FOCS3-W 0551 - 4752

(The photo of the unit is indicative and may vary depending on the model)

HIGH EFFICIENCYADAPTABILITYMAXIMUM COMPACTNESS

Climaveneta Technical BulletinFOCS3-W 0551 - 4752_201609_EN HCF R134aELCA_Engine ver.3.6.2.1

FOCS3-W 0551 - 4752188-1693 kW

Water cooled chiller

Climaveneta S.p.A.:

Quality System complying with the requirements of UNI EN ISO9001:2008 regulation

Environmental Management System complying with the requirements of UNI EN ISO14001:2004 regulation

CERTIFICATIONS

Product certifi cations

Voluntary product certifi cations

System certifi cations

Check ongoing validity of certifi cate:www.eurovent-certifi cation.com

orwww.certifl ash.com

FOCS3-W 0551 - 4752_201609_EN HCF R134aELCA_Engine ver.3.6.2.1

INDEX FOCS3-W 0551 - 4752

1.1 PRODUCT FEATURES pg.1.1.1 / 1.1.22.1 PRODUCT PRESENTATION pg.2.1.1 / 2.1.13.1 UNIT STANDARD COMPOSITION pg.3.1.1 / 3.1.24.1 ACCESSORIES pg.4.1.1 / 4.1.75.1 GENERAL TECHNICAL DATA pg.5.1.1 / 5.1.36.1 OPERATING LIMITS pg.6.1.1 / 6.1.37.1 HYDRAULIC DATA pg.7.1.1 / 7.1.18.1 ELECTRICAL DATA pg.8.1.1 / 8.1.39.1 FULL LOAD SOUND LEVEL pg.9.1.1 / 9.1.210.1 DIMENSIONAL DRAWINGS pg.10.1.1 / 10.1.5

The present publication is drawn up by of information only and does not constitute an offer binding upon Climaveneta.Climaveneta has compiled the content of this publication to the best of its knowledge. The data contained herein are subject to change withoutnotice. Climaventa explicitly rejects any liability for any direct or indirect damage, in the broadest sense, arising from or related to the use and/orinterpretation of this publication. All content is copyrighted by Climaveneta.

Liability disclaimer

11.1 VARIABLE FLOW HYDRAULIC GROUP pg. A1 / A512.1 CONDENSATION CONTROL DEVICES pg. B1 / B3

The units highlighted in this publication contain HFC R134a [GWP100 1430] fluorinated greenhouse gases.

FOCS3-W 0551 - 4752_201609_EN HCF R134aELCA_Engine ver.3.6.2.1

LEGEND FOCS3-W 0551 - 4752

Functions

Cooling

Refrigerant

R-134a

Compressors

Screw compressor

Exchangers

Flooded evaporator

Other features

Energy Class A

Eurovent

VPF

2.1 GREEN CERTIFICATION RELEVANT

Climaveneta as a major player in the world HVAC market and a leading manufacturer of energy efficient, sustainable HVAC solutions, recognizes and supports the diffusion of green certification systems, as an effective way to deliver high performance buildings and improve the quality and the sustainability of the built environment.

Since the first certification system was introduced at the beginning of the 1990s, the demand for certified buildings has grown considerably, as well as the number of standards, rating and certification programs. Operating worldwide Climaveneta has extensive experience with many of them and is active member of Green Building Council Italy.

Climaveneta commitment to develop responsible and sustainable HVAC solutions, is reflected by a full range of premium efficiency products and systems, designed with special care to improve building energy performance ratings, according to major certification protocols, including LEED, BREAM, GREENSTAR, BCA, NABERS, DNGB, HQE and BEAM.

To find out more about how our products contribute to enhanced green certification rating and energy performance of a building, please refer to:http://www.climaveneta.com/GLOBAL/Company/Green-Certifications/QR code

FOCS3-W 0551 - 4752_201609_EN HCF R134a1.1.1ELCA_Engine ver.3.6.2.1

1.1 PRODUCT FEATURES


PRODUCT FEATURES

1.2 Maximum efficiency at every load conditionHigh efficiency units, both at part and at full load. The flooded evaporator,dedicated compressors, specifically designed condenser and a specialmanagement for the lubricant separation and recovery, lead FOCS3-Wunits to very competitive efficiency levels, with EER 5.8, ESEER 7.4, IPLV7.7

1.3 Maximum flexibility and adaptabilityMaximum flexibility and adaptability to the needs of the plant thanks to:- continuous modulation of the cooling capacity, guaranteed bysophisticated regulation logics- precision and quickness in the control, in order to guarantee stablewater temperature- management of the variable flow using the VPF or VPF.D signal- pressure drops reduction, thanks to particular layout for the floodedevaporator- compact and essential design, achieved by the construction layout,without base, frame structure and panels. The components are directlyfixed on one another, through fixing brackets- movimentation and on site placement easiness, even in case of smallspaces, added to immediate and complete accessibility duringmaintenance operations

1.4 Optimized compressorsFOCS3-W units are equipped with screw compressors designed in orderto work with low compression ratios, allowing to reach efficiency valueshigher than the ones possible for units with standard screw compressors,both at part and at full load, thanks to a targeted study of the volume ratioand the extension of the application limits.

1.5 Innovative design of the heat exchangersThe exclusive design of the flooded evaporator and of the shell and tubecondenser, both designed and manufactured by Climaveneta, maximizesthe cooling power of the unit and optimizes the compressors’ operationthanks to the high heat exchange coefficients.In the evaporator the presence of the refrigerant in the shell side and ofthe water inside the tubes allows to:- minimize the pressure drops- gain a perfect temperature uniformity as well as the completeevaporation of the refrigerant- cancel any necessity to have heat surfaces dedicated to desuperheating- facilitate cleaning operations

The flooding of the tubes in the evaporator is controlled by an electronicexpansion valve managed but proprietary control logics.

1.6 Lubricant recoveryAn innovative lubricant oil recovery system from the exchangers,combined with the traditional built-in oil separator, allows the compressorsto work always with the correct and appropriate lubification and at thesame time enables the exchange surfaces of the heat exchanger to stayclean, ensuring reliability to the entire system.


2.1 PRODUCT PRESENTATION

High efficiency unit for indoor installation for chilled water production.Semihermetic screw compressors optimized to operate with lowcompression ratio and R134a; shell and tubes condenser, floodedevaporator and electronic expansion valve. High efficiency unit thanks tothe innovative optimized compressors and the high performing heatexchangers.

2.3 HIGH EFFICIENCYVery high efficiency at full and partial load, at the highest market levels,thanks to the adopted technological solutions. These units ensure lowoperating costs and therefore a quick payback time.

2.4 ADAPTABILITYAdaptability at the building’s cooling request thanks to the continuouscapacity regulation, assured by sophisticated control’s logic.

2.5 MAXIMUM COMPACTNESSMaximum compactness to achieve a very high flexibility in the designprocess and installation operations, offering a premium solution in case ofreduced clearances or when retrofitting existing installations.


3.1 UNIT STANDARD COMPOSITION

3.2 High efficiency water cooled chillerIndoor unit for the production of chilled water featuring semihermeticscrew compressors optimized to operate with low compression ratio andR134a, electronic expansion valve, shell and tube condenser and shelland tube flooded evaporator.The unit results extremely compact, thanks to the peculiar constructionlayout, without base , frame and panels. At the same time high efficiencyis guaranteed by the innovative optimized compressors and highperforming heat exchangers, enhancing the EER values up to 5,8 atEurovent standard conditions.

3.3 Installation noteThe unit is supplied fully refrigerant charged and factory tested. On siteinstallation only requires power and hydraulic connection.

3.4 Refrigerant circuitUnit designed with dedicated and independent refrigerant circuits in orderto ensure continuous operation, limited pollution, and easy maintenance.In addition to main components described in the following sections, eachrefrigerant circuit is fitted as standard with:- electronic expansion valve- high and low pressure safety valve- high and low pressure transducers- check valve on the compressor delivery line- liquid line shut-off device- drier filter with replaceable cartridge- refrigerant line sight glass with humidity indicator- safety switching device for limiting the pressure

3.5 CompressorNew semi-hermetic screw compressors designed for high efficiency in lowcondensing temperature applications.Semi-hermetic screw compressors with 2 five- and six-lobe rotors: thefive-lobe rotor is splined directly onto the motor (nominal speed 2950 rpm)without the use of interposed gears. The bearings provided along therotor axis in a separate chamber isolated from the compression chamber,are made in carbon steel. Each compressor is provided with twoentrances for the oil recovery from the exchangers. The built-in oilseparator has 3 stages of separation, and a 10 mm stainless steel meshfilter ensures the constant presence of oil inside. Cooling power ispartialized by a slide valve which, depending on the position assumed,permits a stepless compression chamber reduction; each compressor cantherefore smoothly partialize from 25% to 100% of its capacity. The twopole motors are fitted as standard with electric devices to limit theabsorbed current during compressor start-up, and with unloaded start-up.Each compressor is fitted with manual-reset motor thermal protection,delivery gas temperature and oil level controls and an electric resistancefor the carter´s heating while the compressor is stopped. A check valvefitted on the refrigerant delivery line prevents the rotors from reversingafter stopping. On-off cock on the delivery line of each compressor(external to the compressor itself) to isolate the refrigerant charge in theheat exchanger when required.

