC fan);
S Maximumoutdoor air temperature is in relation toeachmod-el, as indicated in Tab. 6. In any case outdoor temperaturesaver 45ûC are not admitted; such limits are determined byelectrical and electronic components fitted on units;
S Maximum water flow allowed: depending on the pressuredrop corresponding to the required thermal difference (usu-ally not lower than 3.5ûC --- 4ûC);
S Minimum allowed water flow: compatible with a sufficientevaporation temperature, to avoid the intervention of thesafety devices (to be evaluated for a thermal difference nothigher than 8ûC);
S Temperature range of the water exiting the evaporator: 4ûC--- 15ûC;
S Maximum temperature of the water entering the unit: 20ûC;higher temperatures are allowed only at the system start---up and not during normal operation;
S Maximum glycol concentration: 50% (35%with the optionalpump assembly installed on the machine);
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S Minimum allowed glycol concentration: depending on theminimum temperature of the ambient air expected at theinstallation site (see Tab. a);
S Maximum difference of air side pressure (between the onein the delivery duct and the one, possibly negative, in thecoil suction) equal to the max. one indicated in Tab. 9 nextto the max. signal = 10 V set on the microprocessor;
S Maximum pressure of the hydraulic circuit: 5 bar;S Voltage range for the electric supply: 400 V +/---10%; max.phase difference: 3%; tolerance on frequency: 1%.
Storage conditions: ---20ûC ÷ 45ûC for all MATRIX R models.
2.2 --- Sound pressure levelsTheTab. 7 shows the noisedata for the units in standard config-uration (without pumps), operating continuously andmeasuredat 1 m from the coil side unit, with ducted air delivery and 50 Paof useful static pressure, in free field conditions.The highest noise levels are detected for higher useful staticpressures of the air.Note:Avoid positioning in areas with possible reverberation of thesound waves; acoustically insulate both the delivery and the in-take ducts (if installed); failure to do this can adversely effect thenoise levels.
2.3 --- TransportS Handle the unit by lifting it with a crane from above;S The lifting holes arepositioned in the frame�sbase (when lift-ing, use spreader bars to protect the sides, see Fig. 3, Fig. 4and Fig. 5).
Note:Place the lifting tubes in the holes in the base indicated by �LIFTHERE�. Lock the ends of the tubes with the locking pins andsplits pins as shown in Fig. 3 and Fig. 5. As an alternative (onmod. 004---016 only), shackles/hooks (optional) fastened at thebase ends can be used as a lifting system: in this case the liftingpointmust be on the vertical line passing through themachine�scentre of gravity (as indicated in Fig. 4) to prevent any load im-balance.The capacity of the lifting gear must be adequate to lift the loadin question. Check theweight of the units, the capacity of the lift-ing gear and ropes and the condition and suitability of theafore-mentioned equipment.
2.4 --- FoundationsS Theunitmust beplacedon a level surfacewhich will supportits weight.
S If necessary, position theunit on suitable anti ---vibration sup-ports that canbesupplied asanoption (in rubber or spring---type). Refer to the manual �Installation of the spring anti ---vibration supports� for their correct positioning.
S When positioned, level the unit.Note:For weight distribution see Fig. 6 and Fig. 7.Note:Theweights and their distribution refer to standard units withoutoptions; if the pump assembly, or other options are installed onthe machine, add the weights of the installed accessories tothose of the standard units (see Tab. 8).
2.5 --- Service areaS In order to allow free air flow or to enable the ducting installa-tion and maintenance of the unit, a minimum area must beleft free of obstructions around the unit (see Fig. 1 andFig. 2).
S Avoid recirculation of hot air between the outlet and the out-door intake of the air conveyed in the ducts, otherwise theunit performance may be impaired or the standard oper-ation can be interrupted.
3 --- Installation3.1 --- Aeraulic connectionsThe Matrix R units are arranged with connection flanges for theair intake and delivery ducts; if the units are ordered with metalfilters to protect the condensing coils, the connection flanges forthe intake side ducting are not supplied, as there is no duct toenable the cleaning of such filter.Connect the ducts fitting flexible joints to prevent transmittingvibrations and to compensate thermal expansion. Check if theholes on the walls --- where the intake and delivery ducts arefitted --- are protected by suitable anti ---rain grilles (equippedwith pre--- filter like the intakeones) toavoidwater or dust toenterin the chiller.All fans are adjusted at the same speed, so that it is not necess-ary to install overpressure dampers next to each fan discharge.The units are supplied with a setting in the microprocessor forthemax. fan speed of 50 Pa useful pressure; set themax. speedaccording to the features required by the installation (seeTab. 9).The units are supplied with the condensation air discharge up-wards; during the installation, it is possible to change the posi-tion of the air discharge opening (with right or left horizontaldirection) by simply inverting the position of the drilled panelwith the closed one of the required side (see size drawings).
3.1.1 -- External air temperature probe installationInstall the external air temperature probe (shipped inside theelectric panel), at the end of the air intake duct.The bulb must be positioned as much outside as possible butmust not be exposed to direct sunlight or weather agents suchas rain or snow. The unit operation could be jeopardized if theseprecautions are not applied.If the intake sideduct is not present, fasten the probe in the roomso that it can correctly detect the external temperature of the coilintakeouterairwithoutbeing influencedbyother external factors(sun rays, rain or snow, other heat or radiation sources, etc.).
3.2 --- Hydraulic connections3.2.1 -- Hydraulic circuit construction (Fig. a)The piping must be connected to the chiller. Construct a chilledwater circuit as described below, see Fig. a:1) Place shut---off valves within the circuit to allow servicing;2) Install a pump system suitable for the flow rate required ata pressure head equal to the sum of all the pressure drops(see project data).Matrix R chillers can be equipped, upon request, withpumps having performance as indicated in Tab. 8;
3) Install manometers at the chiller inlet/outlet;4) Install thermometers at the chiller inlet/outlet;5) Connect the pipes to the chiller by flexible joints to avoidtransmitting vibrations and to balance the thermal expan-sion; proceed in the same way even if the pump set is out-side the chiller;
6) It is useful to include awater pressure switch to give an earlywarning of low water pressure;
7) Place a mesh filter at the inlets of the pump and water chiller(Can be supplied as an optional accessory ---Not fitted);
8) Install, at the highest points in the circuit, apparatus whichallows the bleeding of air and possibly the filling of glycol;
9) Place a drain valve at the lowest point in the circuit and im-mediately at the outlet of the water chiller;
10) Install a water filling set including the following:a) filling water meter;b) manometer;c) non---return valve;d) air separator;e) removable supply tube, which must be disconnectedafter each charge/top---up;
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11) For maximum protection ensure that all tubing exposed tolow outdoor temperatures is fitted with anti --- freeze heatersand insulated using closed cell synthetic rubber (elasto-mer);
12) The circuit must include an expansion vessel (with safetyvalve) of suitable capacity;
13) Connect the lines avoiding stresses on the machine innerparts.
Note:If the water chiller is complete with an expansion vessel (sup-plied as an option), check if the capacity is enough, and installa second vessel in the circuit, if required (see par. 8.4).Follow the indications in Fig. c for the correct sizing.Note:The whole circuit must contain a water volume suitable for thecapacity of the installed chiller. Check if the inertial capacity giv-en by the sum of the hydraulic volume inside the machine (in-cluding the volume of the optional interna tank, if fitted) and thesystemvolume issufficient,orpossibly install a tank in thecircuit.Follow the indications in Fig. b for the correct sizing.Note:The hydraulic circuit must ensure a constant water supply to theevaporator in every operating condition. Otherwise, the com-pressorsmaybedamagedby repeated returnsof liquid refriger-ant on their suction.Note:The water flow switch is a compulsory safety component thatmust be installed and correctly wired to the Matrix R chillers,otherwise the guarantee will be invalidated.It is installed, as standard, on units with the optional on---boardpump set, and is available as a option for units without pumpson board: in the latter case the flow switch, if not installed on themachine, canbe installedon thehydraulic circuit by the installer,but it is compulsory that it is wired to the electric panel terminalboard, as indicated on the wiring diagram.
3.2.2 -- Addition of water and ethylene glycolVery important:Add water and ethylene glycol to the circuit with a %dependingon the minimum temperature of the outside air expected at theinstallation site. Do not exceed the nominal operating pressureof the circuit�s components.Notes:
S To avoid stratification run the circulation pump for at least 30minutes after adding any glycol.
S After adding water to the hydraulic circuit always discon-nect the water supply coming from the sanitary supply;this avoids the danger of glycol entering the sanitary watersystem.
S After any topping---up of the water check the concentrationand add glycol if necessary.
3.2.3 -- Water--glycol mixtureWater---glycol mixtures are used as the thermal carrier fluid inverycoldclimatesorwith temperaturesbelowzerodegreescen-tigrade. Determine the ethylene glycol % which must be addedto the water, with the assistance of Tab. a.
Tab. a --Ethylene glycol to be added to water (% inweight of total mixture)
Ethylene glycol(% in weight) 0 10 20 30 40 50
Freezing tempera-ture, ûC (*) 0 ---4.4 ---9.9 ---16.6 ---25.2 ---37.2
Mixture density at20ûC (*), kg/l --- 1.017 1.033 1.048 1.064 1.080
(*) Values are for Shell antifreeze 402. For different brands, checkmanufacturer�s data.
For the chiller internalwater volume refer toTab. 1. If theoptionalbuffer tank is installed on the machine, add the tank hydraulicvolume.ALWAYS CHARGE THE HYDRAULIC CIRCUIT WITH THE RE-QUIRED GLYCOL % NECESSARY FOR THE MINIMUM AMBI-ENT TEMPERATURE AT THE INSTALLATION SITE. FAILINGTO COMPLY WITH THIS INSTRUCTION SHALL INVALIDATETHE UNIT WARRANTY.
3.3 --- Connection of the safety valve dis-charge
Safety valvesare installedon thehighpressure sideof the refrig-eration circuit(s): the discharge of these valves must be con-veyed outside through a suitable pipe, having a diameter of atleast that of the valve outlet, without burdening the valve body.Convey the discharge to areas where the jet cannot harmpeople and the surrounding environment.
Fig. a -- Ideal chilled water circuit
CHILLER
11
1 1327436
9
4
8
11
flow
12
10e10d10c10b10a
T T
USER
5 5 9
disconnect af-ter charge
VptTank
5
Fig. c --Sizing of the expansion vesselThe total volume of the expansion vessel is calculated with the following formula:
where:--- C=quantity of water inside the system expressed in litres--- e=water expansion coefficient, with water at 10ûC as a reference--- Pi=absolute pressure of initial charging, equivalent to the vessel pre---charge pressure (typical value2.5 bara)
--- Pf=absolute final tolerated pressure, lower than the operating pressure of the safety valve calibrationpressure (typical value 4.0 bara).
Use the values of the water expansion coefficient indicated in the table below:
V =C x e
Pi1 --
Pf
4
Fig. b -- Inertia tank sizing
The total optimum hydraulic volume of the system where the Matrix R chiller is installed can be calculated by thefollowing formula:
where:--- V=minimum required total water volume expressed in litres--- Rt=refrigeration capacity expressed in kW--- Xd=differential band set on the control and expressed in degrees centigrade
Please note that the sum of the hydraulic volume of the Matrix R chiller (Vm) plus the volume of the hydraulic circuitconnected to it (Vpc) must be greater than, or equal to the minimum required total water volume (V). If this condi-tion is not satisfied, it is necessary to install an inertia tank (Vpt, as indicated in the Fig. a) with a volume at leastequal to the following value: Vpt=V---Vm---Vpc
V =43 x Rt
Xd
H2O T [°C] Density [kg/m3] Expansion coefficient �e�
10 999.6 --- --- ---
20 997.9 0.0017
30 995.6 0.0040
40 992.2 0.0075
50 988.1 0.0116
3.4 --- Electrical connections1) Before proceeding with the electrical connections, ensurethat:S all electrical components are undamaged;S all terminal screws are tight;S the supply voltageand frequency are in accordancewiththe rating (with tolerance in accordance with IEC 8---6norms, March 1990)
S the allowed phase to phase variability is 3% maximum(see Fig. d). Variability in excess of 3% invalidates theguarantee.
