Maximum reliability Energy “class A” efficiency

Extensive range of operation

Modular configuration Renewable energy for commercial installations

AWR_HT_0122_0302_201211_EN

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

Climaveneta Technical Bulletin

0122 - 0302 High temperature and high efficiency reversible heat pump,air source for outdoor installation 34 ÷ 118 kW

AWR-HT

This company participates in the Eurovent Certifi cation Programme. The products are listed

in the Directory of certifi ed products. The Eurovent certifi cate, for the applicable units,

refers to products with cooling capacity up to 600 kW, voluntarily extended up to 1500 kW, for

air-cooled models and water-cooled models.

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

AWR-HTSUMMARY

Waiver of liabilityThis publication represents a preliminary document, and is thesole property of Climaveneta. Any reproduction or disclosure ofsuch is strictly prohibited without the written authorisation of Cli-maveneta.This document has been prepared with maximum care andattention paid to the content shown. Nonetheless, Climavenetawaives all liability deriving from the use of such document.Read this document carefully.

All work must be performed, components selected and materi-als used professionally and in complete accordance with thelegislation in force in material in the country concerned, andconsidering the operating conditions and intended uses of thesystem, by qualified personnel.The data contained in this publication may be changed withoutprior notice.

HFC 407CAWR_HT_0122_03022

1. GENERAL DESCRIPTION p. 3

2. MODELS AND VERSIONS 4

3. ADVANTAGES OF THE HEAT PUMP 5

4. SPECIFICATIONS 7

5. CONTROL ELECTRONICS 9

6. ACCESSORIES 10

7. GENERAL TECHNICAL DATA 11

8. COOLING CAPACITY PERFORMANCE 15

9. HEAT PUMP CAPACITY PERFORMANCE 17

10. DESUPERHEATER CAPACITY PERFORMANCE 19

11. OPERATING LIMITS 21

12. ETHYLENE GLYCOL MIXTURE 23

13. FOULING FACTORS 23

14. HYDRAULIC DATA 24

15. HYDRONIC GROUP (Optional) 25

16. ELECTRICAL DATA 32

17. LFULL LOAD SOUND LEVEL 33

18. DIMENSIONAL DRAWINGS 34

19. LEGEND OF PIPE CONNECTIONS 35

AWR-HT

1. GENERAL DESCRIPTION

AWR-HT represent the best solution for systems in which thereis the need to combine both high temperature water for spaceheating and sanitary purposes, as well as air conditioning. Withthis solution the space heating can be easily provided by usingradiators, so without any major changes on the already existingdistribution system available on site. The EVI technology com-pressor with additional steam injection in the compressing cycleassures a water temperature of 65°C and operating limits aslow as -20°C. Neither probes nor connections pipes to wells areneeded; the installation is simple, this is a suitable solution forall applications.

ENERGY ´CLASS A’ EFFICIENCY

The full range is available with a premium efficiency rating, overthe Class A. AWR-HT/CA-E and AWR-HT/LN-CA-E guarantypremium levels of efficiency and quietness, making this rangethe best solution for both residential and light commercial mar-kets.

MAXIMUM RELIABILITY

AWR-HT offer maximum operating reliability, thanks to their twomain features:- two independent circuits for all sizes;- system to prevent formation of ice on the coil, ensuring short-

er and more efficient defrost cycles

EXTENSIVE RANGE OF OPERATION

Production of high temperature hot water up to 65°C for spaceheating and sanitary purposes. The unit can operate as stan-dard down to -20°C outdoor temperature.

RENEWABLE ENERGY FOR COMMERCIAL INSTALLA-

TIONS

Best solution in centralised residential systems such as apart-ment buildings, where the cost of renovation needs to be limitedby keeping the same distribution system with radiators, whileoffering a source of renewable energy.

MODULAR CONFIGURATION

Modular configuration with capacity extension up to 400kW formedium- and high-capacity installations. Ability of managing dif-ferent thermal loads according to the requirements of both heat-ing and the domestic hot water systems.

CHILLED WATER PRODUCTION ONLY

The unit operates as a simple chiller and transfers the excessheat from the inside environment (heat of condensation) to theair via a finned coil heat exchanger. The system water is cooled in a freon-water plate heatexchanger (evaporator).

HOT WATER PRODUCTION ONLY

The unit works as a heat pump that, by exploiting the heat ofthe source air via the finned coil heat exchanger, heats thewater delivered to the distribution system via a freon-water plateheat exchanger (condenser).

COMBINED PRODUCTION OF HOT AND CHILLED WATER

If the systems require simultaneous production of chilled waterand hot water for domestic use, the unit manages thechangeover in operating mode from chiller to heat pump anddeviates the flow of water to the two separate systems via athree way valve, based on the priority assigned.Changing the operating set point ensures the correct water pro-duction temperature for the different uses.Suitable storage tanks can be used for both chilled and hotwater to store the thermal energy produced for the systems,with consequent advantages in terms of running costs.