3.6 Plant side heat exchangerShell and tube heat exchanger, fully designed and manufactured byClimaveneta, working as flooded type evaporator, with water flowinginside the pipes and refrigerant flowing in the shell side. The steel shell is

insulated with a foamed polyethylene closed-cell mat of 9 mm thicknessand a thermal conductivity of 0,033 W/mK at 0°C. The copper pipes areinternally and externally grooved in order to improve the heat exchange.Integrated system to avoid liquid entrainment and to protect thecompressor against the risk of liquid suction. A differential pressure switchis fitted in order to control the water flow while the unit is working,avoiding the risk of ice generation. An electric heater, operating whenantifreezing mode is active, is presente on the shell.The pipes’ flooding iscontrolled by an electronic expansion valve, managed by proprietarylogics to guarantee the proper refrigerant flow and the complete floodingof pipes in all conditions of compressors’ load. The heat exchangercomplies with PED standards, concerning the operating pressures.

3.7 Source side heat exchangerShell and tube heat exchanger, fully designed and manufactured byClimaveneta, working as condenser, with water flowing inside andrefrigerant flowing outsider the pipes. The steel shell is insulated with afoamed polyethylene closed-cell mat. The copper pipes are internally andexternally grooved to improve heat exchange. Heads can be removed toinspect the pipes. The heat exchanger complies with PED standards,concerning the operating pressures.

3.8 Electrical and control panelElectrical and control panel built to EN60204-1 and EC204-1 standards,complete with:- electronic controller- control circuit transformer- general door lock isolator- power circuit with electric bus bar distribution system- fuses and contactors for compressors- compressors protection with internal thermal overload- terminals for cumulative alarm block- remote ON/OFF terminals- spring-type control circuit terminal board- phases sequence and minimum/maximum voltage control- compressors' start up with part winding (sizes 0551-0701) or start/delta

(remaining sizes)- cables' entrance from the top

3.9 Certification and applicable directivesThe unit complies with the following directives and relative amendments:- EUROVENT Certification program- CE Declaration of conformity certificate for the European Union- SAFETY QUALITY LICENCE Product quality certificate for Popular

Republic of China- Machine directive 2006/42/EC- PED directive 97/23/EC- Low Voltage directive 2006/95/EC- ElectroMagnetic compatibility directive 2004/108/EC- ISO 14001 Company´s Environmental Management System

certification- ISO 9001 Company´s Quality Management System certification

3.10 TestsTests performed throughout the production process, as indicated inISO9001.Performance or noise tests can be performed by highly qualified staff inthe presence of customers.Performance tests comprise the measurement of:- electrical data- water flow rates- working temperatures- power input- power output- pressure drops on the water-side exchanger both at full load (at theconditions of selection and at the most critical conditions for thecondenser) and at part load conditions.During performance testing it is also possible to simulate the main alarmstates.Noise tests are performed to check noise emissions according toISO9614.

3.11 Electronic control W3000 TEThe brand new W3000TE controller offers advanced functions andalgorithms. The large format keyboard and the wide LCD display favouran easy and safe access to the machine setup and a complete view ofunit's staus. The assessment and intervention on the unit is managedthrough a multi-level menu, with selectable user’s language. The led iconsimmediately show the operating status of the circuits, as well as of thefans and of the water pumps (if present). An optional extra is the touch


UNIT STANDARD COMPOSITION

screen interface: 7.0” WVGA colour display with adjustable LED backlightand front USB port. The touch screen technology allows intuitivenavigation between the various screens, safe access to the data with athree-level password protection as well as the graphic display of theperformance of some monitored measurements.The diagnostics comprises a complete alarm management system, with“black box” (via PC) and alarm log functions (via display or also PC) for abetter analysis of the unit performance.For the systems made of several units, the adjustment of the resources isperformed by optional proprietary devices.Consumption metering and performance measurement are possible aswell. Supervision can be easily developed via proprietary devices or theintegration in third party systems by means of the most common protocolsas ModBus, Bacnet-over-IP, Echelon LonWorks, Bacnet MS/TPprotocols.Compatibility with the remote keyboard managing up to 8 units.The presence of the programmable timer allows the creation of anoperating profile containing up to 4 typical days and 10 time bands.The control is characterized by the continuous modulation of the unitcapacity, based on PID algorithms and referring to the water deliverytemperature.Optionally (VPF package), capacity modulation can be integrated withhydraulic flow modulation, thanks to inverter-driven pumps and to specificresources for the hydraulic circuit.

3.11 Touch screenTouch screen interface

3.12 Versions/CA - Class A of efficiencyUnit in ´Class A´ of efficiency as per Eurovent.


4.1 ACCESSORIES

ACCESSORIES DESCRIPTIONS BENEFITS AVAILABLE FOR MODELS1960PRESSURE RELIEF VALVES1961DUAL RELIEF VALVESWITH SWITCH

Dual relief valve with switch Allows to unselect a relief valve inorder to service the unit avoidingmedium or long inoperativeperiods

ALL

380NUMBERED WIRING381NUMBERED WIRING ONEL. BOARD

ALL

3300COMPRESSOR REPHASING3301COMPR.POWERFACTOR CORR.

Capacitors on the compressors'power inlet line.

The unit's average cos(phi)increases.

ALL

3410AUTOMATIC CIRCUIT BREAKERS3412AUTOM. CIRCUITBREAK. ON LOADS

Over-current switch on the majorelectrical loads.

In case of overcurrent allowsresetting of the switch without thereplacement of relative fuses.

ALL

3600ON/OFF COMPRESSOR SIGNAL3601COMPRESSOROPERATION SIGNAL

Auxiliary contacts providing avoltage-free signal.

Allows remote signalling ofcompressor's activation or remotecontrol of any auxiliary loads.

ALL

4180REMOTE CONNECTION ARRANGEMENT4181SERIAL CARD MODBUS

Interface module for ModBUSprotocols.

Allows integration with BMSoperating with ModBUS protocol.

ALL

4182SERIAL CARD FORLONWORKS

Interface module for Echelonsystems.

Allows integration with BMSoperating with LonWorksprotocols

ALL

4184SERIAL CARD BACNETMS/TP RS485

Interface module for BACnetprotocols.

Allows integration with BMSoperating with BACnet protocol.

ALL

4185SERIAL CARD FORBACNET OVER IP

Interface module for BACnetOVER-IP protocols.

Allows to interconnect BACnetdevices over Internet Protocolwithin wide-area networks.

ALL

6160AUXILIARY INPUT6161AUXILIARY SIGNAL4-20mA

4-20 mA analog input Allows to change the operatingset-point according to the value ofcurrent applied to the analogueinput.

ALL

6162REMOTE SIGNALDOUBLE SP

Allows to activate the EnergySaving set-point.

Allows to change the operatingset-point according to a remoteswitch

ALL

6170DEMAND LIMIT6171INPUT REMOTEDEMAND LIMIT

Digital input (voltage free) It permits to limit the unit's powerabsorption for safety reasons or intemporary situation.

ALL

6190TYPE OF VISUAL DISPLAY6195W3000 TOUCH VISUALDISPLAY

Colour WVGA 7'' displaykeyboard with adjustable LEDbacklight (WARNING: withoutdoor temperature below 0°Cthe display response time mayvisibly increase)

The touch-screen's technology ischaracterized by aneasy-to-access data, and it allowsan effective graphicalrepresentation of the main figuresprotecting the access through 3privilege levels.

ALL


ACCESSORIES

ACCESSORIES DESCRIPTIONS BENEFITS AVAILABLE FOR MODELS1510SOFT-STARTER1511SOFT-STARTER FORTHREE-PHASE POWERSUPPLY

Electronic device adopted tomanage the inrush current.

Break down of the inrush currentcompared to the direct motorstart, lower motor windings’mechanical wear, avoidance ofmains voltage fluctuations duringstarting, favourable sizing for theelectrical system.

ALL

3350WATER FLOW REGULATION :3351WITH VPF SYSTEM (SIG.0-10V)

Pre-arrangement for the control ofthe inverter driven pumps (for theplant’s primary circuit). This optionincludes: control devices to readthe signals (4-20mA) coming frompressure transducers placed inthe plant and so to manage thepumps and the by-pass valve(0-10V signal), additional pressuretransducer in the evaporator[pressure transducers, pumps andby-pass valve to be supplied byothers]

Energy consumption associatedwith fluid circulation dropssignificantly, very often over 50%.Beyond the energy saving and theconsequent lower operating costs,this new approach enablessimplification in the plant's designthat ensures substantial savingsin initial investment costs. Theintegration of variable flow pumpson board, permits significantsavings in overall dimensions,circuit components and in thesystem's commissioning.

ALL

3352WITH VPF.D SYSTEM(SIG. 0-10V)

Pre-arrangement for the control ofthe inverter driven pumps (for theplant’s primary circuit). This optionincludes: control devices to readthe signals (4-20mA) coming frompressure transducers placed inthe plant and so to manage thepumps and the by-pass valve(0-10V signal), additional pressuretransducer in the evaporator[pressure transducers, pumps andby-pass valve to be supplied byothers]

Energy consumption associatedwith fluid circulation dropssignificantly, very often over 50%.Beyond the energy saving and theconsequent lower operating costs,this new approach enablessimplification in the plant's designthat ensures substantial savingsin initial investment costs. Theintegration of variable flow pumpson board, permits significantsavings in overall dimensions,circuit components and in thesystem's commissioning.

ALL

3360PUMPS COMAND RELAYS3361RELAY EVAPORATORPUMP

Relay for the pump(s) on/off. It permits the pumps on/off. Incase of 2 pumps, one in stand-byto the other, it's possible tobalance the operating hoursbetween them.