2) Supply cable connections (see Tab. 5):S Connect the cable to the supply terminals.S Use appropriately sized 3---pole cable. An earth wiremust also be connected.
S Afterhavingopened thepassagein theframework (pre---punched knock---outs) for the supply line entry, restorethe original degree of protection using suitable accesso-ries for thewiring and junction boxes.
Fig. d --Example of calculating phaseto phase variability
1) The 400 V supply hasthe following variability:RS = 388 VST = 401 VRT = 402 V
2) The average voltage is:
3) The maximum deviation from the average is:
4) The phase to phase variability is:
388 + 401 + 4023 = 397
5397 x 100 = 1.26 (acceptable)
R S T
402 --- 397 = 5 V
5
Note:The power supply should never be disconnected, except whenperforming maintenance.Operate (open) themain switch before carrying out anymainte-nance work on electrical components.Note:It is forbidden to work on the electrical components withoutusing insulating platforms, and in the presence of water or fogor mist.Note:Thesupply to theexternal pumpassemblymustbemadebeforestarting the chiller and must be kept on as long as the chiller isin use. Incorrect operation will cause the unit to lock---out be-cause of the internal protections (flow switch intervention).Note:Thecompressors are equippedwith anelectronicprotectionde-vice blocking their start if the phase sequence is not correct, orstopping their operation if a thermal relay intervenes. Thisdeviceis essential for the integrity of themechanical andelectricalcom-ponents of the compressors. Reset the standard functions byisolating this device and removing the causes of the lock---out.Note:The chillers are equippedwith their ownmicroprocessor controladjustment. The use of the remote ON---OFF input (located inthe electric panel terminal board) as a system temperature con-trol element is forbidden.
4 --- Start---Up and Operation4.1 --- Initial check1) Check all water connections.2) Open the shut---off valve on the liquid line.3) Ensure that the intake pressure is higher than 4.0 bar; if thisis not the case, prolong pre---heating of the compressor (ifpossible) and check that the refrigerant shut---off valve isproperly sealed, seeFig. 12, Fig. 13, Fig. 14, Fig. 15, Fig. 16and Fig. 17.
4) Open all isolating valves and/or water ball valves.5) In case of climateswith temperatures below zero degreesC,make sure the chilled water circuit is filled with the correctconcentration of water/glycol.
6) Bleed all air out of the chilled water circuit.7) Verify the water flow rate and its direction.8) Ensure that the thermal load is sufficient for start ---up.Caution:The ambient air temperature probe must be positioned in theshade and protected against the weather.
4.2 --- First start---up(or after a long stop)
Operate as follows:1) At least 8 hours before the start ---up, power the crank-case heaters (if any, see point 4) by setting the main iso-lator switchON.Make sure the auxiliary circuit has beenpowered and check the operation (a fault due to an in-correct procedure will invalidate the compressor guar-antee).
2) Open the valves of the refrigeration circuit that had beenclosed before the initial check.
3) Check themachinery supplying the thermal load connectedwith the unit and start the system pump(s).
4) MAKESURETHECOMPRESSOROILHASBEENHEATEDFOR AT LEAST 8 HOURS; start the unit only then. In theunits not equippedwith crankcase heaters (Chillers for sum-mer operation only, without modulating fan speed control),the start must be carried out in the warm season only (exter-nal T > 15ûC), and thus oil pre---heating is not necessary.
5) Make sure the fans rotate in the correct direction (anticlock-wise): check the electrical connections, if necessary.
6) Make sure the pumps rotate in the correct direction.
7) During the unit start ---up an inlet water temperaturehigher than 20ûC is allowed. Under standard operatingconditions check that the limits indicated in paragraph2.1 are not exceeded.
8) Check the correct operation of the control and safety de-vices.
9) Check the outlet temperature of the chilled water (check ifthe set---point set on the controller is reached).
10) Check the compressor oil level.11)With the compressor at full load, check there are nobubbles visible in the frefrigerant sight glass. If there are any,charge the unit according to par. 5.
4.3 --- Starting and stoppingALWAYS ENSURE THAT THE COMPRESSOR OIL HAS BEENPREHEATED.FOR BRIEF STOPPAGES MAINTAIN THE SUPPLY TO THECRANKCASE HEATER (IF ANY).S Start the unit setting the Microprocessor switch ON.S Stop the unit setting the Microprocessor switch OFF.S In case of long stops, turn the machine off using the Micro-processor switch OFF.In this case the compressor crankcase heaters (if any) re-main powered.
S For seasonal shutdown of the unit operate the main switchlocatedon themain electrical power supply. This will discon-nect the compressor crankcase heaters.
4.4 --- Chillers serving special plantsThe units are capable of cooling a water---glycolmixture to tem-peratures close to 0ûC without the need for significantmodifica-tions. In the caseof modification, the set values of the safety andcontrol components must also be changed. This can be carriedout in the factory (at the time of testing) or at the time of installa-tion, only by qualified and authorised personnel.
4.5 --- FreecoolingThe �freecooling� is a system of pre---cooling and/or cooling thewater/glycolmixtureusing ambient airwhen the latter isat a tem-perature below the return mixture temperature. If the outsidetemperature is sufficiently low to dissipate the entire heat load,the refrigeration compressors automatically switch off, and themixture�s temperature is controlled by the fan speed adjust-ment.If the mixture temperature is too high for freecooling, the com-pressors will operate as long as necessary to ensure the correctwater/glycol mixture temperature.
4.6 --- Microprocessor controlConsult the �Microface and Hiromatic� Service Manual.
5 --- Refrigerant and Oil ChargeAll work on pipes or components of the refrigerating circuit un-der pressure must be exclusively carried out by qualified staff,competent in such works.
5.1 --- Refrigerant chargeWHILST REPAIRING THE REFRIGERATING CIRCUIT RE-COVERALLTHEREFRIGERANT INACONTAINER:DONOTALLOW IT TO ESCAPE. NEVER USE THE COMPRESSORFOR THE SYSTEM VACUUM (THIS INVALIDATES THEWARRANTY).S The unit is delivered charged according to the Tab. 2.Warning for the refrigerant charge:S Ensure there are no refrigerant leaks.S Check the refrigerant type in the refrigeration circuit: a unitoriginally charged by the manufacturer with R407C cannotbe charged with R22 and vice versa; possibly apply to theTechnical Support Department.
6
S Charge with the compressor in operation, connecting thecylinder with the charge connector after the thermostatic ex-pansion valve.Flush the connection pipe between the cylinder and thecharging point; tighten the seal joint and then start chargingthe unit. It is imperative that the cylinder is weighed both be-fore and after the operation.
S For the units with R407C the refrigerant charge must bemade exclusively with liquid refrigerant.
S Charge the unit until the bubbles in the sight glass have dis-appeared and the working conditions of the entire refrigera-tion circuit have returned to normal (sub---cooling and su-perheating within the limits indicated below).
S Measure the superheating as follows:1) Detect the temperature on the suction line, close to thebulb of the thermostatic expansion valve,using acontactthermometer.
2) Connect a pressure gauge (bymax. a 30---cm pipe) withthe Schraeder connection and read the correspondingsaturated evaporating temperature.
3) The superheating is the difference between the tworeadings.
4) For the units with R407C refer to the pressure gaugescale indicated with the initials D.P. (Dew Point)
S Verify that the superheating is 5ûC --- 8ûC.S Measure the sub---cooling as follows:1) Detect the temperature on the liquid line using a contactthermometer.
2) Connect a pressure gauge (bymax. a 30---cm pipe) withthe Schraeder connection on the liquid line and read thecorresponding saturated condensing temperature.
3) The sub---cooling is thedifferencebetween the tworead-ings.
4) For the units with R407C refer to the pressure gaugescale indicated with the initials B.P. (Bubble Point)
S Verify that at the condenser outlet, sub---cooling is 3ûC ---5ûC.
IT IS IMPORTANT TO CARRY OUT CHARGING CORRECTLY.Anexcess of refrigerant causesan increase in sub---cooling and
consequent operating difficulties in the hot season; a shortageof charge generates an increase in superheating and possiblecompressor stoppages. Whenever work is carried out on theunit, ensure afterwards that the working conditions are correct,checking sub---cooling and superheating.
5.2 --- Oil chargeContact theTechnical SupportDepartment for thespecificationsof the oil to be used for topping up; the oil changes according tothe type of used refrigerant.NEVER MIX DIFFERENT OILS TOGETHER. CLEAN THE PIP-ING COMPLETELY BEFORE CHANGING THE TYPE OF OILUSED.TOP---UPS OF UP TO 20---30% OF THE TOTAL AMOUNT OFOIL CONTAINED IN THE COMPRESSOR CRANKCASE AREPERMITTED; FOR LARGER PERCENTAGES CONTACT THETECHNICAL SUPPORT DEPARTMENT.
5.2.1 -- Procedure for oil topping--upIf there has been any loss of oil then this must be topped up asfollows:1) Take a clean, dry, transparent container (with volume cal-ibrations) and fill it with at least twice the amount of oil re-quired.
2) Isolate the compressor by closing thecock on the liquid line.3) Connect to the fittings on the compressor body (Schraedervalves) and empty it of refrigerant until atmospheric pres-sure (1 bar) is reached.
4) Using apipe, connect theoil container to theoil service fittingon the lower part of the compressor.
5) Open the oil service cock, lifting the container, so that the oilflows by gravity.
6) Charge the required quantity of oil (make sure the tube al-ways remains below the oil level in the container).
7) Stop the oil flow by closing the oil service fitting, open theshut---off cock on the refrigerating circuit and restore thedrained refrigerant charge.
6 --- Safety Devices SettingsThe water chiller has already been tested and set up by the manufacturer. The following setting values are suggested in the field.
COMPONENT SETTING NOTES
Low pressure switch (LP)
Operation with R407C/R22(standard factory setting):
START : 3.6 barDIFF. : 0.8 barSTOP : 2.8 bar
bar5
0.2 1.5
0.5bar
diff.set
High pressure switch (HP)
Operation with R407C/R22(standard factory setting):
STOP : 26 barSTART : 20 barDIFF. : 6 bar (fixed) reset
The settings for the safety valves installed on the machine are indicated below:
MODELS SETTINGS SAFETY VALVE004---204---206---207---008 28 bar006---007---011---014---016
017---020---023---025---028---030---032 29 barHP side
7
6.1 --- Setting thermostatic expansionvalve
THIS OPERATION MUST BE PERFORMED BY AN EXPERI-ENCED REFRIGERATION TECHNICIAN.Before beginning this adjustment be sure that the refrigerantcharge is correct, checking the the sub---cooling (3ûC --- 5ûC, asspecified in par. 5.1).The valve has already been factory---set and should be resetwhen the superheating is not between 5ûC --- 8ûC, as follows:1) Important:Ensure that the instructions in par. 5.1 havebeen carriedout.
2) Allow the compressor to operate for 15 mins.3) Measure the superheating as follows:a) Connect a manometer to the Schraeder connection lo-cated on the evaporator outlet tube, and read themano-metric temperature on the scale for the refrigerant used(for the units with R407C refer to the pressure gaugescale indicated with the initials D.P. = Dew Point).
b) Using a contact thermometer, measure the temperatureon the tube coming out of the evaporator, next to thesocket used for the manometer.
c) The superheating is the difference between the tworeadings (b ---a).
4) The superheating must be 5ûC --- 8ûC; if not, set the expan-sion valve as follows:a) Remove the protective cover;b) Turn the adjustment screw to return to the optimum val-ues, tightening it in a clockwise direction to increase thesuperheating, or slackening it to reduce the superheat-ing.
c) Wait about 10 minutes;d) Measure the superheating and repeat the operation ifnecessary.
N.B:If the superheating is too low, there is a risk of poor lubricationandconsequentbreakageof the compressor as a result of pres-sure shock.If the superheating is too high the output of the system is limitedand the compressor overheats.