COMBINED PRODUCTION OF HOT WATER FOR HEATING

AND DOMESTIC USE

If the systems require simultaneous production of hot water forheating and for domestic use, the unit deviates the flow of waterto the two separate systems via a three way valve, based onthe priority assigned, changing the set point to ensure produc-tion of hot water with different temperatures based on the typeof use (heating or domestic).In this case too, storage tanks can be used to store the thermalenergy for the two systems, heating and domestic hot water,ensuring continuous operation by resolving the problem ofsimultaneous requests for hot water production.

AWR_HT_0122_0302 HFC 407C3

AWR-HT

4AWR_HT_0122_0302 HFC 407C

2. MODELS AND VERSIONS

AWR-HT/CA-E: high efficiency heat pump, reverse-cyclewith cooling operation

AWR-HT/LN-CA-E: low noise high efficiency heat pump,reverse-cycle with cooling operation

AWR-HT/D/CA-E: high efficiency heat pump, reverse-cyclewith cooling operation and partial heatrecovery

AWR-HT/D/LN-CA-E: low noise high efficiency heat pump,reverse-cycle with cooling operation andpartial heat recovery

AWR-HT: reverse-cycle heat pump with cooling operationReverse-cycle heat pump designed for outdoor installation pro-ducing chilled/hot water for the cooling/heating system and hotwater for domestic use, with vapour-injection EVI hermetic scrollcompressors operating on R407C, axial-flow fans, braze-weld-ed plate heat exchanger and thermostatic expansion valve.Peraluman external panelling and coated galvanised steelbase. The range features two compressors operating in twoseparate refrigerant circuits.

MODELS

Basic model

Standard reverse-cycle heat pump unit without heat recovery.

Model with partial heat recovery (D)

Reverse-cycle heat pump unit complete with partial heat recov-ery. In this configuration each refrigerant circuit, in addition tothe basic configuration, has a refrigerant/water heat exchangerlocated on the gas discharge line. This heat exchanger, placed in series downstream of the tradi-tional condenser in the refrigerant circuit, is suitably sized toensure heat recovery for hot water production at medium-hightemperatures, for domestic or other use. The heating capacity available is equal - as a rough approxima-tion - to compressor power consumption. Each heat exchanger is supplied as standard with frost protec-tion heater.Heat of condensation is recovered both during operation inheating mode and operation in cooling mode.

VERSIONS AVAILABLE

CA-E - Class A

High efficiency version that exceeds energy efficiency class A.

LN-CA-E - Low noise

High efficiency version in class A and low noise. This configuration features special soundproofing for the com-pressor compartments and a reduction in fan speed.Rotation speed is however automatically increased in especiallydemanding environmental conditions.

AWR-HT

AWR_HT_0122_0302 HFC 407C5

THE EVOLUTION OF ENERGY RESOURCES

Until now, the energy used to heat rooms and domestic water inresidential and service applications has accounted for a signifi-cant share of total energy consumption.This energy is almost entirely produced using fossil fuels,meaning high levels of atmospheric pollution and with harmfuleffects on the environment.Increasing environmental awareness, attention to the use ofrenewable sources and the drive to cut investments and operat-ing costs, together with the need to comply with increasingly

strict legislation, are factors that play an ever more importantrole in determining property values but also in the developmentpossibilities available.Heat pumps that exploit the heat of the earth or the air now rep-resent the best solution for heating rooms and producingdomestic hot water.

3. ADVANTAGES OF THE HEAT PUMP

SPREAD OFOIL-FIRED BOILERSFOR CENTRAL HEATING

SPREAD OFGAS-FIRED BOILERSREPLACINGTHE OLD OIL-FIREDBOILERS

SPREAD OFELECTRIC HEAT PUMPSIN RESIDENTIALAPPLICATIONS

NEED TO UPGRADESYSTEMS WITH RENEWABLEENERGY SOURCES FOR ALLRESIDENTIAL ANDCOMMERCIALENVIRONMENTS

High CO2 emissions due to theproduction, extraction and use offossil fuels

Reduction in CO2 emissions dueto the extraction and use of fossilfuels

Further reduction in CO2 emissions,only partly limited to the productionof electricity

Elimination of CO2 emissions,with electricity production derivingentirely from renewable sources

AWR-HT

6AWR_HT_0122_0302 HFC 407C

OPERATING RELIABILITY AND CONTINUITY

The new Climaveneta heat pumps offer maximum operatingreliability, thanks to their two main features:- two independent circuits for all sizes;- system to prevent formation of ice on the coil, ensuring short-

er and more efficient defrosts.

Indeed it should be remembered that a heat pump used to heatrooms has to operate at maximum capacity when the outsideconditions are most adverse.