ALL

33621+1 RELAYEVAPORATOR PUMPS


ALL

33631 EVAP. + 1 COND.RELAY PUMPS


ALL

33642 EVAP. + 2 COND.RELAY PUMPS


ALL

5920MANAGEMENT & CONTROL SYSTEMS5921NETWORK ANALYZERFOR DEMETRA

This option includes all followingdevices on-board the unit panel:- network analyzer operating onModBUS protocol over RS-485(without certification MID)- current transformers.

This accesory allows to acquirethe electrical data and the powerabsorbed by the unit and sendthem via RS-485 bus to anexternal device for energymetering (DEMETRA - seededicated manual).

ALL


ACCESSORIES

ACCESSORIES DESCRIPTIONS BENEFITS AVAILABLE FOR MODELS5922ClimaPRO ModBUSRS485 - MID

This option includes all followingdevices on-board the unit panel:- MID certified network analyzeroperating on ModBUS overRS-485- Current transformers- W3000TE controller- Software release LA09 or laterversion.

This accessory allows to acquirethe electrical data and the powerabsorbed by the unit andcommunicate with ClimaPRO viahigh level communicationinterface based on ModBUS overEIA RS-485.More specifically, the datacollected are: power supply,current, frequency, power factor(cosᵩ), electrical powerconsumption, energyconsumption.This specific energy meter modelis MID certified and can thereforebe used for billing applications.This option also ensures thecompatibility between the unitsand ClimaPRO, thus allowingClimaPRO to acquire all the mainunit’s operating variables andstatus by means of a high levelcommunication interface to thecontroller installed onboard theunit panel.

ALL

5923ClimaPRO BacNET overIP

This option includes all followingdevices on-board the unit panel:- network analyzer operating onBACnet over IP- Current transformers- W3000TE controller- Software release LA09 or laterversion.

This accessory allows to acquirethe electrical data and the powerabsorbed by the unit andcommunicate with ClimaPRO viahigh level communicationinterface based on BACnet overIP.More specifically, the datacollected are: power supply,current, frequency, power factor(cosᵩ), electrical powerconsumption, energyconsumption.This network analyzer is not MIDcertified and cannot therefore beused for billing applications.This option also ensures thecompatibility between the unitsand ClimaPRO, thus allowingClimaPRO to acquire all the mainunit’s operating variables andstatus by means of a high levelcommunication interface to thecontroller installed onboard theunit panel.

ALL

1240CONDENSING PRESSURE CTRL DEV1241PRESSOSTATIC WATERVALVE

Pressostatic valve with grey castiron body.

FOCS3-W: 0551, 0701, 0851, 0951, 1101, 1301, 1401,1651, 1901, 2101, 2501.

It's used for regulating the flowof water as a function ofthe condensing pressure,maintaining it constant duringoperation. When the refrigerationplant is stopped, the cooling waterflow is shut off automatically. Thevalve is selected and tested byClimaveneta during the unit's test.Recommended for applicationswith low temperature water, forexample groundwater, where it'srequest the condensationpressure's control and it's possibleto work with variable flow on therejection circuit (Separatelysupplied, not mounted).


ACCESSORIES

ACCESSORIES DESCRIPTIONS BENEFITS AVAILABLE FOR MODELS1246WITH MODULATINGSIGNAL 0-10V

0-10 V signal on terminal boardfor the condensation control.

For dry-cooler or cooling towerapplications, it permits tomodulate the fans' speed in orderto maintain the condensingpressure in a pre-defined range.Max transmission lenght 30 m.Shielded cable is recommended.

ALL

13803 WAY MODULATING VALVE13813 WAY VALVE MOD. A

3 way modulating valve, steelmade, with diverting function (seededicated section).

It’s recommended for applicationswith geothermal probes, in whichthe water flow is required to beconstant.

FOCS3-W: 0551.

13823 WAY VALVE MOD. B



FOCS3-W: 0551, 0701, 0851, 0951.

13833 WAY VALVE MOD. C



FOCS3-W: 0551, 0701, 0851, 0951, 1101, 1301.

13843 WAY VALVE MOD. D



FOCS3-W: 0551, 0701, 0851, 0951, 1101, 1301, 1401,1651, 1901, 2101.

13853 WAY VALVE MOD. E



FOCS3-W: 0851, 0951, 1101, 1301, 1401, 1651, 1901,2101, 2501, 2602, 3002, 3502.

13863 WAY VALVE MOD. F



FOCS3-W: 1301, 1401, 1651, 1901, 2101, 2501, 2602,3002, 3152, 3502, 3652, 4002, 4102, 4502, 4602,4752.

13873 WAY VALVE MOD. G



FOCS3-W: 2101, 2501, 2602, 3002, 3152, 3502, 3652,4002, 4102, 4502, 4602, 4752.

14102 WAY MODULATIMG VALVE14112 WAY VALVE MOD. A

Two way servo-motorized valvewith steel body (see dedicatedsection).

It’s recommended in case ofinverter pumps and water flowmodulation.

FOCS3-W: 0551.

14122 WAY VALVE MOD. B



FOCS3-W: 0551, 0701.

14132 WAY VALVE MOD. C



FOCS3-W: 0551, 0701, 0851, 0951, 1101.

14142 WAY VALVE MOD. D



FOCS3-W: 0551, 0701, 0851, 0951, 1101, 1301, 1401,1651, 1901.

14152 WAY VALVE MOD. E



FOCS3-W: 0851, 0951, 1101, 1301, 1401, 1651, 1901,2101, 2501, 2602, 3002.

14162 WAY VALVE MOD. F



FOCS3-W: 1301, 1401, 1651, 1901, 2101, 2501, 2602,3002, 3152, 3502, 3652, 4002, 4102, 4502, 4602,4752.

14172 WAY VALVE MOD. G



FOCS3-W: 1651, 1901, 2101, 2501, 2602, 3002, 3152,3502, 3652, 4002, 4102, 4502, 4602, 4752.

14182 WAY VALVE MOD. H



FOCS3-W: 2602, 3002, 3152, 3502, 3652, 4002, 4102,4502, 4602, 4752.


ACCESSORIES

ACCESSORIES DESCRIPTIONS BENEFITS AVAILABLE FOR MODELS1800EVAPORATOR WATER FLOW SWITCH1801EVAPORATOR WATERFLOW SWITCH

Flow switch with stainless scoopAISI 316L and IP65 protectionsuitable for installation in industrialplant pipes. It should be installedin a straight pipe without filters,valves, etc., long at least 5 timesits diameter, both upstream anddownstream.

Signaling of lack of or excessivereduction of flow, it generates analarm that is in automatic ormanual reset depending on n °alarms per hour and the maximumtime of operation of the pumpunder conditions of low flow rate.

ALL

2630INSULATION ON EVAP.2631DOUBLE INSULATIONON EVAP.

ALL

2900WATER CONNECTIONS2903EVAP.FLANGES +COUNTERFLANGES

ALL

2980CONDENSER WATER CONN.2981FLANGES CONDENSERCONNECTION

ALL

2340TYPE OF ENCL.2316COMPRESSORSSOUNDPROOFING

Compressors soundproofingcovering

Reduction of 6 dB(A) on the totalsound power

ALL

2100ANTIVIBRATION MOUNTING2101RUBBER TYPEANTIVIBR.MOUNTING

ALL

9960PACKING9979CONTAINER PACKING

Unit provided with container slidesand covered with nylon

ALL


ACCESSORIES

ACCESSORIES DESCRIPTIONS BENEFITS AVAILABLE FOR MODELS1950CONDENSER WATER TEMPERATURE1953KIT HWT

ALLThis kit enlarges the operating limits, raising the condenser leaving water temperature up to 55°C.

The accessory is required for applications with high condensing temperature (heat pump, high level heat reclaim or dry cooler applications).

Chiller Plant Control with Active Optimization System

ClimaPRO System Manager

ClimaPRO System Manager represents the state-of-the-art platform for chiller plant management and control.ClimaPRO ensures to actively optimize the entire chiller plant by managing and adjusting each component directly involved in the production and the distribution of the heating and the cooling energies, therefore involving chillers and heat pumps, pumping groups as well as the source-side devices like, for example, the cooling towers.

In particular, ClimaPRO measures in real-time all the operating variables from the fi eld, for each individual device and each of the main system branche, by using serial communication lines as well as dedicated analogue signals.

The acquired data are then compared with the design data of each single unit at any different working conditions, thus allowing to implement control strategies based on dynamic algorithms which take into account the real operating conditions.

On the basis of these values, an advanced diagnostic module also allows to assess the level of effi ciency for each individual unit, translating data into easy-to-read information in order to simplify and optimize the maintenance activities.

The “Chart Builder” software module allows to display the trends of the main operating variables. The “Reporting” module allows to send reports to selected users, including data and system’s status of the main devices as well as to perform calculation of the energy indexes for each single unit and for the entire chiller plant.

The accessibility to ClimaPRO System Manager is ensured by an integrated web server that makes it visible from any computer equipped with a web browser, either locally or remotely.