7 --- MaintenanceThe Maintenance Programme below must be carried out by aqualified technician, preferably working under a maintenancecontract.Before any intervention on the unit or accessing the inner com-ponents (removing the outer panels), always ensure the ma-chine is switched off. If the panels are removed (fans compart-ment) wait for the fan(s) to come to a complete stop beforeaccessing the compartment; if the front panels are removed (onmod. 004---016) or the front lower panels (on mod. 017---032),pay special attention whenworking near the compressor upperpart and the discharge line: they are very hot; possibly wait forthem to cool. Be very careful when operating close to the finnedcoils, as the fins are very sharp.Donot remove the fanprotectiongrille before electrically isolating the whole machine. Do not in-sert foreign matter through the fan protection grille. After themaintenance interventions, always close the unit with the suit-able panels, fastened by the tightening system.
7.1 --- Spare partsThe use of original spare parts is recommended.When placing an order refer to the �Component List� enclosedwith the machine and quote the unit model no. and serial no.
7.2 --- Dismantling the unitThemachinehasbeen designedandbuilt to ensurecontinuousoperation.The working life of some of the main components, such as thefans and the compressors, depends on the maintenance thatthey receive.If the unit has to be dismantled, the job must be done by skilledrefrigeration technicians.The refrigerant and the lubricating oil in the circuit must be dis-posed of in conformity with the laws in force in your country.
Maintenance programme -- Monthly check
FANSS Check that the fan motor rotates freely without any abnormal noise, and ensure that thebearings are not running hot.
S Also check the current absorption.
CONDENSER AND AIR FILTERS Check the conditions of the filters (if they are supplied); if necessary clean them (includingthe electrical panel ventilation filter).
S Check the condenser coils and clean if necessary with compressed air or soft brushes.
CONTROL S Check that the control equipment, LEDs and display are operating correctly.
ELECTRICAL CIRCUIT S Check the electrical supply on all phases.S Ensure that all electrical connections are tight.
REFRIGERATION CIRCUIT
S Check the condensing and the evaporating pressures (to be done by a refrigeration techni-cian).
S Check the compressor�s current absorption, the delivery temperature and possible unusualnoises.
S Check the refrigerant charge by means of the sight glass.S Check that the safety devices operate correctly.S Check the correct operation of the thermostatic valve (superheating between 5ûC---8ûC).S Check that the oil level indicated by the compressor sight glass is higher than the min. value.
CHILLED WATER CIRCUIT
S Ensure that there are no water leaks.S Bleed any air out of the hydraulic circuit using the bleed valves.S Verify that the water flow rate is correct.S Check the inlet --- outlet liquid temperature and pressure.S Check the correct operation of the three---way valve (Versions with free---cooling only).S Check if the system is charged with the specified glycol percentage and that no ice hasformed in the hydraulic circuit.
S Check the evaporator cleanliness.
8
8 --- Options and Accessories8.1 --- Pump setOnmod. 004---016 the centrifugal pump units are direct driven,withclose---coupledmotorsandasingleshaft; the inductionmo-tor has 2 poles with IP 54 protection and class F insulation.The materials used for the pump main components are:S Pump body in plastic material PA 6.6 (cast iron in all highpressure freecooling versions and on model 016 in theChil-ler high head pressure version and Superchiller standardhead pressure version);
S Impeller in in plastic material PPO (stainless steel in all highpressure freecooling versions and on model 016 in theChil-ler high head pressure version and Superchiller standardhead pressure version);
S Stainless steel shaft;S Graphite impregnated ceramic mechanical seal (EPDM inall high pressure freecooling versions and on model 016 inthe Chiller high head pressure version and Superchillerstandard head pressure version), suitable for the use ofmix-tures containing ethylene glycol.
The pump units have been chosen and sized to operate withinspecific limits, namely:S Water / ethylene glycol mixtures up to 65% / 35% by weight;S Temperatures of the standard pumped fluid not lower than4°C.
Thehydrauliccircuit includes, foreachpump,a suctionshut---offvalve and a delivery check valve if two pumps are installed, orsuction anddelivery shut---off valves if a singlepump is installed.
Onmod. 017---032 the centrifugal pump units are direct driven,withclose---coupledmotorsandasingleshaft; the inductionmo-tor has 2 poles with IP 55 protection and class F insulation.Pumpcasingsand impellersare incast ironEN---GJL 200,shaftsare in stainless steel, the shaft seal is a unbalanced,mechanicalshaft seal with dimensions according toDIN 24 960 and assem-bly length according to EN 12 756, brass neck ring permits idealconditions for the use of watermixtures containing ethylenegly-col. The pump housing, the motor stool and the motor statorhousing are electrocoated.The pump units have been chosen and sized to operate withinspecific limits, namely:S Water / ethylene glycol mixtures up to 65% / 35% by weight;S Temperatures of the standard pumped fluid not lower than4°C.
The motor stool forms connection between the pump housingand the motor, and is equipped with a manual air vent screw forventing of the pump housing and the shaft seal chamber. It isvery important to carry out this operation as the circulationof liq-uid through theduct of theair vent screwensures lubricationandcooling of the shaft seal.Between the outlets of the two chambers and the dischargeflange, twin---head pumps have a non---return flap valve inEPDM rubber. The flap is opened by the flow of the pumped liq-uid and cuts off the port of the idle pump chamber.
In the electrical panel there are, for all the models of pumps, au-tomaticcircuitbreakers foreachpump; themicroprocessorcon-trolmanages theoperating rotationbetween the twopumpsandstart---up of the stand---by pump if the primary pump fails.For the technical features of the pumps and the hydraulic sche-matic see Tab. 8, Fig. 18, Fig. 19, Fig. 20, Fig. 21, Fig. 21 andFig. 22.
8.2 --- Water chiller with partial heatrecovery (20%)
Thisoptionenables the recovery ofup to20%of theheatnormal-ly rejected by the condensers. The system does not require anyadjustment and is made up of plate heat exchangers installedon each circuit before the condenser. The exchangers are pro-
tected by a suitable anti --- frost heater that operateswhen the sy-stem is stopped. It is recommended that a safety valve beinstalled in thehydrauliccircuit toavoidhazardsdue tooverpres-sures, if there is no water flow through the recuperator.The water temperature at the recuperator inlet (in stable operat-ingconditions)mustbe in the rangeof 25ûC --- 45ûC,with anout-let differential of between 3.5ûC --- 8ûC.
8.3 --- Water chiller with total heat recovery(100%)
All heat discharged by the unit to the condenser is recovered.The system includes an additional refrigerating circuit made upof a three---way solenoid valve, supplying --- in case of hot waterdemand --- a plate exchanger, usually by---passed and sized soas to discharge all condensing heat (also installed before thefinned air condenser in series with it); a check valve, a liquid re-ceiver at the exit of the finned air condenser working as storagefor the needed additional refrigerant charge (see refrigeratingscheme). The recuperator is insulated with closed cell polyure-thane and is equippedwith heaters activated when the recuper-ator is deactivated to prevent frost in winter with the systemstopped or not perfectly drained.The operation in total recovery mode is enabled by an externalcontact. The Microface control will simultaneously suit the fanspeedchanging the fan speed setpoint differently from the stan-dard operation without recovery (practically slowing the fansdown till they switch off); anyway, the operation in recoverymode is enabled alsowithout loadat theusers. Indeed, if theus-ers do not demand heat, the water flowing to the condenserreaches a temperature that does not enable the total condensa-tion of the compressed gas, and the remaining portion of thephase change can thus take place in finned coil without inter-rupting the recovery process through the interventionof thema-chine safety devices.If the plate exchanger is supplied with too coldwater, or if the sy-stem is not preset by the installation technician with a three ortwo---way proportional adjustment valve for the exchanger by-pass (indispensable for cold starts, see following �Recom-mended hydraulic circuit� ), the condensing pressure tends todecrease too much; a prolonged condition of low condensingtemperature below the safety threshold leads the Microface mi-croprocessor control to disable the heat recovery, protecting thesystem from any possible malfunctioning.
Fig. e --Recommended hydraulic circuit
Heat recoveryusers
Heat recoveryexchanger
8.4 --- Hydraulic circuit accessoriesMade up of an expansion vessel (pre---charged at 1.5 bar, max.operating pressure 10 bar) and a safety valve, set at 5 bar. Theirposition in the hydraulic circuit is illustrated in Fig. 18, Fig. 19,Fig. 20, Fig. 21, Fig. 21 and Fig. 22.S Expansion vessel volume:--- 8 litres for all 004---016 units,--- 12 litres for all 017---032 units.
It is recommended that the total required expansion vessel ca-pacity is always checked, depending on the unit�s internal hy-draulic volume (with the volume of the buffer tank, if installed),theuser circuit volume, theglycolpercentage in themixture,andthe expected maximum temperature variation of the mixture.Thewater flow switch is a compulsory deviceprotecting theunit.It is installed, as standard, on units with the optional on---boardpump set, and is available as a option for units without pumps
9
on board: in the latter case the flow switch, if not installed on themachine,must be installed on thehydraulic circuit by the install-er andwired to theelectric panel terminal board, as indicatedonthe wiring diagram.
8.5 --- Water chiller with inertia tankThemachinecanbesupplied complete with a buffer tank; it per-forms the inertial stabilizer function, for better compressor op-eration, summed up in the following two points:S it reduces the frequency of the compressor peaks, which ishigher the lower the system thermal inertia, improving theirperformance;
S it naturally eliminates the operational problems caused bysudden load variations (shown by variations of the chilledwater temperature).
The buffer tank is supplied insulated, with a drain valve, ventvalve and connection for immersion electric heaters; maximumoperating pressure 6 bar.Built in carbon steel and coatedwith anti ---condensation insula-tion. It can be installed in all MATRIX R 004---016 versions insidethe coil compartment, while on mod. 017---032 it is installed in-side a cabinet which can be supplied either already connectedto the unit (mechanically and hydraulically jointed to it) or loose(completely separate from the unit).
Mod. 004---006---007 technical dataS Internal volume: 200 litresS Net weight: 110 kgS Working weight: 310 kg
Mod. 008---011---014---016 technical dataS Internal volume: 400 litresS Net weight: 140 kgS Working weight: 540 kg
Mod. 204---206---207 technical dataS Internal volume: 160 litresS Net weight: 100 kgS Working weight: 260 kg
Mod. 017---032 technical dataS Internal volume: 1000 litresS Net weight: 400 kgS Working weight: 1400 kg
10
Tab. 1 --- Internal hydraulic volume
Model Unit volume (*) [l] Model Unit volume (*) [l]
004 8 004 37
006 9 006 38
007 14 007 75
204 10 204 39
CRH206 10
SRH206 40
CRH207 18
SRH207 79
008 24 008 97
011 27 011 101
014 38 014 146
016 46 016 156
017 37 017 129
020 37 020 129
023 45 023 158
CRH 025 45 SRH 025 158
028 51 028 186
030 60 030 195
032 60 032 195(*) Add the tank�s volume for the units with optional buffer tank
Tab. 2 --- R 407C refrigerant and oil charge
CRH 004--016
Models 004 006 007 204 206 207 008 011 014 016
Refrigerant charge (each circuit) [kg] 12.6 7.5 13.9 7.7 23.7 12.9 12.9 14.5 19.9 20.8
Oil charge (each circuit) [lt] 6.2 8.0 8.0 3.25 3.25 3.3 6.2 8.0 8.0 8.0
CRH 017--032
Models 017 020 023 025 028 030 032
Refrigerant charge (each circuit) [kg] 21.0 21.6 30.7 30.8 36.8 39.4 39.5
Oil charge (each circuit) [lt] 12.4 14.2 16.0 16.0 16.0 16.0 16.0
SRH 004--016
Models 004 006 007 204 206 207 008 011 014 016
Refrigerant charge (each circuit) [kg] 12.6 7.5 13.9 7.7 23.7 12.9 12.9 14.5 19.9 20.8
Oil charge (each circuit) [lt] 6.2 8.0 8.0 3.25 3.25 3.3 6.2 8.0 8.0 8.0
SRH 017--032
Models: 017 020 023 025 028 030 032
Refrigerant charge (each circuit) [kg] 21.0 21.6 30.7 30.8 36.8 39.4 39.5
Oil charge (each circuit) [lt] 12.4 14.2 16.0 16.0 16.0 16.0 16.0
11
Tab. 3 --- CRH/SRH 004---032 --- Partial heat recovery (20%)
CRH/SRH 004--016
Model 004204
006206
007207 008 011 014 016
Heating capacity kW 10,8 14,8 18,2 21,6 29,6 36,4 44,3
Water flow l/s 0,516 0,707 0,870 1,032 1,414 1,739 2,117
Water pressure drop kPa 8 11 14 8 11 14 21
Water connections BSP---T 1� 1� 1� 11/4� 11/4� 11/4� 11/4�Working conditions: outdoor temperature 35ûC, water inlet/outlet 12/7ûC (Chiller versions), glycol mixture 30% inlet/outlet 15/10ûC (SuperChiller versions).Heat recovery conditions: water inlet/outlet 40/45ûC.