Typical night-time peaks in energy production must thereforealways be ensured, regardless of the outside temperature andhumidity conditions that may not allow a traditional heat pumpto operate effectively.For this reason, the Climaveneta AWR-HT units are designedand tested to ensure continuous operation and guarantee maxi-mum indoor comfort in all weather conditions.

THE IMPORTANCE OF HEAT PUMPS

High temperature heat pumps are ideal for the renovation ofbuildings where gas- or oil-fired central heating boilers need tobe replaced, however with the need to retain the existing hotwater distribution system based on radiators and, at the sametime, provide domestic hot water.This situation is typical of contexts involving public buildings,such as schools and government offices, as well as in cen-tralised residential systems such as apartment buildings, wherethe cost of renovation needs to be limited by keeping the samedistribution system while at the same time offering a source ofrenewable energy, represented by the heat pump.Renovating a building without involving the distribution systemalso solves the inconvenience relating to the building work thatwould otherwise be needed, meaning the building can still beused and consequently saving time and money.

One further advantage is represented by the possibility to usejust one compact unit to manage the production of high temper-ature hot water for central heating and for domestic use, butalso chilled water for air-conditioning in summer.This function becomes essential in hotels where just one unitcan satisfy the requirements of all the systems, ensuring theenergy needs of the entire installation completely and efficiently.

For medium- and high-capacity installations, system capacitycan be extended to 400 kW using a modular configuration. Thistype of installation allows differentiated management of domes-tic water production so as to optimise the use of energyresources without waste, likewise differentiating heating capaci-ty from cooling capacity.

Its significant operating flexibility means high temperature heatpumps can be effectively used in the following applications:- centralised systems for apartments- public buildings- schools- hotels- hospitals and clinics- sports facilities and fitness centres

AWR-HT

AWR_HT_0122_0302 HFC 407C7

EXTENSION TO SERVICE AND COMMERCIAL APPLICATIONS

For medium- and high-capacity installations, system capacitycan be extended to 400 kW using a modular configuration toconnect up to four AWR-HT units.In this type of installation, domestic hot water production can, ifnecessary, be managed by just one of the units, installing athree-way valve in the water circuit that deviates the flow ofdomestic hot water to a special storage tank.This selector valve is managed directly by the AWR-HT unit,which decides when to open or close it based on the tempera-ture conditions measured directly in the systems (heat-ing/cooling and DHW).The system is completely managed by the ClimavenetaGR2000 sequencer, which can be used to define dynamicstandby conditions and priorities for unit activation.

An alarm signal is also available via a relay output. The LCD user interface displays the main variables relating tothe system and the units. Control can be based on proportional or proportional and inte-gral logic. The device is integrated perfectly into the unit, ensur-ing simultaneous activation of devices, optimising efficiency andstart-up current, and managing the pumps on the unit.An RS485 serial line is used for connection to the other systemdevices.

Below is an example of an installation with 4 AWR HT units fea-turing domestic water production in combination with the Cli-maveneta GR2000 sequencer.

8AWR_HT_0122_0302 HFC 407C

AWR-HT

DESCRIPTION

Reversible heat pump designed for outdoor installation produc-ing chilled and hot high-temperature water up to 65°C for cen-tral heating and domestic use, with vapour-injection EVI her-metic scroll compressors operating on R407C, axial-flow fans,braze-welded plate heat exchanger and thermostatic expansionvalve. Peraluman external panelling and coated galvanisedsteel base. Operating limit in summer mode: +40°C outdoortemperature. Operating limit in winter mode: -20°C outdoor tem-perature.

STRUCTURE

Specific structure for outdoor installation, with hot galvanizedsteel sheet base painted with polyester powder coat, perimeterframe made from aluminum section bars. Fan compartmentseparate from the compressor compartments. Specific alu-minum alloy paneling for outdoor installation, completely weath-erproof, easily removable, designed to allow total access tointernal components for inspection and maintenance (removalof front and side panels). Condensate collection and disposal system composed by dou-ble pan, insulated with closed-cell neoprene lagging and heatedby dedicated electrical heaters. Double nozzle for waterexpelling with a 1’1/4” diameter.Ventilation of compressor compartments.

REFRIGERANT CIRCUIT

Main components of the refrigerant circuit: - two separated and independent circuits with compressors

operating individually in each circuit - R407C refrigerant - mechanical thermostatic valves - filter dryer - liquid flow indicator with moisture gauge - high pressure safety valve - low pressure safety valve - high and low pressure transducers - high pressure safety switches - liquid receivers - 4-way reversing valves - plate heat exchanger on subcooling line - solenoid on liquid subcooling line

COMPRESSOR

Hermetic rotary scroll compressor with vapour injection, com-plete with sump heater, electronic thermal protector with cen-tralised manual reset, two-pole electric motor.

SYSTEM HEAT EXCHANGER

Braze welded AISI 316 steel plate heat exchanger. The heatexchangers are lined on the outside with closed-cell neoprenelagging. When the unit is not operating, these are protectedagainst formation of ice on the inside by an electric heater withthermostat, while when the unit is operating protection isensured by a differential pressure switch on the water side. Theunit can also operate with non-freezing mixes, down to heatexchanger outlet temperatures of -8°C.