ACCESSORIES


FOCS3-W5.1 GENERAL TECHNICAL DATA[ SI System ]

FOCS3-W 0551 0701 0851 0951 1101 1301 1401 1651 1901 2101Power supply V/ph/Hz 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50PERFORMANCECOOLING ONLY (GROSS VALUE)Cooling capacity (1) kW 188 250 306 338 384 460 524 592 682 741Total power input (1) kW 34,9 45,9 56,1 61,2 69,8 82,5 93,0 104 122 133EER (1) kW/kW 5,39 5,45 5,45 5,52 5,49 5,57 5,63 5,70 5,59 5,57ESEER (1) kW/kW 6,84 7,09 6,55 6,85 6,80 6,73 6,90 7,00 6,90 6,89COOLING ONLY (EN14511 VALUE)Cooling capacity (1)(2) kW 187 249 305 336 382 458 522 590 679 739EER (1)(2) kW/kW 5,09 5,15 5,16 5,21 5,20 5,30 5,40 5,41 5,33 5,34ESEER (1)(2) kW/kW 6,14 6,31 5,94 6,16 6,14 6,15 6,09 6,35 6,10 6,19Cooling energy class A A A A A A A A A AEXCHANGERSHEAT EXCHANGER USER SIDE IN REFRIGERATIONWater flow (1) l/s 9,00 12,0 14,6 16,1 18,3 22,0 25,1 28,3 32,6 35,4Pressure drop (1) kPa 42,0 48,7 49,1 52,4 52,8 47,5 39,9 50,9 42,0 42,7HEAT EXCHANGER SOURCE SIDE IN REFRIGERATIONWater flow (1) l/s 10,6 14,1 17,3 19,0 21,6 25,9 29,4 33,2 38,3 41,7Pressure drop (1) kPa 56,7 57,2 56,0 58,6 57,4 54,5 44,3 55,2 59,7 45,3REFRIGERANT CIRCUITCompressors nr. N° 1 1 1 1 1 1 1 1 1 1Number of capacity N° 0 0 0 0 0 0 0 0 0 0No. Circuits N° 1 1 1 1 1 1 1 1 1 1Regulation STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS

Min. capacity step % 50 50 50 50 50 50 50 50 50 50Refrigerant R134a R134a R134a R134a R134a R134a R134a R134a R134a R134aRefrigerant charge kg 48 58 70 74 81 97 126 126 136 166Oil charge kg 15 15 22 19 19 35 35 35 35 38Rc (ASHRAE) (3) kg/kW 0,257 0,234 0,231 0,221 0,213 0,213 0,243 0,215 0,201 0,226NOISE LEVELSound Pressure (4) dB(A) 77 77 80 80 80 80 80 80 80 82Sound power level in cooling (5)(6) dB(A) 95 95 98 98 98 98 98 98 98 100SIZE AND WEIGHTA (7) mm 2920 2920 2920 2920 2920 2900 2900 2900 2930 2980B (7) mm 1180 1180 1180 1180 1180 1180 1180 1180 1180 1190H (7) mm 1870 1870 1870 1870 1870 1960 1970 1960 2050 2100Operating weight (7) kg 1900 1960 2320 2350 2450 3080 3250 3280 3400 3650

Notes:1 Plant (side) cooling exchanger water (in/out) 12,0°C/7,0°C; Source (side) heat exchanger water (in/out) 30,0°C/35,0°C.2 Values in compliance with EN14511-3:2013.3 Rated in accordance with AHRI Standard 550/590 (2011 with addendum 1).4 Average sound pressure level at 1m distance, unit in a free field on a reflective surface; non-binding value calculated from the sound power level.5 Sound power on the basis of measurements made in compliance with ISO 9614.6 Sound power level in cooling, indoors.7 Unit in standard configuration/execution, without optional accessories.- Not availableCertified data in EUROVENT


FOCS3-WGENERAL TECHNICAL DATA[ SI System ]

FOCS3-W 2501 2602 3002 3152 3502 3652 4002 4102 4502 4602Power supply V/ph/Hz 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50 400/3/50PERFORMANCECOOLING ONLY (GROSS VALUE)Cooling capacity (1) kW 837 916 1062 1140 1218 1303 1382 1450 1522 1614Total power input (1) kW 149 164 187 196 214 225 242 253 268 284EER (1) kW/kW 5,61 5,58 5,68 5,82 5,69 5,80 5,72 5,74 5,68 5,68ESEER (1) kW/kW 6,94 7,35 7,43 7,46 7,24 7,32 7,28 7,27 7,12 7,39COOLING ONLY (EN14511 VALUE)Cooling capacity (1)(2) kW 834 913 1058 1137 1214 1299 1377 1445 1517 1609EER (1)(2) kW/kW 5,37 5,37 5,42 5,62 5,43 5,60 5,46 5,50 5,42 5,45ESEER (1)(2) kW/kW 6,23 6,44 6,56 6,80 6,41 6,67 6,47 6,49 6,36 6,58Cooling energy class A A A A A A A A - -EXCHANGERSHEAT EXCHANGER USER SIDE IN REFRIGERATIONWater flow (1) l/s 40,0 43,8 50,8 54,5 58,2 62,3 66,1 69,3 72,8 77,2Pressure drop (1) kPa 42,8 40,0 51,5 37,4 51,4 39,8 50,4 46,7 51,5 42,5HEAT EXCHANGER SOURCE SIDE IN REFRIGERATIONWater flow (1) l/s 47,0 51,5 59,6 63,7 68,3 72,9 77,4 81,2 85,3 90,5Pressure drop (1) kPa 47,6 44,0 53,8 31,6 56,2 33,7 52,9 49,5 54,7 53,1REFRIGERANT CIRCUITCompressors nr. N° 1 2 2 2 2 2 2 2 2 2Number of capacity N° 0 0 0 0 0 0 0 0 0 0No. Circuits N° 1 2 2 2 2 2 2 2 2 2Regulation STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS STEPSLESS

Min. capacity step % 50 25 25 25 25 25 25 25 25 25Refrigerant R134a R134a R134a R134a R134a R134a R134a R134a R134a R134aRefrigerant charge kg 172 202 222 252 252 286 286 309 309 377Oil charge kg 38 70 70 70 70 70 70 73 76 76Rc (ASHRAE) (3) kg/kW 0,207 0,222 0,211 0,223 0,209 0,221 0,209 0,215 0,205 0,236NOISE LEVELSound Pressure (4) dB(A) 82 81 81 81 81 81 81 82 82 82Sound power level in cooling (5)(6) dB(A) 100 100 100 100 100 100 100 101 102 102SIZE AND WEIGHTA (7) mm 2990 4430 4430 4440 4470 4470 4470 4565 4650 5270B (7) mm 1280 1270 1270 1270 1270 1320 1270 1320 1320 1320H (7) mm 2200 2210 2210 2280 2250 2330 2280 2380 2380 2380Operating weight (7) kg 3980 6150 6500 7100 7070 7500 7300 7760 7820 8360



FOCS3-WGENERAL TECHNICAL DATA[ SI System ]

FOCS3-W 4752Power supply V/ph/Hz 400/3/50PERFORMANCECOOLING ONLY (GROSS VALUE)Cooling capacity (1) kW 1693Total power input (1) kW 292EER (1) kW/kW 5,80ESEER (1) kW/kW 7,39COOLING ONLY (EN14511 VALUE)Cooling capacity (1)(2) kW 1688EER (1)(2) kW/kW 5,54ESEER (1)(2) kW/kW 6,58Cooling energy class -EXCHANGERSHEAT EXCHANGER USER SIDE IN REFRIGERATIONWater flow (1) l/s 80,9Pressure drop (1) kPa 46,7HEAT EXCHANGER SOURCE SIDE IN REFRIGERATIONWater flow (1) l/s 94,6Pressure drop (1) kPa 58,0REFRIGERANT CIRCUITCompressors nr. N° 2Number of capacity N° 0No. Circuits N° 2Regulation STEPSLESS

Min. capacity step % 25Refrigerant R134aRefrigerant charge kg 377Oil charge kg 76Rc (ASHRAE) (3) kg/kW 0,225NOISE LEVELSound Pressure (4) dB(A) 82Sound power level in cooling (5)(6) dB(A) 102SIZE AND WEIGHTA (7) mm 5270B (7) mm 1320H (7) mm 2380Operating weight (7) kg 8360



6.1 OPERATING LIMITS


OPERATING LIMITS FOCS3-W 0551 - 4752FOCS3-W 0551 - 4752FOCS3-W 0551 - 4752

FOCS3-W /0551

FOCS3-W /0701

FOCS3-W /0851

FOCS3-W /0951

FOCS3-W /1101

FOCS3-W /1301

FOCS3-W /1401

FOCS3-W /1651

FOCS3-W /1901

FOCS3-W /2101

FOCS3-W /2501

FOCS3-W /2602

FOCS3-W /3002

FOCS3-W /3152

FOCS3-W /3502

FOCS3-W /3652

FOCS3-W /4002

FOCS3-W /4102

FOCS3-W /4502

FOCS3-W /4602

FOCS3-W /4752

FOCS3-W /0551*

FOCS3-W /0701*

FOCS3-W /0851*

FOCS3-W /0951*

FOCS3-W /1101*

FOCS3-W /1301*

FOCS3-W /1401*

FOCS3-W /1651*

FOCS3-W /1901*

FOCS3-W /2101*

FOCS3-W /2501*

FOCS3-W /2602*

FOCS3-W /3002*

FOCS3-W /3152*

FOCS3-W /3502*

FOCS3-W /3652*

FOCS3-W /4002*

FOCS3-W /4102*

FOCS3-W /4502*

FOCS3-W /4602*

FOCS3-W /4752*

SIZE


FOCS3-W 0551 - 4752OPERATING LIMITS

6.2 ETHYLENE GLYCOL MIXTUREEthylene glycol and water mixture, used as a heat-conveying fluid, cause a variation in unit performance. For correct data, use the factorsindicated in the following tabel.