CRH/SRH 017--032
Model 017 020 023 025 028 030 032
Heating capacity kW 40 48 56 62 68 79 86
Water flow l/s 1.91 2.29 2.68 2.96 3.25 3.77 4.11
Water pressure drop kPa 15 20 16 19 16 17 20
Water connections BSP---T 2�Working conditions: outdoor temperature 35ûC, water inlet/outlet 12/7ûC (Chiller versions), glycol mixture 30% inlet/outlet 15/10ûC (SuperChiller versions).Heat recovery conditions: water inlet/outlet 40/45ûC.
Tab. 4 --- CRH/SRH 004---032 --- Total heat recovery (100%)
CRH/SRH 004--016
Model 004204
006206
007207 008 011 014 016
Heating capacity kW 53 74 91 105 144 177 223
Water flow l/s 2,53 3,54 4,35 5,02 6,88 8,46 10,65
Water pressure drop kPa 60 70 80 60 70 80 90
Water connections BSP---T 2� 2� 2� 21/2� 21/2� 21/2� 21/2�Working conditions: water inlet/outlet 12/7ûC (Chiller versions). Heat recovery conditions: water inlet/outlet 40/45ûC.
CRH/SRH 017--032
Model 017 020 023 025 028 030 032
Heating capacity kW 212 238 290 320 357 412 453
Water flow l/s 10.13 11.37 13.86 15.29 17.06 19.68 21.64
Water pressure drop kPa 52 65 71 82 83 85 99
Water connections BSP---T DN 80 --- 3�Working conditions: water inlet/outlet 12/7ûC (Chiller versions). Heat recovery conditions: water inlet/outlet 40/45ûC.
12
Tab. 5 --- Electrical characteristics
CRH 004--016 -- R 407C
Size 004 204 006 206 007 207 008 011 014 016
Power supply --- 400 V / 3 Ph / 50 Hz
OA (1)FLALRACompressors power input (1)Compressors nominal current (1)Compressor max. currentFans power input
AAAkWAAkW
314318313.223352.9
324612513.224192.9
405822319.332503.3
426616719.034293.3
487727824.140693.1
507218524.642323.1
628622626.346355.8
8011628138.664506.8
9916336443.6746910.1
12316941759.4987210.2
Fans max. power inputFans max. current
kWA
4.98.2
SHC std. head pressure pump model (Opt.)Std. head pressure pump motor nom. powerStd. head pressure pump motor max. powerStd. head pressure pump max. currentSHC high head pressure pump model (Opt.)FHE high head pressure pump model (Opt.)High head pressure pump motor nom. powerHigh head pressure pump motor max. powerHigh head pressure pump max. current
---kWkWA------kWkWA
12 --- 1290.751.081.85
12 --- 136---1.11.442.67
12 --- 1361.11.442.6720---128---1.51.923.90
20 --- 1281.51.923.90
20 --- 134---1.852.454.61
20---1341.852.454.61---
40---160/404.04.08.50
Electrical cable section (min.) mm2 16 16 25 25 35 35 35 50 70 95
(1) Outdoor air temperature 35ûC; water inlet/outlet temperature 12/7ûC.Nominal air flow and 50 Pa available air static pressure.
CRH 017--032 -- R 407C
Size 017 020 023 025 028 030 032
Power supply --- 400 V / 3 Ph / 50 Hz
OA (1)FLALRACompressors power input (1)Compressors nominal current (1)Compressor max. currentFans power input
AAAkWAAkW
12516530557.3100359.7
13519536064.9110509.7
16323339877.71305013.1
18327147290.11506913.1
19931751894.51586916.5
225323571111.71847216.5
245329577124.82047218.1
Fans max. power inputFans max. current
kWA
4.98.2
SHC std. head pressure pump model (Opt.)Std. head pressure pump motor powerStd. head pressure pump max. currentHigh head pressure pump model (Opt.)High head pressure pump motor powerHigh head pressure pump max. current
---kWA---kWA
65 --- 190/22.24.45
65 --- 260/24.08.00
65 --- 230/23.05.95
65 --- 260/24.08.00
65 --- 260/24.08.00
65 --- 340/25.511.20
Electrical cable section (min.) mm2 70 95 120 150 185 185 185
(1) Outdoor air temperature 35ûC; water inlet/outlet temperature 12/7ûC.Nominal air flow and 50 Pa available air static pressure.
13
SRH 004--016 -- R 407C
Size 004 204 006 206 007 207 008 011 014 016
Power supply --- 400 V / 3 Ph / 50 Hz
OA (1)FLALRACompressors power input (1)Compressors nominal current (1)Compressor max. currentFans power input
AAAkWAAkW
324318313.424353.2
324612513.424193.2
415822319.833503.8
426616719.434293.8
497727824.841693.3
507218525.042323.3
648622626.748356.5
8211628139.666507.6
10116336444.5766911.4
12516941760.81007211.4
Fans max. power inputFans max. current
kWA
4.98.2
SHC std. head pressure pump model (Opt.)FHE std. head pressure pump model (Opt.)Std. head pressure pump motor nom. powerStd. head pressure pump motor max. powerStd. head pressure pump max. currentSHC high head pressure pump model (Opt.)High head pressure pump motor nom. powerHigh head pressure pump motor max. powerHigh head pressure pump max. current
------kWkWA---kWA
12 --- 136---1.11.442.67
32---160/303.06.50
20 --- 128---1.51.923.90
32 --- 160/303.06.50
20 --- 134---1.852.454.61
40---160/404.08.50
---40---160/404.04.08.50
40---200/757.515.50
Electrical cable section (min.) mm2 16 16 25 25 35 35 35 50 70 95
(1) Outdoor air temperature 35ûC; 30% glycol water mixture; water inlet/outlet temperature 15/10ûC.Nominal air flow and 50 Pa available air static pressure.
SRH 017--032 -- R 407C
Size 017 020 023 025 028 030 032
Power supply --- 400 V / 3 Ph / 50 Hz
OA (1)FLALRACompressors power input (1)Compressors nominal current (1)Compressor max. currentFans power input
AAAkWAAkW
12716530558.51023510.8
13719536066.51125010.8
16523339879.71325014.6
18527147292.51526914.6
20331751896.91626918.3
229323571114.81887218.3
249329577128.12087220.3
Fans max. power inputFans max. current
kWA
4.98.2
Std. head pressure pump model (Opt.)Std. head pressure pump motor powerStd. head pressure pump max. currentHigh head pressure pump model (Opt.)High head pressure pump motor powerHigh head pressure pump max. current
---kWA---kWA
65 --- 260/24.08.00
65 --- 340/25.511.20
65 --- 340/25.511.20
65 --- 410/27.515.20
65 --- 410/27.515.20
65 --- 460/211.021.40
Electrical cable section (min.) mm2 70 95 120 150 185 185 185
(1) Outdoor air temperature 35ûC; 30% glycol water mixture; water inlet/outlet temperature 15/10ûC.Nominal air flow and 50 Pa available air static pressure.
• Nominal power supply = 400 V; 3 Ph; 50 Hz• Nominal power supply tolerance = 400 V ±10 %• Max. voltage unbalance = 3 %• The cables have to be sized in compliance with local standards and according to the type and characteristics of installation. Suggested cables section are
referred to PVC insulation with a max. working temperature of 70 ûC and an ambient temperature of 30 ûC.
14
Tab. 6 --- Operating limits
CRH 004--016 -- R 407C
Size 004 006 007 204 206 207 008 011 014 016
Working Range
Max. outdoor air temperature (1) ûC 45 45 42 42 42 42 45 43 45 42
Safety Device Settings
High pressure switchHigh pressure safety valveLow pressure switch
BargBargBarg
26.028.0 / 29.02.8
(1) With nominal air flow; water flow outlet at 7ûC; full load
CRH 017--032 -- R 407C
Size 017 020 023 025 028 030 032
Working Range
Max. outdoor air temperature (1) ûC 42.5 40.5 42.5 40.5 43.0 40.0 39.5
Safety Device Settings
High pressure switchHigh pressure safety valveLow pressure switch
BargBargBarg
26.029.02.8
(1) With nominal air flow; water flow outlet at 7ûC; full load
SRH 004--016 -- R 407C
Size 004 006 007 204 206 207 008 011 014 016
Working Range
Max. outdoor air temperature (2) ûC 45.0 45.0 41.5 41.5 41.0 41.0 45.0 42.0 45.0 41.0
Safety Device Settings
High pressure switchHigh pressure safety valveLow pressure switch
BargBargBarg
26.028.0 / 29.02.8
(2) With nominal air flow; 30% mixture flow outlet at 10ûC; full load
SRH 017--032 -- R 407C
Size 017 020 023 025 028 030 032
Working Range
Max. outdoor air temperature (2) ûC 41.5 39.5 41.5 39.5 42.0 39.0 38.5
Safety Device Settings
High pressure switchHigh pressure safety valveLow pressure switch
BargBargBarg
26.029.02.8
(2) With nominal air flow; 30% mixture flow outlet at 10ûC; full load
15
Tab. 7 --- Noise levels
The following table indicates the overall sound pressure level at full load conditions, measured 1m from the unit, coil side, with ductedair discharge (50 Pa static pressure), with an outdoor temperature of 35 ûC and referred to free field conditions.
ModelsTotal
sound level ModelsTotal
sound levelModels[dB(A)]
Models[dB(A)]
CRH / SRH 004 --- 204 70 CRH / SRH 017 74.5
CRH / SRH 006 --- 206 73 CRH / SRH 020 74.5
CRH / SRH 007 --- 207 74 CRH / SRH 023 75
CRH / SRH 008 71.5 CRH / SRH 025 75
CRH / SRH 011 74.5 CRH / SRH 028 76
CRH / SRH 014 75.5 CRH / SRH 030 76
CRH / SRH 016 75.5 CRH / SRH 032 78
Tab. 8 --- Pump set characteristics (opt.)