SOURCE HEAT EXCHANGER

Finned coil heat exchanger made from copper tubes and suit-ably spaced aluminium fins to guarantee maximum heatexchange efficiency, including subcooling circuit located in thebottom section of the coil.

POWER AND CONTROL ELECTRICAL PANEL

Power and control electrical panel, built in compliance withEN60204-1/IEC 204-1 standards, complete with: - transformer for the control circuit, - main door interlock disconnect switch, - fuses and contactors for compressors and fans. - cumulative alarm terminals (BCA), - remote ON/OFF terminals, - spring terminal blocks for control circuits, - 3 way valve control terminals, - electrical panel for outdoor installation, with two doors and

seal gaskets, - electronic controllerUnit power supply voltage: 400V~ ±10% - 50 Hz - 3N.

SOURCE FAN COMPARTMENT

450 mm axial-flow fans with IP54 index of protection, externalimpeller, pressed metal blades, housed in aerodynamic tubes,complete with accident prevention grill. Six-pole electric motorwith integrated thermal protector. Fan compartment divided intotwo zones to allow independent air flow for each circuit. Differ-entiated ventilation control with fans on inactive circuit shutdown. Condenser managed by continuous control of fan rota-tion speed.

CERTIFICATION

Unit compliant with the following directives and amendments: - Machinery Directive 2006/42/EC. - EMC 89/336/EEC + 2004/108/EC. - Low Voltage Directive 2006/95/EC. - Pressure Equipment Directive 97/23/EC. Model A1. TÜV Italy - Eurovent certification according to the program LCP/A/P/R

TESTS

Checks performed throughout the entire manufacturing processaccording to the procedures specified by ISO 9001. Perfor-mance or noise emission tests can be conducted by highlyqualified technical personnel with the customer present. Performance test involve measuring: - electrical data - water flow-rates - operating temperature - power consumption - capacity delivered - pressure drop on the water-source heat exchanger at both full

load (in rated conditions and at the most critical conditions forthe condenser) and at part load.

During performance testing the main alarm conditions can alsobe simulated. Noise emission tests verify the unit’s sound power levelsaccording to ISO 3744.

4. SPECIFICATIONS

AWR_HT_0122_0302 HFC 407C9

AWR-HT

The W3000HP controller is the new device designed especiallyfor heat pump applications with incorporated logic for high tem-perature hot water production. The keypad features function controls and a complete LCD dis-play for viewing data and activating the unit, via a multilevelmenu, with settable display language.The controller provides temperature control for the heating andcooling systems in the air-conditioned rooms, as well as fordomestic hot water. These different temperatures are managed automatically basedon the different conditions in which the system operates, withthe possibility to assign specific levels of priority to domestic hotwater production, depending on the needs of the application.Diagnostics include complete alarm management, with “blackbox” functions (via PC) and alarm log (display or PC) for bestanalysis of unit behaviour.For systems made up of multiple units, differentiated devicemanagement means just a certain portion of the capacityinstalled can be dedicated to domestic water production, in thisway ensuring more efficient energy distribution and, at the sametime, guaranteeing simultaneous water delivery to the differentdistribution systems.The built-in clock can be used to create an operating profilecontaining up to 4 typical days and 10 time bands, essential forefficient programming of energy production, and fundamentalfor managing the Legionella prevention cycles.Defrosts use proprietary self-adaptive logic involving monitoringof multiple operating and climate parameters. This reduces the number and duration of defrosts, consequentlyincreasing overall energy efficiency.Supervision is available with different options, using proprietarydevices or by integration into third party systems using ModBus,BACnet, BACnet-over-IP and Echelon LonWorks protocols.A dedicated wall-mounted keypad can be used for remote con-trol of all the functions.

5. W3000HP CONTROL ELECTRONICS

10AWR_HT_0122_0302 HFC 407C

AWR-HT

6. ACCESSORIES

ACCESSORIES DESCRIPTION BENEFIT

Cu/Cu condensing coils Air-refrigerant heat exchanger with cop-per fins and tubes.

Recommended for applications in corrosiveatmospheres

Condensing coils with epoxy-coatedfins

Painted air-refrigerant heat exchanger. Recommended for applications in medium levelpollution atmospheres.

Condensing coils with Fin Guard Silvertreatment

Air-refrigerant heat exchanger withepoxidic treatment on coils and fins.

Recommended for marine exposure conditions,with an high level of pollution or other aggressiveatmospheres.

Soft start Electronic device adopted to managethe inrush current.

Break down of the inrush current as soon as theelectrical motor is switch on, lower motor'smechanical wear, favourable sizing for the electri-cal system.

Remote phase-sequence control Relay for controlling the phase-sequence of mains.