Freezing point (°C)

0 -5 -10 -15 -20 -25 -30 -35

Ethylene glycol percentage by weight

0% 12% 20% 30% 35% 40% 45% 50%

cPf 1 0,985 0,98 0,974 0,97 0,965 0,964 0,96

cQ 1 1,02 1,04 1,075 1,11 1,14 1,17 1,2

cdp 1 1,07 1,11 1,18 1,22 1,24 1,27 1,3

For data concerning other kind of anti-freeze solutions (e,g, propyleneglycol) please contact our Sale Department.

cPf: cooling power correction factorcQ: flow correction factorcdp: pressure drop correction factor

6.3 FOULING FACTORSPerformances are based on clean condition of tubes (fouling factor = 1). For different fouling values, performance should be adjusted using thecorrection factors shown in the following table.

FOULING FACTORS EVAPORATOR CONDENSER/RECOVERY DESUPERHEATER

ff(m² °CW) F1 FK1 KE

[°C] F2 FK2 KC[°C] R3

SERIES

0 1,000 1,000 0,0 1,000 1,000 0,0 1,000FOCS3-W

1,80 x 10-5 1,000 1,000 0,0 1,000 1,000 0,0 1,000FOCS3-W

4,40 x 10-5 1,000 1,000 0,0 0,998 1,010 0,3 0,990FOCS3-W

8,80 x 10-5 0,970 0,998 0,5 0,995 1,015 0,5 0,980FOCS3-W

13,20 x 10-5 0,960 0,994 0,8 0,992 1,023 1,0 0,964FOCS3-W

17,20 x 10-5 0,950 0,990 1,0 0,990 1,030 1,5 0,950FOCS3-W

ff: fouling factorsF1 - F2: potential correction factorsFK1 - FK2: compressor power input correction factorsR3: capacity correction factorsKE: minimum evaporator outlet temperature increaseKC: maximum condenser outlet temperature decrease


7.1 HYDRAULIC DATA[ SI System ]

Water flow and pressure dropWater flow in the plant (side) exchanger is given by:Q=P/(4,186 x Dt)Q: water flow (l/s)Dt: difference between inlet and outlet water temp. (°C)P: heat exchanger capacity (kW)

Pressure drop is given by:Dp= K x (3,6 x Q)^2/1000Q: water flow (l/s)Dp: pressure drop (kPa)K: unit size ratio

HEAT EXCHANGER USER SIDE HEAT EXCHANGER SOURCESIDE

K Q minl/s

Q maxl/s

C.A.S.l

C.a. minl K [1]

Q min[2]l/s

Q maxl/s

C.A.S.l

SIZEPowersupplyV/ph/Hz

FOCS3-W /0551 400/3/50 40,0 4,72 13,9 25,0 940 38,7 4,17 13,1 30,0

FOCS3-W /0701 400/3/50 26,3 5,83 17,2 32,0 1250 22,2 5,56 17,5 40,0

FOCS3-W /0851 400/3/50 17,7 6,94 21,1 40,0 1530 14,5 6,94 21,9 40,0

FOCS3-W /0951 400/3/50 15,5 7,50 22,8 40,0 1690 12,5 7,50 23,6 50,0

FOCS3-W /1101 400/3/50 12,1 8,61 25,8 50,0 1920 9,49 8,61 27,5 60,0

FOCS3-W /1301 400/3/50 7,57 11,9 34,4 67,0 2300 6,29 11,4 35,6 73,0

FOCS3-W /1401 400/3/50 4,90 13,9 39,4 80,0 2620 3,95 13,1 41,1 80,0

FOCS3-W /1651 400/3/50 4,90 15,6 44,2 90,0 2960 3,87 14,7 46,1 90,0

FOCS3-W /1901 400/3/50 3,05 17,5 50,0 100 3410 3,14 14,7 46,1 90,0

FOCS3-W /2101 400/3/50 2,62 18,9 53,9 110 3710 2,01 18,3 57,8 120

FOCS3-W /2501 400/3/50 2,06 21,4 60,8 120 4190 1,66 20,3 63,6 130

FOCS3-W /2602 400/3/50 1,61 23,3 66,9 190 3210 1,28 22,8 71,1 210

FOCS3-W /3002 400/3/50 1,54 26,4 75,8 220 3720 1,17 25,8 81,1 240

FOCS3-W /3152 400/3/50 0,97 30,3 86,4 250 3990 0,60 33,3 104 300

FOCS3-W /3502 400/3/50 1,17 30,3 86,4 250 4260 0,93 29,4 91,9 270

FOCS3-W /3652 400/3/50 0,79 33,3 95,8 280 4560 0,49 36,9 115 240

FOCS3-W /4002 400/3/50 0,89 33,3 95,8 280 4840 0,68 33,3 104 300

FOCS3-W /4102 400/3/50 0,75 36,9 106 300 5150 0,58 36,9 115 340

FOCS3-W /4502 400/3/50 0,75 36,9 106 300 5330 0,58 36,9 115 340

FOCS3-W /4602 400/3/50 0,55 40,3 115 330 5650 0,50 40,0 125 450

FOCS3-W /4752 400/3/50 0,55 40,3 115 330 5930 0,50 40,0 125 450

The coefficient “K” on the source side heat exchanger is referred to its standart selection. When it’s required to move to an higher number of steps water side (with delta T >=10°C), “K”coefficient as to be multiplied for 8,5 (Knew = K x 8,5)Q min: minimum water flow admitted to the heat exchangerQ min [2]: minimum water flow admitted to the heat exchangerQ max: maximum water flow admitted to the heat exchangerC.a. min: minimum water content admitted in the plantC.A.S.: Exchanger water content

FOCS3-W


8.1 ELECTRICAL DATA[ SI System ]

Maximum values

Compressor Total (1)

n F.L.I.[kW]

F.L.A.[A]

L.R.A.[A]

F.L.I.[kW]

F.L.A.[A]

S.A.[A]


FOCS3-W

0551 400/3/50 1 1x50.9 1x84.4 1x267 8450,9 267

0701 400/3/50 1 1x66.3 1x109 1x350 10966,3 350

0851 400/3/50 1 1x80.9 1x130 1x246 13080,9 246

0951 400/3/50 1 1x89 1x147 1x300 14789,0 300

1101 400/3/50 1 1x101 1x168 1x360 168101 360

1301 400/3/50 1 1x122 1x197 1x318 197122 318

1401 400/3/50 1 1x138 1x223 1x436 223138 436

1651 400/3/50 1 1x155 1x247 1x465 247155 465

1901 400/3/50 1 1x175 1x286 1x586 286175 586

2101 400/3/50 1 1x196 1x318 1x650 318196 650

2501 400/3/50 1 1x216 1x351 1x805 351216 805

2602 400/3/50 2 2X122 2x197 2x318 394244 444

3002 400/3/50 2 2X138 2x223 2x436 446276 579

3152 400/3/50 2 1x138+1x155 1x223+1x247 1x436+1x465 470293 608

3502 400/3/50 2 2X155 2x247 2x465 494310 612

3652 400/3/50 2 1x155+1x175 1x247+1x286 1x465+1x586 533330 733

4002 400/3/50 2 2X175 2x286 2x586 572350 761

4102 400/3/50 2 1x175+1x196 1x286+1x318 1x586+1x650 604371 825

4502 400/3/50 2 2X196 2x318 2x650 636392 860

4602 400/3/50 2 1x196+1x216 1x318+1x351 1x650+1x805 669412 1015

4752 400/3/50 2 2X216 2x351 2x805 702432 1025

F.L.I.: Full load powerF.L.A.:Full load currentL.R.A.:Locked rotor amperes for single compressorS.A.: Inrush current

(1) Safety values to be considered when cabling the unit for power supply and line-protections

Electrical data valid for standard units without any additional option

Plant (side) cooling exchanger water (in/out) 12,0°C/7,0°C; Source (side) heat exchanger water (in/out) 30,0°C/35,0°C.

Voltage tolerance: 10%Maximum voltage unbalance: 3%

Given the typical operating conditions of units designed for indoor installation, which can be associated (according to reference document IEC 60721) to the following classes:- climatic conditions class AA4: air temperature range from 5 up to 42°C (*)- special climatic conditions negligible- presence of water class AD2: possibility of water dripping inside the technical room- biological conditions class 4B1 and 4C2: negligible presence of corrosive and polluting substances- mechanically active substances class 4S2: locations in areas with sand or dust sources

The required protection level for safe operation, according to reference document IEC 60529, is IP21 BW (protection against access of external devices with diameter larger than 12 mm andwater falling vertically).The unit can be considered IP21 CW protected, thus fulfilling the above operating conditions.