2 pole pump set, standard head pressure (data refers to each pump)
Models 004 204 006 206 007 207 008 011 014 016
CRHWater flow m3/h 6.79 6.79 8.86 8.73 10.94 11.11 13.41 17.53 22.78 28.00
CRHAvailable head pressure kPa 127 156 122 146 104 127 141 142 88 78
Pump quantity Nr. 1 2
Pump rotor model --- 12---129 12---136 20---128 20---134
Nominal motor power kW 0.75 1.1 1.5 1.85
Noise level (*) dB(A) 58 63 65
Pump weight kg 10.4 12.7 13.8 15.4(*) According to ISO 3744
2 pole pump set, high head pressure (data refers to each pump)
Models 004 204 006 206 007 207 008 011 014 016
CRHWater flow m3/h 6.79 6.79 8.86 8.73 10.94 11.11 13.41 17.53 22.78 28.00
CRHAvailable head pressure kPa 169 198 163 187 145 168 167 191 145 173
Pump quantity Nr. 1 2
Pump rotor model --- 12---136 20---128 20---134 40---160/40
Nominal motor power kW 1.1 1.5 1.85 4
Noise level (*) dB(A) 58 63 65 70
Pump weight kg 12.7 13.8 15.4 42
(*) According to ISO 3744
2 pole pump set, standard head pressure (data refers to each pump)
Models 017 020 023 025 028 030 032
CRHWater flow m3/h 26.93 29.26 35.67 38.38 44.20 50.71 55.23
CRHAvailable head pressure kPa 119 107 136 123 145 111 73
Pump quantity Nr. 1/2
Pump rotor model --- 65---190 / 2 65---230 / 2 65---260 / 2
Nominal motor power kW 2.2 3 4
Noise level (*) dB(A) 60 59 63
Pump weight kg 57.9 / 116.4 69.3 / 139.2 74.3 / 149.2(*) According to ISO 3744
16
2 pole pump set, high head pressure (data refers to each pump)
Models 017 020 023 025 028 030 032
CRHWater flow m3/h 26.93 29.26 35.67 38.38 44.20 50.71 55.23
CRHAvailable head pressure kPa 197 187 182 170 230 204 173
Pump quantity Nr. 1/2
Pump rotor model --- 65---260 / 2 65---340 / 2
Nominal motor power kW 4 6
Noise level (*) dB(A) 63
Pump weight kg 74.3 / 149.2 89.2 / 178.9(*) According to ISO 3744
2 pole pump set, standard head pressure (data refers to each pump)
Models 004 204 006 206 007 207 008 011 014 016
SRH30% glycol/water mixture flow m3/h 7.83 7.83 10.26 10.08 12.58 12.64 15.45 20.12 26.24 31.92
SRHAvailable head pressure kPa 98 142 62 100 93 128 96 91 50 79
Pump quantity Nr. 1 2
Pump rotor model --- 12---136 20---128 20---134 40---160/40
Nominal motor power kW 1.1 1.5 1.85 4
Noise level (*) dB(A) 58 63 65 70
Pump weight kg 12.7 13.8 15.4 42
(*) According to ISO 3744
2 pole pump set, high head pressure (data refers to each pump)
Models 004 204 006 206 007 207 008 011 014 016
SRH30% glycol/water mixture flow m3/h 7.83 7.83 10.26 10.08 12.58 12.64 15.45 20.12 26.24 31.92
SRHAvailable head pressure kPa 233 277 183 221 199 234 197 170 138 223
Pump quantity Nr. 1 2
Pump rotor model --- 32---160/30 40---160/40 40---200/75
Nominal motor power kW 3 4 7.5
Noise level (*) dB(A) 66 70 74
Pump weight kg 35 42 64
(*) According to ISO 3744
2 pole pump set, standard head pressure (data refers to each pump)
Models 017 020 023 025 028 030 032
SRH30% glycol/water mixture flow m3/h 31.06 33.49 41.26 43.98 51.08 58.3 63.27
SRHAvailable head pressure kPa 77 51 118 92 103 146 94
Pump quantity Nr. 1/2
Pump rotor model --- 65---260 / 2 65---340 / 2 65---410 / 2
Nominal motor power kW 4 5.5 7.5
Noise level (*) dB(A) 63 63 68
Pump weight kg 74.3 / 149.2 89.2 / 178.9 91.1 / 182.7
(*) According to ISO 3744
2 pole pump set, high head pressure (data refers to each pump)
Models 017 020 023 025 028 030 032
SRH30% glycol/water mixture flow m3/h 31.06 33.49 41.26 43.98 51.08 58.3 63.27
SRHAvailable head pressure kPa 157 133 207 183 190 205 159
Pump quantity Nr. 1/2
Pump rotor model --- 65---340 / 2 65---410 / 2 65---460 / 2
Nominal motor power kW 5.5 7.5 11
Noise level (*) dB(A) 63 68 65
Pump weight kg 89.2 / 178.9 91.1 / 182.7 149.4 / 306.4
(*) According to ISO 3744
17
Tab. 9 --- Fan performances and settings
Standard air flow [12000 m3/h], 3 Ph fan + TRIACModels: CRH 004 --- 204 --- 008
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
505.01034286087
1005.21066309088
1505.41097332088
2005.61128353088
2505.81158372089
3006.01189391089
3506.31220409089
4006.71252425090
4507.21283442090
5007.91313460091
5509.51343476091
57010.01352481091
Models: SRH 004 --- 204 --- 008
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
505.31081321088
1005.51113343088
1505.71143362089
2005.91173381089
2506.11204401089
3006.51236417090
3506.91268433090
4007.61298451091
4508.61328468091
49010.01351481091
Standard air flow [12000 m3/h], EC fanModels: CRH 004 --- 204 --- 008
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
508.21041156086
1008.51080179087
1508.81117203087
2009.11153227088
2509.41190252088
3009.61225278089
3509.91259304089
37010.01270312089
Models: SRH 004 --- 204 --- 008
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
508.61099191087
1008.91135214088
1509.21172239088
2009.51208265088
2509.81242291089
29010.01270312089
Standard air flow [14000 m3/h], 3 Ph fan + TRIACModels: CRH 006 --- 206 --- 011 --- 014 --- 016
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
505.61162332091
1005.81189355091
1506.11216377092
2006.41245398092
2506.91274417092
3007.51302436092
3508.41329456093
39510.01354474093
Models: SRH 006 --- 206 --- 011 --- 014 --- 016
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
506.11215376092
1006.41243397092
1506.91273416092
2007.51301436092
2508.31328455093
29810.01355474093
Standard air flow [14000 m3/h], EC fanModels: CRH 006 --- 206 --- 011 --- 014 --- 016
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
509.11165210090
1009.41200236090
1509.71233262091
21010.01271294091
Models: SRH 006 --- 206 --- 011 --- 014 --- 016
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
509.71232261091
1009.91264288091
11210.01271294091
Unit performances are referred to sea level conditions.
18
Standard air flow [15000 m3/h], 3 Ph fan + TRIACModels: CRH 007 --- 207
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
505.51179314093
1005.81205338093
1506.11232361093
2006.41259383093
2506.91287404093
3007.61313425093
3508.61339445094
38810.01360462094
Models: SRH 007 --- 207
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
505.71197330093
1006.01223354093
1506.31250377093
2006.81278398093
2507.41305418093
3008.11331438094
35410.01360462094
Standard air flow [15000 m3/h], EC fanModels: CRH 007 --- 207
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
509.21169195091
1009.41204221091
1509.71236248092
20610.01272278092
Models: SRH 007 --- 207
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
509.41193213091
1009.61226239092
1509.91258266092
17210.01272278092
Standard air flow [13250 m3/h], 3 Ph fan + TRIACModels: CRH 017 --- 020 --- 023 --- 025 --- 028 --- 030
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
505.41123323090
1005.61151344090
1505.81179366090
2006.11208387091
2506.41237406091
3006.91268424091
3507.51296443092
4008.31325462092
44810.01352479092
Models: SRH 017 --- 020 --- 023 --- 025 --- 028 --- 030
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
505.81172360090
1006.01200381091
1506.31229401091
2006.81260419091
2507.31289438091
3007.91317457092
3509.61346475092
36010.01352479092
Standard air flow [13250 m3/h], EC fanModels: CRH 017 --- 020 --- 023 --- 025 --- 028 --- 030
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
508.91129196089
1009.11164220089
1509.41199246090
2009.71233272090
25810.01271303090
Models: SRH 017 --- 020 --- 023 --- 025 --- 028 --- 030
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
509.41190239089
1009.61224265090
1509.91257292090
17010.01271303090
Unit performances are referred to sea level conditions.
19
Standard air flow [14500 m3/h], 3 Ph fan + TRIACModels: CRH 032
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
506.01216362092
1006.31243385092
1506.81272405093
2007.31299425093
2508.01325445093
3009.71353466093
30810.01357469094
Models: SRH 032
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
506.81272405093
1007.31300425093
1508.01326445093
2009.81354466093
20610.01357469094
Standard air flow [14500 m3/h], EC fanModels: CRH 032
Useful static pressureMax. fan speed signalFan speedAbsorbed unitary powerFan discharge sound power [PWL]
PaVRpmWdB(A)
509.61225247091
1009.91257274091
12410.01272287091
Unit performances are referred to sea level conditions.
20
Fig. 1 --- Service areas CRH/SRH 004---016 (top view)
Ordinarymaintenance area
Extraordinarymaintenance area
Notes:Minimum distance between 2 units from condensing coil side = 2 m(*) 1500 mm (with 160 --- 200 Lt Tank); 2500 mm (with 400 Lt Tank)
1000 1000 (*)
1000
500(withduct)
1500(withoutduct)
AIR
Fig. 2 --- Service areas CRH/SRH 017---032 (top view)
Ordinarymaintenance area
Extraordinarymaintenance area
Notes:Minimum distance between 2 units from condensing coil side = 3 m
1000 1000
1500
AIR
21
Fig. 3 --- Lifting instructions with tubes CRH/SRH 004---016
LIFTING TUBE(NOT SUPPLIED)(BASE HOLES Ø45)
LIFTING SYSTEM WITH TUBES
BELT OR CHORD
BLOCKING PEG(NOT SUPPLIED)
SPLIT PIN(NOT SUPPLIED)
PART. �A�
N.B: Place the lifting tubes in the holes in the base indicated by the words �LIFT HERE�. Lock the ends of the tubes in position withthe locking pins and split pins as shown above �A�.The capacity of the lifting gear must be adequate to lift the load in question. Check the weight of the unit, the capacity of thelifting gear and ropes and the condition and suitability of the aforementioned equipment. Lift the unit with a speed suitablefor the load to be moved, so as not to damage the structure.
PART. �A�
PROTECTION PLANK
RIGID STRUTS(POSSIBILY STEEL)
PART. �A�
Lifting
Models �L�(mm)
�A�(m)
�B�(m)
�C�(m)
CRH / SRH 004 - 204 - 006 - 206 2006 1.7 ' 3.5 ' 8.5
CRH / SRH 007 - 207 - 008 - 011 3006 1.7 ' 4.5 ' 8.5
CRH / SRH 014 - 016 4006 1.7 ' 4.5 ' 8.5
22
Fig. 4 --- Lifting instructions with straight shackle CRH/SRH 004---016
N.B: The capacity of the lifting gear must be adequate to lift the load in question. Check the weight of the unit, the capacity of thelifting gear and ropes and the condition and suitability of the aforementioned equipment.Lift the unit with a speed suitable for the load to be moved, so as not to damage the structure.
STRAIGHT SHACKLE Ø 14 (UNI 1947) �A� TYPE(OPTIONAL)
LIFTING SYSTEM WITHSTRAIGHT SHACKLE
PART. �A�
N.B.: LIFT IN THE BARICENTRE LINE �G� OF THE UNIT
”A1”
”A2”
PART. �A�
”G”
”Xg”
”Yg
”
”L”
”G”
Lifting
Models �L�(mm)
�A1 + A2�(m)
CRH / SRH 004 - 204 - 006 - 206 2006 ' 5.5
CRH / SRH 007 - 207 - 008 - 011 3006 ' 6.5
CRH / SRH 014 - 016 4006 ' 6.5
23
Baricentre �G� --- CRH/SRH 004---016
Unit baricentre position �G� --- (without water)
Models Without tank With tankModels�Xg�(m)
�Yg�(m)
�Xg�(m)
�Yg�(m)
CRH 004 0.83 0.58 0.89 0.58CRH 204 0.79 0.62 Not available
CRH 006 0.80 0.56 0.86 0.56
CRH 206 0.78 0.62 Not available
CRH 007 1.22 0.59 1.32 0.59
CRH 207 1.18 0.64 Not available
CRH 008 1.17 0.63 1.25 0.63CRH 011 1.10 0.63 1.18 0.62
CRH 014 1.50 0.64 1.62 0.63
CRH 016 1.45 0.63 1.57 0.63
SRH 004 0.86 0.60 0.92 0.60
SRH 204 0.82 0.64 Not available
SRH 006 0.83 0.58 0.89 0.59
SRH 206 0.82 0.64 Not available
SRH 007 1.27 0.63 1.36 0.62
SRH 207 1.23 0.67 Not available
SRH 008 1.22 0.66 1.30 0.65SRH 011 1.16 0.65 1.23 0.65
SRH 014 1.58 0.67 1.68 0.66
SRH 016 1.53 0.67 1.64 0.66
24
Fig. 5 --- Lifting instructions with tubes CRH/SRH 017---032
LIFTING TUBE(NOT SUPPLIED)(BASE HOLES Ø56)
BELTOR CHORD
BLOCKING PEG(NOT SUPPLIED)
SPLIT PIN(NOT SUPPLIED)
PROTECTION PLANK
RIGID STRUTS(POSSIBILY STEEL)
N.B: Place the lifting tubes in the holes in the base indicated by the words �LIFT HERE�. Lock the ends of the tubes in position withthe locking pins and split pins as shown above �A�.The capacity of the lifting gear must be adequate to lift the load in question. Check the weight of the unit, the capacity of thelifting gear and ropes and the condition and suitability of the aforementioned equipment. Lift the unit with a speed suitablefor the load to be moved, so as not to damage the structure.