Protects loads against faults due to incorrect con-nection of the electric line.

Compressors' on/off signal Auxiliary contacts providing a voltage-free signal

Allows remote signalling of compressor's activa-tion or remote control of any auxiliary loads.

ModBUS connectivity Interface module for ModBUS protocols Allows integration with BMS operating with Mod-BUS protocol

BACnet connectivity Interface module for BACnet protocols Allows integration with BMS operating with BAC-net protocol

Echelon connectivity Interface module for Echelon systems Allows integration with BMS operating with Lon-Works procotls

HP and LP gauges High and low pressure gauges. Allows immediate reading of the pressure valueson both low and high pressure circuits.

Compressor suction valve Shut-off solenoid valve on compressor'ssuction circuit.

Simplifies maintenance activities

Compr. discharge line valve Shut-off solenoid valve on compressordischarge circuit

Simplifies maintenance activities.

Cond. coil protection net Coil protecting net Protects against the intrusion of solid bodies withmediumlarge dimensions.

Extra insulation for the compressorssection

Acoustic encolsure on both compressorand pump sections (when applicable)

Noise emission reduction

BACnet OVER-IP connectivity Interface module for BACnet OVER-IPprotocols (LN standard version)

Allows to interconnect BACnet devices over Inter-net Protocol within wide-area networks

Pressure relief valves Dual relief valve with manual divertingswitch

Allows to unselect a relief valve in order to servicethe unit avoiding medium or long inoperative peri-ods

Arrangement for 3 way on field Arrangement for a 3 way valve forremote installation for the production ofdomestic hot water

Allows to divert the water flow through the spaceheating system and the domestic hot water circuitaccording to the assigned priority level. The con-trol of the flow is based on the water temperaturedetected by a dedicated sensor placed on theDHW boiler. The unit comes standard without thebuilt in valve. The valve must be installed external-ly and can placed close to the DHW boiler, thussimplifying the water circuit.

With 3 way valve on board 3 way valve built-in installed for the pro-duction of domestic hot water

Allows to divert the water flow through the spaceheating system and the domestic hot water circuitaccording to the assigned priority level. The con-trol of flow is based on the water temperaturedetected by a dedicated sensor placed on theDHW boiler. The unit comes with the valve factorybuilt in. The actuator is installed into a dedicatedboard with an electrical heater, protected againstlow ambient temperature. The built in valve allowsto simplify the on-site installation operations.

AWR-HT 0122 - 030211

AWR-HT / CA-E7. GENERAL TECHNICAL DATA

APPLICATION HYDRONIC TERMINALAWR-HT / CA-E 0122 0152 0202 0262 0302Power supply V/ph/Hz 400/3/50+N 400/3/50+N 400/3/50+N 400/3/50+N 400/3/50+N

PERFORMANCECOOLING ONLY (GROSS VALUE)Cooling capacity (1) kW 34,1 43,8 60,3 76,4 91,7Total power input (1) kW 11,6 14,7 20,4 25,8 31,3EER (1) 2,94 2,98 2,96 2,96 2,93ESEER (1) 3,40 3,34 3,40 3,38 3,35COOLING ONLY (EN14511 VALUE)Cooling capacity (1)(2) kW 34,0 43,7 60,2 76,2 91,4EER (1)(2) 2,91 2,95 2,93 2,93 2,90ESEER (1)(2) 3,34 3,26 3,33 3,30 3,27Cooling energy class B B B B BHEATING ONLY (GROSS VALUE)Heating capacity (3) kW 38,0 51,3 68,8 84,9 102Total power input (3) kW 10,7 14,4 19,4 23,6 27,7COP (3) 3,55 3,56 3,55 3,60 3,68HEATING ONLY (EN14511 VALUE)Heating capacity (3)(2) kW 38,1 51,4 69,0 85,2 102COP (3)(2) 3,53 3,54 3,52 3,57 3,65Cooling energy class A A A A ACOOLING WITH PARTIAL RECOVERYCooling capacity (4) kW 35,4 45,4 62,6 79,3 95,1Total power input (4) kW 11,2 14,2 19,8 25,0 30,3Desuperheater heating capacity (4) kW 9,46 11,8 16,4 21,2 26,2EXCHANGERSHEAT EXCHANGER USER SIDE IN REFRIGERATIONWater flow (1) m³/h 5,87 7,54 10,4 13,2 15,8Pressure drop (1) kPa 8,10 9,21 11,0 14,5 18,2HEAT EXCHANGER USER SIDE IN HEATINGWater flow (3) m³/h 6,60 8,91 12,0 14,8 17,7Pressure drop (3) kPa 10,2 12,9 14,6 18,3 22,9PARTIAL RECOVERY USER SIDE INREFRIGERATIONWater flow (4) m³/h 1,64 2,05 2,85 3,69 4,54Pressure drop (4) kPa 2,77 4,29 3,60 6,02 9,13COMPRESSORSN. of compressors N° 2 2 2 2 2Number of capacity N° 2 2 2 2 2No. of circuits N° 2 2 2 2 2Regulation STEPS STEPS STEPS STEPS STEPSMin. capacity step % 50 50 50 50 50Refrigerant R407C R407C R407C R407C R407CRefrigerant charge kg 18,0 26,0 30,0 33,0 40,0Oil charge kg 3,80 8,00 8,00 8,20 8,20FANSQuantity N° 4 6 8 8 8Air flow m³/s 5,15 7,51 10,4 10,6 10,4Fans power kW 0,25 0,25 0,25 0,25 0,25NOISE LEVELNoise Pressure (5) dB(A) 68 69 70 70 70Noise Power (6) dB(A) 84 86 87 87 87SIZE AND WEIGHTA (7) mm 1695 2195 2745 2745 2745B (7) mm 1120 1120 1120 1120 1120H (7) mm 1420 1420 1420 1620 1620Operating weight (7) kg 510 750 870 940 1030