(*) for the unit’s operating limits, see “selection limits” section


ELECTRICAL DATA[ SI System ]

Maximum values

Compressor Total (1)

n F.L.I.[kW]

F.L.A.[A]

L.R.A.[A]

F.L.I.[kW]

F.L.A.[A]

S.A.[A]


FOCS3-W + KIT HWT

0551 400/3/50 1 1x56.5 1x93.7 1x290 9456,5 290

0701 400/3/50 1 1x73.6 1x121 1x423 12173,6 423

0851 400/3/50 1 1x89.8 1x145 1x300 14589,8 300

0951 400/3/50 1 1x98.8 1x164 1x360 16498,8 360

1101 400/3/50 1 1x113 1x187 1x404 187113 404

1301 400/3/50 1 1x136 1x219 1x436 219136 436

1401 400/3/50 1 1x154 1x248 1x465 248154 465

1651 400/3/50 1 1x173 1x275 1x586 275173 586

1901 400/3/50 1 1x195 1x318 1x650 318195 650

2101 400/3/50 1 1x218 1x353 1x805 353218 805

2501 400/3/50 1 1x240 1x390 1x917 390240 917

2602 400/3/50 2 2X136 2x219 2x436 438272 571

3002 400/3/50 2 2X154 2x248 2x465 496308 619

3152 400/3/50 2 1x154+1x173 1x248+1x275 1x465+1x586 523327 740

3502 400/3/50 2 2X173 2x275 2x586 550346 744

3652 400/3/50 2 1x173+1x195 1x275+1x318 1x586+1x650 593368 808

4002 400/3/50 2 2X195 2x318 2x650 636390 838

4102 400/3/50 2 1x195+1x218 1x318+1x353 1x650+1x805 671413 993

4502 400/3/50 2 2X218 2x353 2x805 706436 1030

4602 400/3/50 2 1x218+1x240 1x353+1x390 1x805+1x917 743458 1142

4752 400/3/50 2 2X240 2x390 2x917 780480 1153

F.L.I.: Full load powerF.L.A.:Full load currentL.R.A.:Locked rotor amperes for single compressorS.A.: Inrush current

(1) Safety values to be considered when cabling the unit for power supply and line-protections

Electrical data valid for standard units without any additional option

Plant (side) cooling exchanger water (in/out) 12,0°C/7,0°C; Source (side) heat exchanger water (in/out) 30,0°C/35,0°C.

Voltage tolerance: 10%Maximum voltage unbalance: 3%

Given the typical operating conditions of units designed for indoor installation, which can be associated (according to reference document IEC 60721) to the following classes:- climatic conditions class AA4: air temperature range from 5 up to 42°C (*)- special climatic conditions negligible- presence of water class AD2: possibility of water dripping inside the technical room- biological conditions class 4B1 and 4C2: negligible presence of corrosive and polluting substances- mechanically active substances class 4S2: locations in areas with sand or dust sources

The required protection level for safe operation, according to reference document IEC 60529, is IP21 BW (protection against access of external devices with diameter larger than 12 mm andwater falling vertically).The unit can be considered IP21 CW protected, thus fulfilling the above operating conditions.

(*) for the unit’s operating limits, see “selection limits” section

SIZE

MAXIMUMCABLE SECTION CONNECTED TO

MAIN SWITCH [mm2]

MAXIMUMBAR SECTION

CONNECTED TO MAIN SWITCH

[mm2]

ICW (0.25 s) short time

current rms[kA]

0551

120 20 x 5

100701

0851

150951

1101

1301

1401

2 x 150 2 x 25 x 5

25

1651

1901

2101

2501

2602

2 x 185 2 x 32 x 6

3002

3152

27

3502

3652

4002

min 2 x 185 max 2 x 300

min 2 x 40 x 5 max 2 x 63 x 54102

4502

4602 min 2 x 240 max 2x 400

min 2 x 50 x 5 max 2 x 63 x 5 50

4752

8.2 Maximum cables/bars section connected to main switch and short time current


ELECTRICAL DATA


9.1 FULL LOAD SOUND LEVEL

SOUND POWER

Octave band [Hz]

63 125 250 500 1000 2000 4000 8000SIZETotal sound

leveldB(A)Sound power level dB

FOCS3-W

0551 73 76 91 90 92 87 81 71 95

0701 73 76 91 90 92 87 81 71 95

0851 82 79 90 94 97 85 73 67 98

0951 82 79 90 94 97 85 73 67 98

1101 82 79 90 94 97 85 73 67 98

1301 82 79 90 94 97 85 74 68 98

1401 82 79 90 94 97 85 74 68 98

1651 82 79 90 94 97 85 74 68 98

1901 82 79 90 94 97 85 74 68 98

2101 84 81 91 96 99 87 76 70 100

2501 84 81 91 96 99 87 76 70 100

2602 84 81 91 96 99 87 76 70 100

3002 84 81 91 96 99 87 76 70 100

3152 84 81 91 96 99 87 76 70 100

3502 84 81 91 96 99 87 76 70 100

3652 84 81 91 96 99 87 76 70 100

4002 84 81 91 96 99 87 76 70 100

4102 84 82 93 97 100 88 77 71 101

4502 85 83 94 98 101 90 78 71 102

4602 85 83 94 98 101 90 78 71 102

4752 85 83 94 98 101 90 78 71 102

Working conditionsPlant (side) cooling exchanger water (in/out) 12,0°C/7,0°C; Source (side) heat exchanger water (in/out) 30,0°C/35,0°C.Sound power on the basis of measurements made in compliance with ISO 9614.Such certification refers specifically to the sound Power Level in dB(A). This is therefore the only acoustic data to be considered as binding.Sound power level in cooling, indoors.

SOUND PRESSURE LEVEL

Octave band [Hz]

63 125 250 500 1000 2000 4000 8000SIZETotal sound

leveldB(A)Sound pressure level dB

FOCS3-W

0551 55 58 73 72 74 69 63 53 77

0701 55 58 73 72 74 69 63 53 77

0851 64 61 72 76 79 67 55 49 80

0951 64 61 72 76 79 67 55 49 80

1101 64 61 72 76 79 67 55 49 80

1301 64 61 72 76 79 67 56 50 80

1401 64 61 72 76 79 67 56 50 80

1651 64 61 72 76 79 67 56 50 80

1901 64 61 72 76 79 67 56 50 80

2101 66 63 73 78 81 69 58 52 82

2501 66 63 73 78 81 69 58 52 82

2602 65 62 72 77 80 68 57 51 81

3002 65 62 72 77 80 68 57 51 81

3152 65 62 72 77 80 68 57 51 81

3502 65 62 72 77 80 68 57 51 81

3652 65 62 72 77 80 68 57 51 81

Working conditionsPlant (side) cooling exchanger water (in/out) 12,0°C/7,0°C; Source (side) heat exchanger water (in/out) 30,0°C/35,0°C.Average sound pressure level at 1m distance, unit in a free field on a reflective surface; non-binding value calculated from the sound power level.


FULL LOAD SOUND LEVEL

SOUND PRESSURE LEVEL

Octave band [Hz]

63 125 250 500 1000 2000 4000 8000SIZETotal sound

leveldB(A)Sound pressure level dB

FOCS3-W

4002 65 62 72 77 80 68 57 51 81

4102 65 63 74 78 81 69 58 52 82

4502 65 63 74 78 81 70 58 51 82

4602 65 63 74 78 81 70 58 51 82

4752 65 63 74 78 81 70 58 51 82

Working conditionsPlant (side) cooling exchanger water (in/out) 12,0°C/7,0°C; Source (side) heat exchanger water (in/out) 30,0°C/35,0°C.Average sound pressure level at 1m distance, unit in a free field on a reflective surface; non-binding value calculated from the sound power level.


10.1 DIMENSIONAL DRAWINGS

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FOCS3-W 0551 - 4752


[ SI System ]DIMENSIONAL DRAWINGS

DIMENSIONS ANDWEIGHTS CLEARANCE HEAT EXCHANGER

USER SIDEHEAT EXCHANGER

SOURCE SIDE

A B H WEIGHT R1 R2 R3 R4 IN/OUT IN/OUT

[mm] [mm] [mm] [kg] [mm] [mm] [mm] [mm] TYPE Ø TYPE Ø

SIZE

FOCS3-W 0551 - 4752

FOCS3-W /0551 2920 1180 1870 1900 1000 2500 900 500 3" 3"

FOCS3-W /0701 2920 1180 1870 1960 1000 2500 900 500 3" 3"

FOCS3-W /0851 2920 1180 1870 2320 1000 2500 900 500 3" 3"

FOCS3-W /0951 2920 1180 1870 2350 1000 2500 900 500 3" 3"

FOCS3-W /1101 2920 1180 1870 2450 1000 2500 900 500 3" 3"

FOCS3-W /1301 2900 1180 1960 3080 1000 2500 900 500 4" 4"

FOCS3-W /1401 2900 1180 1970 3250 1000 2500 900 500 4" 4"

FOCS3-W /1651 2900 1180 1960 3280 1000 2500 900 500 4" 4"

FOCS3-W /1901 2930 1180 2050 3400 1000 2500 900 500 5" 4"

FOCS3-W /2101 2980 1190 2100 3650 1000 2500 900 500 5" 5"

FOCS3-W /2501 2990 1280 2200 3980 1000 2500 900 500 6" 6"

FOCS3-W /0551* 2920 1180 1870 1900 1000 2500 900 500 3" 3"

FOCS3-W /0701* 2920 1180 1870 1960 1000 2500 900 500 3" 3"

FOCS3-W /0851* 2920 1180 1870 2320 1000 2500 900 500 3" 3"

FOCS3-W /0951* 2920 1180 1870 2350 1000 2500 900 500 3" 3"

FOCS3-W /1101* 2920 1180 1870 2450 1000 2500 900 500 3" 3"

FOCS3-W /1301* 2900 1180 1960 3080 1000 2500 900 500 4" 4"

FOCS3-W /1401* 2900 1180 1970 3250 1000 2500 900 500 4" 4"

FOCS3-W /1651* 2900 1180 1960 3300 1000 2500 900 500 4" 4"

FOCS3-W /1901* 2930 1180 2050 3410 1000 2500 900 500 5" 4"