Lifting
Models �A�(m)
�B�(m)
�C�(m)
CRH 017 - 020 - 023 - 025 - 028 - 030 - 0321 0 5 5 9 0
SRH 017 - 020 - 023 - 025 - 028 - 030 - 0321.0 ' 5.5 ' 9.0
25
Fig. 6 --- Support positions and loads (Note: weights refer to standard units)
CRH/SRH 004 - 016
120 120
1711
6117
d=14
”A”
1195
”C” ”C”
”D” ”E” ”D”
W1 W2 W3 W4 W5
W10W9W8W7W6
”B”
3411
2734
FOOT PRINT
Dimensions --- CRH/SRH 004 --- 016
Dimensions (mm) A B C D E
Model Size
CRHSRH
004 --- 204 --- 006 --- 206004 --- 204 --- 006 --- 206 2000 1760 --- --- ---
CRHSRH
007 --- 207 --- 008 --- 011007 --- 207 --- 008 --- 011 3000 --- 1380 --- ---
CRHSRH
014 --- 016014 --- 016 4000 --- --- 1160 1440
Weight distribution --- CRH/SRH 004 --- 016
Weight distribution (kg) W 1 W 2 W 3 W 4 W 5 W 6 W 7 W 8 W 9 W 10
Model Size
CRH 004 221 --- --- --- 151 241 --- --- --- 165
204 276 --- --- --- 173 262 --- --- --- 164
006 238 --- --- --- 151 276 --- --- --- 176
206 283 --- --- --- 174 269 --- --- --- 165
007 240 --- 137 --- 137 246 --- 140 --- 140
207 288 --- 152 --- 152 253 --- 134 --- 134
008 314 --- 164 --- 164 285 --- 149 --- 149
011 369 --- 169 --- 169 338 --- 155 --- 155
014 299 299 --- 136 136 265 265 --- 121 121
016 320 320 --- 136 136 285 285 --- 121 121
SRH 004 254 --- --- --- 193 241 --- --- --- 183
204 308 --- --- --- 215 262 --- --- --- 182
006 271 --- --- --- 192 275 --- --- --- 195
206 316 --- --- --- 216 268 --- --- --- 184
007 280 --- 186 --- 186 241 --- 161 --- 161
207 328 --- 203 --- 203 248 --- 154 --- 154
008 361 --- 222 --- 222 278 --- 171 --- 171
011 419 --- 227 --- 227 329 --- 178 --- 178
014 356 356 --- 198 198 265 265 --- 148 148
016 378 378 --- 197 197 284 284 --- 148 148
26
Weight distribution with tank --- CRH/SRH 004 --- 016
Weight distribution (kg) W 1 W 2 W 3 W 4 W 5 W 6 W 7 W 8 W 9 W 10
Model Size
CRH 004 271 --- --- --- 257 288 --- --- --- 272
204 Not available
006 289 --- --- --- 255 322 --- --- --- 285
206 Not available
007 230 --- 219 --- 219 235 --- 223 --- 223
207 Not available
008 334 --- 289 --- 289 312 --- 270 --- 270
011 389 --- 294 --- 294 365 --- 277 --- 277
014 310 310 --- 260 260 283 283 --- 238 238
016 331 331 --- 259 259 304 304 --- 238 238
SRH 004 301 --- --- --- 300 290 --- --- --- 289
204 Not available
006 320 --- --- --- 298 323 --- --- --- 302
206 Not available
007 267 --- 267 --- 273 237 --- 237 --- 243
207 Not available
008 375 --- 350 --- 350 311 --- 290 --- 290
011 433 --- 354 --- 354 362 --- 297 --- 297
014 362 362 --- 326 326 289 289 --- 259 259
016 385 385 --- 325 325 308 308 --- 260 260
27
Fig. 7 --- Support positions and loads (Note: weights refer to standard units)
Dimensions --- CRH/SRH 017 --- 032
Dimensions (mm) A B
Model Size
CRH / SRH 017 --- 020 3750 1000
CRH / SRH 023 --- 025 4750 1500
CRH / SRH 028 --- 030 --- 032 5750 2000
Weight distribution --- CRH/SRH 017 --- 032
Weight distribution (kg) W 1 W 2 W 3 W 4 W 5 W 6 W 7 W 8
Model Size
CRH 017 196 196 233 233 261 261 310 310
020 203 203 250 250 274 274 337 337
023 240 240 327 327 312 312 427 427
025 240 240 327 327 312 312 427 427
028 273 273 382 382 345 345 482 482
030 281 281 383 383 368 368 502 502
032 280 280 393 393 371 371 520 520
SRH 017 252 252 283 283 293 293 328 328
020 259 259 300 300 306 306 355 355
023 305 305 395 395 348 348 450 450
025 305 305 395 395 348 348 450 450
028 351 351 463 463 385 385 508 508
030 359 359 471 471 402 402 528 528
032 358 358 482 482 405 405 545 545
Weight distribution with tank --- CRH/SRH 017 --- 032
Weight distribution (kg) WT1 W 1 W 2 W 3 W 4 WT2 W 5 W 6 W 7 W 8
Model Size
CRH 017 443 443 261 261 261 462 462 273 273 273
020 440 440 279 279 279 467 467 296 296 296
023 447 447 351 351 351 477 477 374 374 374
025 447 447 351 351 351 477 477 374 374 374
028 460 460 400 400 400 489 489 425 425 425
030 464 464 403 403 403 508 508 441 441 441
032 460 460 412 412 412 507 507 455 455 455
SRH 017 478 478 309 309 309 467 467 302 302 302
020 475 475 326 326 326 473 473 325 325 325
023 486 486 413 413 413 482 482 410 410 410
025 486 486 413 413 413 482 482 410 410 410
028 507 507 475 475 475 496 496 464 464 464
030 508 508 485 485 485 505 505 483 483 483
032 504 504 494 494 494 505 505 496 496 496
CRH/SRH 017 - 032
60
WA WB
WDWC
1000
125
120
1060
120
750 125
1180
60
1300
d = 20
1300
W6 W7 W8
W1 W2 W3 W4
W5
”A”
125 ”B” 1500 ”B” 125
WT1
WT2
1000
125 875
d = 20
120
1060
120
6011
8060
FOOT PRINT
WA = WB = 406 kgWC = WD = 299 kg
Tank(supply not mounted on unit)
TANKMOUNTED(OPTION)
FOOT PRINT
28
Fig. 8 --- Rubber anti---vibration support + 1000 liters tank
Unit base
Rubber support dimensions Rubber support installation
CF
A
B
S
L
F
P
G
Fixing screw
Screw anchor(not supplied)
Cement base
Access hole forsupport fixing
Single support code
Code A(mm)
B(mm)
P(mm)
F(mm)
CF(mm)
G(mm)
L(mm)
S(mm)
270327 82 35 M10 11.0 110 60 128 2
270326 108 50 M16 16.5 160 83 190 5
Rubber supports + 1000 liters tank
Unit Configuration Supportkit code
Single supportcode
Kit supportpieces
CRH --- SRH204---206---004---006 485620 4
CRH --- SRH207---007---008---011
With or withouttank 485621 270327 6
CRH --- SRH014---016
ta
485622 8
CRH --- SRH017---020---023---025---028---030---032 Without tank 485625
2703268
CRH --- SRH017---020---023---025---028---030---032 With tank 485626
27032610
1000 liters tank Loose supplied 485620 270327 4
Each kit is complete with stainless steel fixing screws and plain washers for unit assembly.
29
Fig.9---OveralldimensionsCRH/SRH004---016
Rightairdischarge
(movethe�A�with�B�panel/s)
Overairdischarge
(Standardsupply)
Leftairdischarge
(movethe�A�with�C�panel/s)
X Y
236±5
699±5
X Y
WZ
M
M
M
M
MM
M M
M
MM
MM
M
M
E
E
E
F
Ext.
A
CB
699±5
==
151352
1739
151 352Ext. 1739
158352Ext.691
30
3030
875
852Ext.
279
148
852Ext.279
148
852Ext.279
875
852Ext.
279
148
852Ext.
279
148
852Ext.
279
875
279
148
279
148
852Ext.279
1201
600 1642
2242
132
140802022
1522720
430,5170600,5
==
�A�+40
1101501
30
11030144130
769
30
942
30
1942
30
2942
30
30
30(Opt.)
30
�A�
236±5
Supplycableinlet
(Prepunchø67+ø30)
Fanandholepanelnot
presentonmod.007-207
�A�+40(Heatrecovery,Opt.) 852Ext.
852Ext.
Fanandholepanelnot
presenton
mod.007-207
Flanged(Opt.)
Frontview
Topview
Lateralview
Rearview
(withheatrecovery)
Rearview
(Std.unit)
Lateralview
(from�D�)
MM
MM
M
MM
M
Flanged(Opt.)
Flanged(Opt.)
Flanged
(Opt.)
�D�
DuctFlanged(Opt.),
notpossiblewithcoilmetalfilters
Coilmetalfilters(Opt.),notpossible
withductedflange
M
Airflow
Removablepanel
A B C E F
Flanged(Opt.)
Electricpaneland
controlunit
(rearfront
removablepanel)
Fanandholepanelnot
presentonmod.007-207
30
Tab.10---ChilledwaterconnectionCRH/SRH004---016
j=Standard,withtank,with
tank+pump/s
CRH/SRH
004---204(*)---006---206(*)
CRH/SRH
007---207(*)---008---011
CRH/SRH
014---016
pp
J=Withpump/s(withouttank)
jJ
jJ
jJ
�A�
mm
2006
3006
4006
Fansnumber
---1
1(007---207)---2(008---011)
3
Chilledwater
XInlet
2�Gasmale
Outlet
2�Gasmale
Inlet
2�Gasmale(mod.007---207)
21/ 2�Gasmale(mod.008---011)
Outlet
2�Gasmale(mod.007---207)
21/ 2�Gasmale(mod.008---011)
Inlet
21/ 2�Gasmale
Outlet
21/ 2�Gasmale
Chilledwater
connection
YOutlet
2�Gasmale
Inlet
2�Gasmale
Outlet
2�Gasmale(mod.007---207)
21/ 2�Gasmale(mod.008---011)
Inlet
2�Gasmale(mod.007---207)
21/ 2�Gasmale(mod.008---011)
Outlet
21/ 2�Gasmale
Inlet
21/ 2�Gasmale
(*)ON204---206---207MODELS,TANKVERSIONWITH/WITHOUTPUMPISNOTAVAILABLE
Tab.11---Heatrecoverywaterconnection(optional)CRH/SRH004---016
Models
CRH
004---006---007---204---206---207
SRH
004---006---007---204---206---207
CRH
008---011---014---016
SRH
008---011---014---016
Partial
heatrecoveryinlet
W1�Gasmale
1�Gasmale
11/ 4�Gasmale
11/ 4�Gasmale
Total
heatrecoveryinlet
W2�Gasmale
Notavailable
21/ 2�Gasmale
Notavailable
Partial
heatrecoveryoutlet
Z1�Gasmale
1�Gasmale
11/ 4�Gasmale
11/ 4�Gasmale
Total
heatrecoveryoutlet
Z2�Gasmale
Notavailable
21/ 2�Gasmale
Notavailable
31
Fig.10---OveralldimensionsCRH/SRH017---032
BC
A
EM
MM
M MM
M
M M
M M
M
M M
M M
MM
MM
MM
Z W X Y
MX Y
180035288
1791382Ext.
3030 30(Opt.)