Notes:1 Plant (side) cooling exchanger water (in/out) 12°C/7°C; Source (side) heat exchanger air (in) 35°C2 Values in compliance with EN14511-3:20113 Plant (side) heat exchanger water (in/out) 40°C/45°C; Source (side) heat exchanger air (in) 7°C - 87% R.H.4 Plant (side) cooling exchanger water (in/out) 12°C/7°C; Source (side) heat exchanger air (in) 35°C; Plant (side) heat exchanger recovery water (in/out) 40°C/45°C5 Average sound pressure level, at 1m distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level.6 Sound power on the basis of measurements made in compliance with ISO 9614 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 3744 for non-certified units.7 Unit in standard configuration/execution, without optional accessories.- Unavailable

AWR-HT 0122 - 030212

AWR-HT / LN-CA-EGENERAL TECHNICAL DATA

APPLICATION HYDRONIC TERMINALAWR-HT / LN-CA-E 0122 0152 0202 0262 0302Power supply V/ph/Hz 400/3/50+N 400/3/50+N 400/3/50+N 400/3/50+N 400/3/50+N

PERFORMANCECOOLING ONLY (GROSS VALUE)Cooling capacity (1) kW 34,0 43,9 60,2 76,2 90,4Total power input (1) kW 11,6 14,9 20,5 26,1 32,9EER (1) 2,93 2,95 2,94 2,92 2,75ESEER (1) 3,38 3,31 3,36 3,34 3,18COOLING ONLY (EN14511 VALUE)Cooling capacity (1)(2) kW 33,9 43,8 60,1 76,0 90,1EER (1)(2) 2,90 2,92 2,91 2,89 2,72ESEER (1)(2) 3,33 3,22 3,29 3,28 3,10Cooling energy class B B B C CHEATING ONLY (GROSS VALUE)Heating capacity (3) kW 38,4 51,0 69,4 85,8 100Total power input (3) kW 10,7 14,3 19,4 23,7 27,6COP (3) 3,59 3,57 3,58 3,62 3,63HEATING ONLY (EN14511 VALUE)Heating capacity (3)(2) kW 38,5 51,1 69,6 86,1 101COP (3)(2) 3,56 3,54 3,55 3,59 3,60Cooling energy class A A A A ACOOLING WITH PARTIAL RECOVERYCooling capacity (4) kW 35,3 45,5 62,5 79,1 93,8Total power input (4) kW 11,2 14,4 19,9 25,3 31,8Desuperheater heating capacity (4) kW 9,46 12,0 16,5 21,5 27,6EXCHANGERSHEAT EXCHANGER USER SIDE IN REFRIGERATIONWater flow (1) m³/h 5,85 7,56 10,4 13,1 15,6Pressure drop (1) kPa 8,05 9,25 11,0 14,5 17,7HEAT EXCHANGER USER SIDE IN HEATINGWater flow (3) m³/h 6,67 8,86 12,1 14,9 17,4Pressure drop (3) kPa 10,5 12,7 14,8 18,7 22,2PARTIAL RECOVERY USER SIDE INREFRIGERATIONWater flow (4) m³/h 1,64 2,08 2,87 3,74 4,79Pressure drop (4) kPa 2,77 4,42 3,64 6,18 10,2COMPRESSORSN. of compressors N° 2 2 2 2 2Number of capacity N° 2 2 2 2 2No. of circuits N° 2 2 2 2 2Regulation STEPS STEPS STEPS STEPS STEPSMin. capacity step % 50 50 50 50 50Refrigerant R407C R407C R407C R407C R407CRefrigerant charge kg 19,0 27,0 32,0 35,0 42,0Oil charge kg 3,80 8,00 8,00 8,20 8,20FANSQuantity N° 4 6 8 8 8Air flow m³/s 4,17 6,25 8,42 8,68 8,68Fans power kW 0,25 0,25 0,25 0,25 0,25NOISE LEVELNoise Pressure (5) dB(A) 64 65 66 66 67Noise Power (6) dB(A) 80 82 83 83 84SIZE AND WEIGHTA (7) mm 1695 2195 2745 2745 2745B (7) mm 1120 1120 1120 1120 1120H (7) mm 1420 1420 1420 1620 1620Operating weight (7) kg 550 780 940 1010 1060