FOCS3-W /2101* 2980 1190 2100 3670 1000 2500 900 500 5" 5"

FOCS3-W /2501* 2990 1280 2200 4000 1000 2500 900 500 6" 6"

[ * ] - Unit with KIT HWT accessory

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DIMENSIONAL DRAWINGS

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FOCS3-W 0551 - 4752


[ SI System ]DIMENSIONAL DRAWINGS

DIMENSIONS ANDWEIGHTS CLEARANCE HEAT EXCHANGER

USER SIDEHEAT EXCHANGER

SOURCE SIDE

A B H WEIGHT R1 R2 R3 R4 IN/OUT IN/OUT

[mm] [mm] [mm] [kg] [mm] [mm] [mm] [mm] TYPE Ø TYPE Ø

SIZE

FOCS3-W 0551 - 4752

FOCS3-W /2602 4430 1270 2210 6150 1000 4000 900 500 6" 6"

FOCS3-W /3002 4430 1270 2210 6500 1000 4000 900 500 6" 6"

FOCS3-W /3152 4440 1270 2280 7100 1000 4000 900 500 6" 6"

FOCS3-W /3502 4470 1270 2250 7070 1000 4000 900 500 6" 6"

FOCS3-W /3652 4470 1320 2330 7500 1000 4000 900 500 6" 8"

FOCS3-W /4002 4470 1270 2280 7300 1000 4000 900 500 6" 6"

FOCS3-W /4102 4565 1320 2380 7760 1000 4000 900 500 8" 8"

FOCS3-W /4502 4650 1320 2380 7820 1000 4000 900 500 8" 8"

FOCS3-W /4602 5270 1320 2380 8360 1000 4000 900 500 8" 8"

FOCS3-W /4752 5270 1320 2380 8360 1000 4000 900 500 8" 8"

FOCS3-W /2602* 4430 1270 2210 6150 1000 4000 900 500 6" 6"

FOCS3-W /3002* 4430 1270 2210 6500 1000 4000 900 500 6" 6"

FOCS3-W /3152* 4440 1270 2280 7120 1000 4000 900 500 6" 6"

FOCS3-W /3502* 4470 1270 2250 7110 1000 4000 900 500 6" 6"

FOCS3-W /3652* 4470 1320 2330 7530 1000 4000 900 500 6" 8"

FOCS3-W /4002* 4470 1270 2280 7320 1000 4000 900 500 6" 6"

FOCS3-W /4102* 4565 1320 2380 7790 1000 4000 900 500 8" 8"

FOCS3-W /4502* 4650 1320 2380 7860 1000 4000 900 500 8" 8"

FOCS3-W /4602* 5270 1320 2380 8400 1000 4000 900 500 8" 8"

FOCS3-W /4752* 5270 1320 2380 8400 1000 4000 900 500 8" 8"

[ * ] - Unit with KIT HWT accessory

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FOCS3-W 0551 - 4752DIMENSIONAL DRAWINGS

LEGEND OF PIPE CONNECTIONS

UNI ISO 228/1Pipe threads where pressure-tight joints are not made on the threads - Designation, dimensions and tolerancesUsed terminology:G: Pipe threads where pressure-tight joints are not made on the threadsA: Close tolerance class for external pipe threads where pressure-tight joints are not made on the threadsB: Wider tolerance class for external pipe threads where pressure-tight joints are not made on the threadsInternal threads: G letter followed by thread mark (only tolerance class)External threads: G letter followed by thread mark and by A letter for A class external threads or by B letter for B class external threads.

UNI EN 10226-1Pipe threads where pressure-tight joints are made on the threads - Designation, dimensions and tolerancesUsed terminology:Rp: Internal cylindrical threads where pressure-tight joints are made on the threadsRc: Internal conical threads where pressure-tight joints are made on the threadsR: External conical threads where pressure-tight joints are made on the threadsInternal cylindrical threads: R letter followed by p letterInternal conical threads: R letter followed by c letterExternal conical threads: R letter

Designation Description

Internal cylindrical threads where pressure-tight joints are made on the threads, defined by standardUNI ISO 7/1Conventional ø 1 1/2”

UNI EN 10226-1 - Rp 1 1/2

Internal cylindrical threads where pressure-tight joints are made on the threads, defined by standardUNI ISO 7/1Conventional ø 2 1/2”

UNI EN 10226-1 - Rp 2 1/2

Internal cylindrical threads where pressure-tight joints are made on the threads, defined by standardUNI ISO 7/1Conventional ø 3”

UNI EN 10226-1 - Rp 3

External conical threads where pressure-tight joints are made on the threads, defined by standardUNI ISO 7/1Conventional ø 3”

UNI EN 10226-1 - R 3

Internal cylindrical threads where pressure-tight joints are not made on the threads, defined by standard UNI ISO 228/1Tolerance class B for external threadConventional ø 4”

UNI ISO 228/1 - G 4 B

Flange Nominal Diameter: 80 mmNominal Pressure: 16 barDN 80 PN 16

Notes:Conventional diameter value [in inches] identifies short thread designation, based upon the relative standard.All relative values are defined by standards.As example, here below some values:

UNI EN 10226-1 UNI ISO 228/1

Conventional ø 1" 1"

Pitch 2.309 mm 2.309 mm

External ø 33.249 mm 33.249 mm

Core ø 30.291 mm 30.291 mm

Thread height 1.479 mm 1.479 mm

TYPE = HGrooved coupling with weld end counter-pipe user side

A1 FOCS3-W_0551_4752_201609_EN HFC R134a

11.1 VARIABLE FLOW HYDRAULIC GROUP (optional)

11.2 VPF systems for plants designed with a single variable flow hydraulic circuit

The energy consumption associated with fluid circulation weighs heavily on the total operating costs of a large installation, especially when the units work at part load, and even more, when they are in stand-by. Under these conditions, although the power absorbed by the compressors and fans is reduced, the power consumed for water circulation remains high. The system power consumption can be reduced using pumps with continuous flow control by inverter. Energy savings are considerable and immediately evident, to the extent that a Δx reduction of the flow of water to be delivered to the system, amounts to a proportional reduction of (Δx)3 in the power absorbed. In the most advanced systems these ones become the pumps for the entire hydraulic circuit, and this eliminates the need to detach the primary circuit, dedicated to the circulation of the water on the units side, from the secondary one, dedicated to water circulation throughout the entire system. In traditional systems it was the only choice possible and imposed mostly by the need for the chiller to work with constant water flow through the evaporator. Now designers can work without worrying about this limit, as Climaveneta units are designed to work with the maximum efficiency even with variable flow through the evaporator, managing the resources independently, in order to keep the outlet water temperature constantly at the set-point entered by the user. This simplifies the design and realization of variable flow systems and offers advantages in terms of both reductions in consumption and hydraulic circuit sizing. The integration of pumps + inverters built-in the unit permits significant savings in space, circuit components, and system start-up times.

The VPF (Variable Primary Flow system) is the Climaveneta solution that allows to have the variable water flow on the user side (evaporator) in the plants with primary circuit only.

The VPF kit includes the following devices:- control device (called DP3 in the herebelow scheme), mounted

on the electrical panel, and pressure differential transducer (with 4-20 mA signal), mounted on the heat exchanger user side

- control device (called PL3 in the herebelow scheme), positioned inside the elettrical panel

- 0-10V signals for the communication between the pumps and the controller of the unit (W3000TE)

To these ones it’s mandatory to add (not supplied by Climaveneta):- pressure transducer on plant side, with the dedicated signal

4-20 mA for the communication with the PL3 device (this transducer must be installed on the longest (worst) leg of the installation)

- 2 way by-pass valve, with a dedicated 0-10V signal for the communication with the PL3 device

- inverter pumps

When the plant includes more units connected together with a management system (Manager 3000), it’s mandatory to order also the option 3030 “VPF control from Manager 3000”, in order to have the installation of the PL3 device inside the Manager itself and not in the electrical panel of each unit.

CHILLER CONTROL PANEL

DP3 PL3

P

Diff. press. Transducer

acrossEvaporator

(factory fitted)

Diff. press. Transducer plant side(by others)

Inverter pump(by others)

2-way by-pass valve

4-20 mA 0-10 VAlarm on/off 0-10 V 4-20 mA

P

W3000TE controller

A2 FOCS3-W_0551_4752_201609_EN HFC R134a

How it works

The VPF option measures the differential pressure across the installation in order to keep it between a minimum and a maximum value programmed in the PL3 device. As long as the measured value remains inside this range, the output signal to the pumps remains the same. On the other side when the measured value is bigger than the maximum programmed, the signal to the pumps is decreased, and in case the measured value results smaller than the minimum programmed, the signal to the pumps is increased. In any case the change of signal is performed through step by step adjustments and monitoring constantly the effects in order to avoid rough changes and guaranteeing the return of the measured value inside the programmed range as much quickly as possible.

In case the differential pressure requires a water flow smaller than the minimum necessary for the heat exchanger, the DP3 device communicates with the controller in the meantime that the PL3 send to the by-pass valve the signal to open gradually in order to protect the chiller.

When the plant includes more units, the working logic remains the same. The PL3 device, installed in the Manager, collects the information from the pressure transducer mounted in the plant (in common for all the units) and communicates with the by-pass valve (this one too in common for all the units), while the differential transducer mounted on each evaporator, the related DP3 device and the management of the pumps+inverters are duty of the W3000 of each unit.