850
352
98
180035288
1300
2240
459
832Ext.168
168
459
168
459
168
459
30
2557651220
1185
115
MM
MM
M
MM
MM
M
M
M
M
M
EE
E
E
F
459
832Ext.168
168
459
168
459
168
459
405
4940Ext.
405
3940Ext.
405
2940Ext.
405
459
168
168
459
168
459168
832Ext.
459
1791382Ext.
679
�A�
60
MXWZ Y
255765300765155
1185
115
Rearview
(from�D�)
Topview
Frontview
Rightlateral
view
Leftlateralview
(Std.unit)
Leftlateralview
(withheatrecovery)
Flanged(Opt.)
Electricpanelandcontrolunit
(behindfrontremovablepanel)
832Ext.
832Ext.
832Ext.
832Ext.
Part.G
Heatrecovery
832Ext.
832Ext.
832Ext.
832Ext.
832Ext.
832Ext.
832Ext.
832Ext.
Flanged(Opt.)
Flanged(Opt.)
Flanged(Opt.)
Flanged(Opt.)
Heatrecoveryandstd.pipeprojection
�D�
�N�
60
YX
Victaulic
coupling
Unitconnecting
pipe
Unitoverallframe(�A�)
YX�N�View
PART.G
UNITCONNECTINGSYSTEM
Part.L
Part.H
2108090
102
27
27
Supplycableinlet
(PrepunchsNo2ø67-N
o1ø30)
Part.H
Part.L
2940Ext.
3940Ext.
4940Ext.
Flanged(Opt.)
1382Ext.Flanged(Opt.)
Planefor
canalizationfixingall
aroundtheopening
Rightairdischarge(movethe�A�with�B�panel/s)
Overairdischarge(Standardsupply)
Leftairdischarge(movethe�A�with�C�panel/s)
DuctFlanged(Opt.),notpossiblewithcoilmetalfilters
Coilmetalfilters(Opt.),notpossiblewithductedflange
M
Airflow
Removablepanel
A B C E F
32
Tab.12---ChilledwaterconnectionCRH/SRH017---032
Models
CRH/SRH
017---020
CRH/SRH
023---025
CRH/SRH
028---030---032
�A�
mm
3750
4750
5750
Fansnumber
---3
45
Chilledwater
XInlet
DN80---3�---88.9mm
Inlet
DN80---3�---88.9mm
Inlet
DN80---3�---88.9mm
Chilledwater
connection
YOutlet
DN80---3�---88.9mm
Outlet
DN80---3�---88.9mm
Outlet
DN80---3�---88.9mm
Tab.13---Heatrecoverywaterconnection(optional)CRH/SRH017---032
Models
CRH
017---020---023---025---028---030---032
SRH
017---020---023---025---028---030---032
Partial
heatrecoveryinlet
W2�Gasmale
2�Gasmale
Total
heatrecoveryinlet
WDN80---3�---88.9mm
(likePart.�G�)
Notavailable
Partial
heatrecoveryoutlet
Z2�Gasmale
2�Gasmale
Total
heatrecoveryoutlet
ZDN80---3�---88.9mm
(likePart.�G�)
Notavailable
33
Fig.11---OverallDimensions(withtank)CRH/SRH017---032
Overairdischarge
(standardsupply)
BC
A
EM
MM
M MM
M
M M
M M
M
M M
M M
M M
MM
MM
MM
M
X Y
X Y
M
180035288
1791382Ext.
3030 30(Opt.)
850
352
98
180035288
1300
2240
459
832Ext.168
168
459
168
459
168
459
30
1185
1152551065920
1000
MM
MM
M
MM
MM
M
M
M
M
M
EE
E
E
F
M
459
832Ext.168
168
459
168
459
168
459
405
4940Ext.
405
3940Ext.
405
2940Ext.
405
459
168
168
459
168
459
168
832Ext.
459
1791382Ext.
679
60
Electricpanelandcontrolunit
(behindfrontremovablepanel)
�A�832Ext.
832Ext.
832Ext.
832Ext.
Part.G
Frontview
Topview
Rearview
(from�D�)
Rightlateral
view
Leftlateralview
Flanged(Opt.)
832Ext.
832Ext.
832Ext.
832Ext.
832Ext.
832Ext.
832Ext.
832Ext.
Flanged(Opt.)
Flanged(Opt.)
Flanged(Opt.)
Flanged(Opt.)
�D�
Part.H
Part.L
2108090
102
Supplycableinlet
(Prepunchs
No2ø67-N
o1ø30)
27
272940Ext.
3940Ext.
4940Ext.
Flanged(Opt.)
1382Ext.
Flanged(Opt.)
Planefor
canalizationfixingall
aroundtheopening
Part.L
�N�
60
YX
Victaulic
coupling
Unitconnecting
pipe
Unitoverallframe(�A�)
YX�N�View
PART.G
UNITCONNECTINGSYSTEM
Rightairdischarge
(movethe�A�with�B�panel/s)
Leftairdischarge
(movethe�A�with�C�panel/s)
DuctFlanged(Opt.),
notpossiblewithcoilmetalfilters
Coilmetalfilters(Opt.),
notpossiblewithductedflange
M
Airflow
Removablepanel
A B C E F
Part.H
Inlet/Outletpipes
projection
34
Tab.14---Chilledwaterconnection(withtank)CRH/SRH017---032
Models
CRH/SRH
017---020
CRH/SRH
023---025
CRH/SRH
028---030---032
�A�
mm
4750
5750
6750
Fansnumber
---3
45
Chilledwater
XInlet
DN80---3�---88.9mm
Inlet
DN80---3�---88.9mm
Inlet
DN80---3�---88.9mm
Chilledwater
connection
YOutlet
DN80---3�---88.9mm
Outlet
DN80---3�---88.9mm
Outlet
DN80---3�---88.9mm
35
Fig. 12 ---Refrigerant circuit (std.) with partial recovery (opt.)CRH/SRH 004---006---007
HEAT RECOVERY WATER OUTLET1� GAS MALE (OPT.)
HEAT RECOVERY WATER INLET1� GAS MALE (OPT.)
MC
1
T
T
FG
2
4
5 6 3
7
88
9
11
12
13
14
15
16
17
18
20
19
19
19
22
21
19
10
CHILLED WATER INLET2� GAS MALE
CHILLED WATER OUTLET2� GAS MALE
19
Refrigerant components
Item Description Item Description
1234567891011121314
CompressorHigh pressure switch (HP)Low pressure switch (LP)Crankcase heaterHigh pressure manometer (Opt.)Low pressure manometer (Opt.)Safety valveCondenserFan(s)Pressure transducerShut---off valveFilter dryerShut---off solenoid valveSight glass
1516171819202122
Thermostatic expansion valveEvaporatorAntifreeze heater (Opt.)Control temperature sensorCharge connectionAntifreeze sensorPartial recovery heat exchanger (Opt.)Antifreeze heater (Std. with heat recovery)
36
Fig. 13 ---Refrigerant circuit (std.) with partial recovery (opt.)CRH/SRH 204---206---207---008---011---014---016
MC
1
2
4
5 3
7
8
15
16
17
20
19
19
21
25
7
8
9
15
19
19
22
21
18
6 3 6
MC
1
4
FG
11
12
13
14
19
11
12
13
19
19
10
19
10
22
FG14T
T
19 19
CHILLED WATERINLET
ØH --- GAS MALE
HEAT RECOVERYWATER INLET
ØG --- GAS MALE (OPT.)
HEAT RECOVERY WATER OUTLETØG --- GAS MALE (OPT.)
CHILLED WATER OUTLETØH --- GAS MALE
CRH/SRH204 206 207 008 011 014 016
Ø G 1� 1� 1� 11/4� 11/4� 11/4� 11/4�
Ø H 2� 2� 2� 21/2� 21/2� 21/2� 21/2�
Refrigerant components
Item Description Item Description
1234567891011121314
CompressorHigh pressure switch (HP)Low pressure switch (LP)Crankcase heaterHigh pressure manometer (Opt.)Low pressure manometer (Opt.)Safety valveCondenserFan(s)Pressure transducerShut---off valveFilter dryerShut---off solenoid valveSight glass
1516171819202122
Thermostatic expansion valveEvaporatorAntifreeze heater (Opt.)Control temperature sensorCharge connectionAntifreeze sensorPartial recovery heat exchanger (Opt.)Antifreeze heater (Std. with heat recovery)
37
Fig. 14 ---Refrigerant circuit with total recovery (opt.)CRH 004---006---007
MC
T
T
FG
HEAT RECOVERY WATER OUTLET2� GAS MALE
HEAT RECOVERYWATER INLET2� GAS MALE
CHILLED WATER INLET2� GAS MALE
CHILLED WATER OUTLET2� GAS MALE
ONLY FOR:CRH 004---006---007
25
7
9
25
22
8 8
19
11
12
14
13
19 2 5 36
4
1
19
15 19
16
18
20
23
24
2110
19
17
25
ONLY FOR:CRH 007
Refrigerant components
Item Description Item Description
1234567891011121314
CompressorHigh pressure switch (HP)Low pressure switch (LP)Crankcase heaterHigh pressure manometer (Opt.)Low pressure manometer (Opt.)Safety valveCondenserFan(s)Pressure transducerShut---off valveFilter dryerShut---off solenoid valveSight glass
1516171819202122232425
Thermostatic expansion valveEvaporatorAntifreeze heater (Opt.)Control temperature sensorCharge connectionAntifreeze sensorTotal recovery heat exchangerThree way valveNon return valveAntifreeze heaterLiquid receiver
38
Fig. 15 ---Refrigerant circuit with total recovery (opt.)CRH 204---206---207---008---011---014---016
HEAT RECOVERYWATER OUTLETØG --- GAS MALE
CHILLED WATERINLET
ØH --- GAS MALE
HEAT RECOVERYWATER INLETØG --- GAS MALE
MC
T
T
MC
FG FG
CHILLED WATER OUTLETØH --- GAS MALE
25 25
9
8 8
25 2519
11
12
14
19
13
11
12
14
19
19
13
2 5 5 23 66 3
19 19
1919
18
20
41
41
22 22
19
10
19
10
23 23
2424
21 21
16
17
1515
7 7
ONLY FOR:CRH 207---008---011---014---016
ONLY FOR:CRH 207---008---011---014---016
CRH204 206 207 008 011 014 016
Ø G 2� 2� 2� 21/2� 21/2� 21/2� 21/2�
Ø H 2� 2� 2� 21/2� 21/2� 21/2� 21/2�
Refrigerant components
Item Description Item Description
1234567891011121314
CompressorHigh pressure switch (HP)Low pressure switch (LP)Crankcase heaterHigh pressure manometer (Opt.)Low pressure manometer (Opt.)Safety valveCondenserFan(s)Pressure transducerShut---off valveFilter dryerShut---off solenoid valveSight glass
1516171819202122232425
Thermostatic expansion valveEvaporatorAntifreeze heater (Opt.)Control temperature sensorCharge connectionAntifreeze sensorTotal recovery heat exchangerThree way valveNon return valveAntifreeze heaterLiquid receiver
39
Fig. 16 ---Refrigerant circuit (std.) with partial recovery (opt.)CRH/SRH 017---020---023---025---028---030---032
HEAT RECOVERY WATER OUTLET2� GAS MALE (OPT.)
9
MC
8
44
1144
11
3 66
3
77
22
5
MC
MC
MCFGFG
T
T
2222
10
19
10
19
19
19
1919
19 19
19
19
21 21
1111
1212
1515
17
16
18
20
13 13
14 14
1919
2
5
2
HEAT RECOVERY WATER INLET2� GAS MALE (OPT.)