Notes:1 Plant (side) cooling exchanger water (in/out) 12°C/7°C; Source (side) heat exchanger air (in) 35°C2 Values in compliance with EN14511-3:20113 Plant (side) heat exchanger water (in/out) 40°C/45°C; Source (side) heat exchanger air (in) 7°C - 87% R.H.4 Plant (side) cooling exchanger water (in/out) 12°C/7°C; Source (side) heat exchanger air (in) 35°C; Plant (side) heat exchanger recovery water (in/out) 40°C/45°C5 Average sound pressure level, at 1m distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level.6 Sound power on the basis of measurements made in compliance with ISO 9614 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 3744 for non-certified units.7 Unit in standard configuration/execution, without optional accessories.- Unavailable

AWR_HT_0122_0302 HFC 407C13

AWR-HT

7. GENERAL TECHNICAL DATA

1 Plant (side) cooling exchanger water (in/out) 23/18 °CHeat exchanger air (in) 35 °C

2 Plant (side) heating exchanger water (in/out) 40/45 °CSource (side) heat exchanger air (in) 7 °C 87% R.H.

3 Plant (side) cooling exchanger water (in/out) 23/18 °CHeat exchanger air (in) 35 °CPlant (side) heat exchanger recovery water (in/out) 40/45 °C

4 Sound power on the basis of measurements made in compliance with ISO 9614 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 3744 for non-certified unitsAverage sound pressure level, at 10 (m.) distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level

5 Standard configuration- Not available

SIZE 0122 0152 0202 0262 0302

COOLING (1) Cooling capacity kW 43,7 56,3 77,2 98,0 118 Total power input (unit) kW 12,4 15,5 21,9 28,6 35,0 EER ESEER

3,52 3,4

3,63 3,34

3,53 3,4

3,43 3,38

3,38 3,35

Heat exchanger water flow m�/h 7,54 9,72 13,3 16,9 20,4 Heat exchanger pressure drop kPa 13,4 15,3 18,1 24,0 30,5

AWR-HT /CA-E

AWR-HT /CA-E HEATING (2) Heating capacity kW Total power input (unit) kW COP Heat exchanger water flow m�/h Heat exchanger pressure drop kPa

38,0 10,7 3,55 6,60 10,2

51,3 14,4 3,56 8,91 12,9

68,8 19,4 3,55 12,0 14,6

84,9 23,6 3,60 14,8 18,3

102 27,7 3,68 17,7 22,9

AWR-HT /D /CA-E COOLING WITH PARTIAL RECOVERY (3) Cooling capacity kW 45,3 58,4 80,1 102 123 Total power input (unit) kW 12,0 15,0 21,2 27,7 33,8 Heat exchanger water flow m�/h 7,54 9,72 13,3 16,9 20,4 Heat exchanger pressure drop kPa 13,4 15,3 18,1 24,0 30,5 Heat recovery thermal capacity kW 10,2 12,5 17,8 23,7 29,5 Heat exchanger recovery water flow m�/h 1,77 2,17 3,09 4,13 5,12 Plant side heat exchanger recovery pressure drop kPa 3,20 4,83 4,21 7,52 11,6

COMPRESSORS Number Number of capacity Number of circuits N°.

N°. N°. 2 2 2 2 2

2 2 2 2 2 2 2 2 2 2

Type of regulation STEPS STEPS STEPS STEPS STEPS

8,2 8,2 8 8 3,8 kg. Oil charge 40 33 30 26 18 kg. Refrigerant charge

R407C R407C R407C R407C R407C Type of refrigerant % 50 50 50 50 50 Minimum capacity steps

FANS Number Air flow

N°. m�/s

4 6 8 8 8 5,15 7,51 10,4 10,6 10,4

0,25 0,25 0,25 0,25 0,25 kW Single power input

NOISE LEVELS (4) Total sound power dB(A) 84 86 87 87 87

55 55 54 52 dB(A) Total sound pressure 55

DIMENSIONS AND WEIGHTS (5) Length Width Height Weight

mm. mm. mm. kg.