Eva

pora

tor

Chiller

Variable flow

pump

BUFFER TANK

Flow balancing valve

Bypass

p installation

Load 2

Load 1

Load 4

Load 3

A3 FOCS3-W_0551_4752_201609_EN HFC R134a

11.3 VPF.D systems for plants designed with both primary circuit and secondary one with variable flow

Also in those cases when it’s not possible to design a single circuit with variable flow or when it’s necessary to maintain decoupled the primary circuit (dedicated to the chillers) and the secondary one (dedicated to the plant users), it’s possible to have the management of the pumps and inverters directly from the unit.The energy savings are lower than the solution with a unique VPF system, but still important especially when the units are in stand-by, as in this case it’s possible to reduce down to 50% the water flow. These systems can be easily adopted in retrofit application, where the chiller is supposed to be replaced but the plant isn’t.The Climaveneta solution guarantees also the water flow balancing between primary and secondary circuit, in order to avoid the flow inversion in the decoupling pipe.

The VPF.D system (Variable Primary Flow with Decoupler) is the option that allows to have variable water flow on the user side exchanger (evaporator) in plants with both primary and secondary circuits and additional pumps on the user side.

The VPF.D option includes:- control device (PL3 in the herebelow scheme), mounted in the

electrical panel - 2 temperature probes, provided by Climaveneta but installed

by the client in the plant, one for the delivery line and one for the by-pass line

- 0-10V signals for the communication between the pumps and the controller of the unit (W3000TE)

Pumps and related inverters are to be provided and installed by others.

When the plant includes more units connected together with a management system (Manager 3000), it’s mandatory to order also the option 3030 “VPF control from Manager 3000”, in order to have the installation of the PL3 device inside the Manager itself and not in the electrical panel of each unit.

CHILLER CONTROL PANEL

PL3

Inverter pump (by others)

Temperature sensor common supply line (supplied by CV for

installation by others)

0-10 VAllarme on/off

T2T1

Temperature sensor in the by-pass line

(supplied by CV for installation by others)

W3000TE controller

A4 FOCS3-W_0551_4752_201609_EN HFC R134a

How it works

The VPF. D measures, thorugh the two probes installed, the temperatures T1 and T2 (on the delivery and by-pass lines), keeping T2=T1 as control target.As long as T1=T2, the water flow in the primary circuit is equal or higher than in the secondary one. When T2>T1, the water flow in the primary circuit becomes lower than the flow in the secondary circuit, leading to recirculation of warm water coming back from the installation and mixing with the cold supply water.

In order to rebalance this situation the speed of the pumps is being increased gradually in order to let the temperature T1 be again equal to T2.The target of the VPF.D is then to keep constant the ΔT in the primary circuit. The secondary circuit remains completely independent and so has to be managed and controlled by the customer side.The minimum water flow through the user side exchanger is guaranteed by a fixed setting for the minimum speed of the pumps (inside the service menu of the unit controller).

When the plant includes more units, the working logic remains the same. The PL3 device, installed in the Manager, collect the information about temperatures T1 and T2, while the W3000 of each unit takes care of the speed of the pumps, according to the signal sent from the Manager. The Manager itself takes care also that the pumps of each chiller work at the same speed and that, when an additional unit is switched on, the speed of the already running pumps is automatically aligned.

T1

T2

Load 2

Load 1

Load 2

Load 1

Zone 1 Zone 2

DecouplerDESCRIPTION

Manifold supply

Manifold return

Eva

pora

tor

Chiller

Variable flow

pump

Variable flow

pump

Variable flow

pump

BUFFER TANK

A5 FOCS3-W_0551_4752_201609_EN HFC R134a

11.4 For VPF system: indications for the bypass pipe sizing Differential pressure transducer on the farest pipe of the plant and by-pass valve are at customer charge. Climaveneta provides only some indications for the plants de-sign, as a function of the minimum waterfl ow on the primary heat exchanger.

11.5 For VPF.D system: indications for the decoupling pipe sizing Climaveneta provides in the table below some indications for the plants design, as a function of the nominal waterfl ow on the primary heat exchanger.NOTE: temperature probes are separately supplied

Minimum waterfl ow to technical bulletin

[m3/h]

Kvs Recommended valveValve Valve motor

ByPass

Da 19 a 30 40 VVG41.50 DN50 SKB60 DN50 (2”)fi no a 37 49 VVF31.65 DN65 SKB60 DN65 (2"½)fi no a 60 78 VVF31.80 DN80 SKB60 DN80 (3“)fi no a 95 124 VVF31.90 DN100 SKC60 DN100 (4“)fi no a 150 200 VVF31.91 DN125 SKC60 DN125 (5“)fi no a 230 300 VVF31.92 DN150 SKC60 DN150 (6”)

2-way valve and minimum recommended bypass pipe diameter as a function of the minimum waterfl ow.

Minimum waterfl ow to technical bulletin

[m3/h]

Decoupling pipe

Da 25 a 40 2"½fi no a 60 3"fi no a 100 4"fi no a 150 5"fi no a 225 6"fi no a 375 8"

Minimum decoupling pipe diameter as a function of the minimum waterfl ow

B1 FOCS3-W_0551_4752_201609_EN HFC R134a

12.1 CONDENSATION CONTROL DEVICES

In the chart below:Line (A): curve of the pressostatic valve for units FOCS3-W 0551, 0701, 0851Line (B): curve of the pressostatic valve for units FOCS3-W 0951, 1101, 1301Line (C): curve of the pressostatic valve for units FOCS3-W 1401, 1651, 1901, 2101Line (D): curve of the pressostatic valve for units FOCS3-W 2501.

12.2 Pressostatic valve

Pressostatic valve with steel body.

It provides a modulating control of the water flow as a function of the condensing pressure, keeping it constant during the operation time. When the unit is switched off, the water flow automatically stops. The valve is selected for a Delta T of 10°C (12/7 °C e 15/25°C), factory mounted and tested by Climaveneta during the end of line test of the unit.

It’s recommended for applications with low temperature water, in which the condensation pressure control is required and it’s possible to work with variable water flow on the source side.

10

100

1000

1 10 100

Pres

sure

dro

p [k

Pa]

Water flow [l/s]

PRESSOSTATIC

A

B

C

D

A B C D

B2 FOCS3-W_0551_4752_201609_EN HFC R134a

12.3 2Way valve

Two way servo-motorized valve with steel body.

The valve is selected for a Delta T of 10°C (12/7 °C e 15/25°C), factory mounted and tested by Climaveneta during the end of line test of the unit.

10

100

1.000

1 10 100

Pres

sure

dro

p [k

Pa]

Water flow [l/s]

2-WAY

A

B

C

D

E

F

G

H

A B C D E F G H

In the chart below:Line (A): curve of the 2-way valve for units FOCS3-W 0551 Line (B): curve of the 2-way valve for units FOCS3-W 0551-0701Line (C): curve of the 2-way valve for units FOCS3-W 0551-1101Line (D): curve of the 2-way valve for units FOCS3-W 0551-1901Line (E): curve of the 2-way valve for units FOCS3-W 0851-3002Line (F): curve of the 2-way valve for units FOCS3-W 1301-4752Line (G): curve of the 2-way valve for units FOCS3-W 1651-4752Line (H): curve of the 2-way valve for units FOCS3-W 2602-4752.

It’s recommended in case of inverter pumps and water flow modulation.

2-way valve kvs DN Dp max Qmin Qmax Actuatortype [l/s] [kPa] [l/s] [l/s] type

A 4,4 32 300 2,8 4,4 0-10 V

B 6,9 40 300 4,4 6,9 0-10 V

C 11,1 50 300 6,9 11,1 0-10 V

D 17,5 65 300 11,1 17,5 0-10 V

E 27,8 80 300 17,5 27,8 0-10 V

F 44,4 100 300 27,8 44,4 0-10 V

G 63,9 125 300 40,3 63,9 0-10 V

H 100,0 150 300 63,9 100,0 0-10 V

B3 FOCS3-W_0551_4752_201609_EN HFC R134a

12.4 3Way valve

3 way modulating valve, steel made, with diverting function.

The valve is selected for a Delta T of 5°C (12/7 °C e 30/35°C) and supplied as a pare item (not factory mounted- maximum length for the connection cable 30m).

10

100

1.000

1 10 100 1.000

Pres

sure

dro

p [k

Pa]

Water flow [l/s]

3-WAY

A

B

C

D

E

F

G

A B C D E F G

In the chart below:Line (A): curve of the 3-way valve for units FOCS3-W 0551Line (B): curve of the 3-way valve for units FOCS3-W 0551-0951Line (C): curve of the 3-way valve for units FOCS3-W 0551-1301Line (D): curve of the 3-way valve for units FOCS3-W 0551-2101Line (E): curve of the 3-way valve for units FOCS3-W 0851-3002, 3502Line (F): curve of the 3-way valve for units FOCS3-W 1301-4752Line (G): curve of the 3-way valve for units FOCS3-W 2101-4752

It’s recommended for applications with geothermal probes, in which the water flow is required to be constant.

3-way valve kvs DN Qmin Qmax Actuatortype [l/s] [l/s] [l/s] type

A 6,9 40 3,3 5,0 0-10 V

B 11,1 50 5,0 7,8 0-10 V

C 17,5 65 7,8 12,5 0-10 V

D 27,8 80 12,5 20,0 0-10 V

E 44,4 100 20,0 31,1 0-10 V

F 69,4 125 31,1 50,0 0-10 V

G 111,1 150 50,0 79,2 0-10 V

Documents

FOCS3-W 0551 - 4752