CHILLED WATER INLETVICTAULIC COUPLINGDN 80 --- 3� --- 88.9 mm
CHILLED WATER OUTLETVICTAULIC COUPLINGDN 80 --- 3� --- 88.9 mm
Item Description Item Description
1234567891011121314
CompressorHigh pressure switch (HP)Low pressure switch (LP)Crankcase heaterHigh pressure manometer (Opt.)Low pressure manometer (Opt.)Safety valveCondenserFan(s)Pressure transducerShut---off valveFilter dryerShut---off solenoid valveSight glass
1516171819202122
Thermostatic expansion valveEvaporatorAntifreeze heater (Opt.)Control temperature sensorCharge connectionAntifreeze sensorPartial recovery heat exchanger (Opt.)Antifreeze heater (Std. with heat recovery)
40
Fig. 17 ---Refrigerant circuit with total recovery (opt.)CRH 017---020---023---025---028---030---032
T
TMC
MC
MC
MC
HEAT RECOVERYWATER OUTLET
VICTAULIC COUPLING (OPT.)DN 80 --- 3� --- 88.9 mm
HEAT RECOVERYWATER INLET
VICTAULIC COUPLING (OPT.)DN 80 --- 3� --- 88.9 mm
CHILLED WATER INLETVICTAULIC COUPLINGDN 80 --- 3� --- 88.9 mm
CHILLED WATER OUTLETVICTAULIC COUPLINGDN 80 --- 3� --- 88.9 mm
NOT PRESENT FOR:CRH 017---020
NOT PRESENT FOR:CRH 017---020
FG FG
1919
19 19
19
19
19
19
24 24
2424
11 11
5 56
61819 19
3
3
2 2 2 2
23 23
13
13
13
13
77
8
9
19
10
19
10
21
22
15 15
17
20
16 1313
14141
1
4
4
1
4
4
1
1212
Item Description Item Description
1234567891011121314
CompressorHigh pressure switch (HP)Low pressure switch (LP)Crankcase heaterHigh pressure manometer (Opt.)Low pressure manometer (Opt.)Safety valveCondenserFan(s)Pressure transducerShut---off valveFilter dryerShut---off solenoid valveSight glass
1516171819202122232425
Thermostatic expansion valveEvaporatorAntifreeze heater (Opt.)Control temperature sensorCharge connectionAntifreeze sensorTotal recovery heat exchangerThree way valveNon return valveAntifreeze heaterLiquid receiver
41
Fig. 18 ---Hydraulic circuit --- CRH 004---006---007---204---206---207
1
2
5 56
7
48
9
4
3
10
16
13
15T
11
12TF
18
LIEBERT---HIROSS UNIT
ONLY WITH PUMP VERSION
ONLY WITH TANK VERSION
CHILLED WATER INLET2� GAS MALE
CHILLED WATER OUTLET2� GAS MALE
11
1
12
2
TT
NOT AVAILABLE IN204---206---207 MODELS
ONLY FOR 204---206---207 MODELS
ONLY FOR 004---006---007 MODELS
F
14a
14b
Hydraulic components
Item Description Item Description
12345678910
EvaporatorEvaporator antifreeze heater (Opt.)Rubber flexible pipe (only with pumps and/or tank))Manual air valveGate valvePumpSafety valveExpansion tankService ball valveDrain valve
11121314a14b15161718
Control temperature sensorAntifreeze temperature sensorTank antifreeze heater (Opt.)Flow switch (unit without tank, Opt. without pumps)Flow switch (unit with tank, Opt. without pumps)Rubber flexible pipe (only with pumps, without tank)Filter (Opt.)Non return valveExpansion tank + Safety valve (Opt. without tank)
42
Fig. 19 ---Hydraulic circuit --- CRH 008---011---014---016
CHILLED WATER INLET21/2� GAS MALE
11
1
7
48
9
3
10
13
12
4
6
65
517
17
2
16
15F
18
TT
ONLY WITH PUMP VERSION
ONLY WITH TANK VERSION
CHILLED WATER OUTLET21/2� GAS MALE
LIEBERT---HIROSS UNIT
F
14a
14b
Hydraulic components
Item Description Item Description
12345678910
EvaporatorEvaporator antifreeze heater (Opt.)Rubber flexible pipe (only with pumps and/or tank))Manual air valveGate valvePumpSafety valveExpansion tankService ball valveDrain valve
11121314a14b15161718
Control temperature sensorAntifreeze temperature sensorTank antifreeze heater (Opt.)Flow switch (unit without tank, Opt. without pumps)Flow switch (unit with tank, Opt. without pumps)Rubber flexible pipe (only with pumps, without tank)Filter (Opt.)Non--- return valveExpansion tank + Safety valve (Opt. without tank)
43
Fig. 20 ---Hydraulic circuit --- SRH 004---006---007---204---206---207
2
5 56
4
11
1
7
48
9
10
13
12
16
3
15
44
1010
20
19
1822
21
F
23
23
23
23
2323
24
22 T
T
TT
ONLY WITH PUMP VERSION
ONLY WITH TANK VERSION
CHILLED WATER INLET2� GAS MALE
CHILLED WATER OUTLET2� GAS MALE
LIEBERT---HIROSS UNIT
11
1
12
2
TT
ONLY FOR 204---206---207 MODELS
ONLY FOR 004---006---007 MODELS
NOT AVAILABLE IN204---206---207 MODELS
F
14a
14b
Hydraulic components
Item Description Item Description
12345678910111213
EvaporatorEvaporator antifreeze heater (Opt.)Rubber flexible pipe (only with pumps and/or tank))Manual air valveGate valvePumpSafety valveExpansion tankService ball valveDrain valveControl temperature sensorAntifreeze temperature sensorTank antifreeze heater (Opt.)
14a14b15161718192021222324
Flow switch (unit without tank, Opt. without pumps)Flow switch (unit with tank, Opt. without pumps)Rubber flexible pipe (only with pumps, without tank)Filter (Opt.)Non return valveAir temperature sensor3---way valveFreecooling control temperature sensorFan(s)Freecooling coilRubber flexible pipeExpansion tank + Safety valve (Opt. without tank)
44
Fig. 21 ---Hydraulic circuit --- SRH 008---011---014---016
11
1
7
48
9
10
13
12
46
65
517
17
2
16
3
15
20
19
F
44
1010
182222
21
23
23
23
23
24
T
T
TT
CHILLED WATER INLET21/2� GAS MALE
ONLY WITH PUMP VERSION
ONLY WITH TANK VERSION
CHILLED WATER OUTLET21/2� GAS MALE
LIEBERT---HIROSS UNIT
F
14a
14b
Hydraulic components
Item Description Item Description
12345678910111213
EvaporatorEvaporator antifreeze heater (Opt.)Rubber flexible pipe (only with pumps and/or tank))Manual air valveGate valvePumpSafety valveExpansion tankService ball valveDrain valveControl temperature sensorAntifreeze temperature sensorTank antifreeze heater (Opt.)
14a14b15161718192021222324
Flow switch (unit without tank, Opt. without pumps)Flow switch (unit with tank, Opt. without pumps)Rubber flexible pipe (only with pumps, without tank)Filter (Opt.)Non--- return valveAir temperature sensor3---way valveFreecooling control temperature sensorFansFreecooling coilRubber flexible pipeExpansion tank + Safety valve (Opt. without tank)
45
Fig.22---Hydrauliccircuit---CRH017---020---023---025---028---030---032
T
M2
M1
M1
ONLYWITHTWIN
PUMPVERSION
LIEBERT---HIROSSBASEUNIT
ONLYWITHSINGLE
PUMPVERSION
UNITFRAME(WITHASSEMBLEDTANK)
UNITFRAME(WITHOUTTANK)
TANKFRAME
ONLYWITHWATERTANKVERSION
ASSEMBLYWITHUNIT
OPTION:
WATERTANKNOTASSEMBLY
WITHUNIT
T
F
10
5
7
5
4
9
13
45
56
49
13
10
3
8
14
11 12
1 2
15
15
WATERTANKOUTLET---
VICTAULICCONNECTION
DN80---3�---88.9mm
WATERTANKINLET---
VICTAULIC
CONNECTION
DN80---3�---88.9mm
CHILLEDWATERINLET
VICTAULICCONNECTION
DN80---3�---88.9mm
CHILLEDWATEROUTLET
VICTAULICCONNECTION
DN80---3�---88.9mm
p16
Hydrauliccomponents
Item
Description
Item
Description
1 2 3 4 5 6 7 8 9 10
Evaporator
Evaporatorantifreezeheater(Opt.)
Filter(Opt.)
Manualairvalve
Butterflyvalve
Singlepump
Twinpump
Expansiontank+Safetyvalve(Opt.)
Manometer
Dischargevalve
11 12 13 14 15 16
Controltemperaturesensor
Antifreezetemperaturesensor
Tankantifreezeheater(Opt.)
Flow
switch(Opt.withoutpumps)
Servicevalvewithcap
Differentialtrasducer(onlywithelectronicpump)
46
Fig.23---Hydrauliccircuit---SRH017---020---023---025---028---030---032
T
M2
M1
M1
ONLYWITHTWIN
PUMPVERSION
LIEBERT---HIROSSBASEUNIT
ONLYWITHSINGLE
PUMPVERSION
UNITFRAME(WITHASSEMBLEDTANK)
UNITFRAME(WITHOUTTANK)
TANKFRAME
ONLYWITHWATERTANKVERSION
ASSEMBLYWITHUNIT
OPTION:
WATERTANKNOTASSEMBLY
WITHUNIT
T
F
10
5
7
5
4
9
13
55
6
49
13
10
3
8
14
11 121
2
T
+
T
204
10
17
19 18
16
15
15
WATERTANKOUTLET---
VICTAULICCONNECTION
DN80---3�---88.9mm
WATERTANKINLET---
VICTAULIC
CONNECTION
DN80---3�---88.9mm
CHILLEDWATERINLET
VICTAULICCONNECTION
DN80---3�---88.9mm
CHILLEDWATEROUTLET
VICTAULICCONNECTION
DN80---3�---88.9mm
p21 15
Hydrauliccomponents
Item
Description
Item
Description
1 2 3 4 5 6 7 8 9 10
Evaporator
Evaporatorantifreezeheater(Opt.)
Filter(Opt.)
Manualairvalve
Butterflyvalve
Singlepump
Twinpump
Expansiontank+Safetyvalve(Opt.)
Manometer
Dischargevalve
11 12 13 14 15 16 17 18 19 20 21
Controltemperaturesensor
Antifreezetemperaturesensor
Tankantifreezeheater(Opt.)
Flow
switch(Opt.withoutpumps)
Servicevalvewithcap
Freecoolingcoil
Airtemperaturesensor
3wayvalve
Controlfreecoolingthermostatsensor
Fans
Differentialtrasducer(onlywithelectronicpump)
PrintedinItalybyLiebertHIROSS
S.pA.
IssuedbyT.D.Service
Since the Liebert HIROSS Company has a policy of continuousproduct improvement, it reserves the right to change design andspecifications without previous notice.
Il Fabbricante dichiara che questo prodotto è conforme alle direttive Europee:The Manufacturer hereby declares that this product conforms to the European Union directives:Der Hersteller erklärt hiermit, dass dieses Produkt den Anforderungen der Europäischen Richtlinien gerecht wird:Le Fabricant déclare que ce produit est conforme aux directives Européennes:El Fabricante declara que este producto es conforme a las directivas Europeas:O Fabricante declara que este produto está em conformidade com as directivas Europeias:Tillverkare försäkrar härmed att denna produkt överensstämmer med Europeiska Uniones direktiv:De Fabrikant verklaart dat dit produkt conform de Europese richtlijnen is:Vaimistaja vakuuttaa täten, että tämä tuote täyättää seuraavien EU-direktiivien vaatimukset:Produsent erklærer herved at dette produktet er i samsvar med EU-direktiver:Fabrikant erklærer herved, at dette produkt opfylder kravene i EU direktiverne:Ο ΚατασÀευαστÞj δηλþνει üτι το παÃüν πÃοΪüν εßναι ÀατασÀευασmÝνο αýmφωνα mε τιj οδηγßεj τηj Ε.Ε.:
98/37/CE; 89/336/CEE; 73/23/CEE; 97/23/CE
Zona Industriale TognanaVia Leonardo da Vinci, 16/1835028 Piove di Sacco (PD)
ITALY
Liebert HIROSSis a division ofEMERSON
Tel. +39 049 9719111Telefax +39 049 5841257
Internet : www.liebert-hiross.com
PrintedinItalybyLiebertHIROSS
S.pA.
IssuedbyT.D.Service
Since the Liebert HIROSS Company has a policy of continuousproduct improvement, it reserves the right to change design andspecifications without previous notice.
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