1695 1120 1420 510

2195 1120 1420 750

2745 1120 1420 870

2745 1120 1620 940

2745 1120 1620 1030

EZIS

GNILOOC

yticapacgnilooC

)tinu(tupnirewoplatoT

RWA - AC/TH -E

2210 2510

)1(

Wk 7,34 3,65

Wk 421 551

2020 2620 2030

2,77 0,89 811

912 682 053

R

)tinu(tupnirewoplatoT

REE

REESE

wolfretawregnahcxetaeH

rderusserpregnahcxetaeH

RWA - AC/TH -E

GNITAEH

yticapacgnitaeH

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POC

wolfretawregnahcxetaeH

rderusserpregnahcxetaeH

WA AC/D/TH E

po

po

Wk 4,21 5,51

25,3

4,3

36,3

43,3

m� h/ 45,7 27,9

aPk 4,31 3,51

)2(

Wk

Wk

m� h/

aPk

0,83

7,01

55,3

06,6

2,01

3,15

4,41

65,3

19,8

9,21

9,12 6,82 0,53

35,3

4,3

34,3

83,3

83,3

53,3

3,31 9,61 4,02

1,81 0,42 5,03

8,86

4,91

55,3

0,21

6,41

9,48

6,32

06,3

8,41

3,81

201

7,72

86,3

7,71

9,22

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m� h/ 45,7 27,9

aPk 4,31 3,51

Wk 2,01 5,21

m� h/ 77,1 71,2

aPk 02,3 38,4

N°

N°.

N°. 2 2

2 2

2 2

1,08 201 321

2,12 7,72 8,33

3,31 9,61 4,02

1,81 0,42 5,03

8,71 7,32 5,92

90,3 31,4 21,5

12,4 25,7 6,11

2 2 2

2 2 2

2 2 2

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05 05 05

8 8 8

4,01 6,01 4,01

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78 78 78

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AWR-HT / CA-E

14AWR_HT_0122_0302 HFC 407C

AWR-HT

7. GENERAL TECHNICAL DATA

1 Plant (side) cooling exchanger water (in/out) 23/18 °CHeat exchanger air (in) 35 °C

2 Plant (side) heating exchanger water (in/out) 40/45 °CSource (side) heat exchanger air (in) 7 °C 87% R.H.

3 Plant (side) cooling exchanger water (in/out) 23/18 °CHeat exchanger air (in) 35 °CPlant (side) heat exchanger recovery water (in/out) 40/45 °C

4 Sound power on the basis of measurements made in compliance with ISO 9614 and Eurovent 8/1 for Eurovent certified units; in compliance with ISO 3744 for non-certified unitsAverage sound pressure level, at 10 (m.) distance, unit in a free field on a reflective surface; non-binding value obtained from the sound power level

5 Standard configuration- Not available

SIZE 0122 0152 0202 0262 0302

COOLING (1) Cooling capacity kW 43,6 56,2 77,0 97,6 116 Total power input (unit) kW 12,5 15,9 22,0 29,0 37,2 EER ESEER

3,49 3,38

3,53 3,31

3,50 3,36

3,37 3,34

3,13 3,18

Heat exchanger water flow m�/h 7,53 9,70 13,3 16,8 20,1 Heat exchanger pressure drop kPa 13,3 15,2 18,0 23,8 29,5

AWR-HT /LN-CA-E

AWR-HT /LN-CA-E HEATING (2) Heating capacity kW Total power input (unit) kW COP Heat exchanger water flow m�/h Heat exchanger pressure drop kPa

38,4 10,7 3,59 6,67 10,5

51,0 14,3 3,57 8,86 12,7

69,4 19,4 3,58 12,1 14,8

85,8 23,7 3,62 14,9 18,7

100 27,6 3,63 17,4 22,2

AWR-HT /D /LN-CA-E COOLING WITH PARTIAL RECOVERY (3) Cooling capacity kW 45,2 58,3 79,9 101 121 Total power input (unit) kW 12,1 15,4 21,3 28,1 36,0 Heat exchanger water flow m�/h 7,53 9,70 13,3 16,8 20,1 Heat exchanger pressure drop kPa 13,3 15,2 18,0 23,8 29,5 Heat recovery thermal capacity kW 10,3 12,9 17,9 24,1 31,4 Heat exchanger recovery water flow m�/h 1,78 2,23 3,10 4,19 5,46 Plant side heat exchanger recovery pressure drop kPa 3,26 5,11 4,25 7,75 13,2

COMPRESSORS Number Number of capacity Number of circuits N°.

N°. N°. 2 2 2 2 2

2 2 2 2 2 2 2 2 2 2

Type of regulation STEPS STEPS STEPS STEPS STEPS

8,2 8,2 8 8 3,8 kg. Oil charge 40 33 30 26 18 kg. Refrigerant charge

R407C R407C R407C R407C R407C Type of refrigerant % 50 50 50 50 50 Minimum capacity steps

FANS Number Air flow

N°. m�/s

4 6 8 8 8 4,17 6,25 8,42 8,68 8,68

0,25 0,25 0,25 0,25 0,25 kW Single power input

NOISE LEVELS (4) Total sound power dB(A) 80 82 83 83 84

52 51 50 48 dB(A) Total sound pressure 51

DIMENSIONS AND WEIGHTS (5) Length Width Height Weight

mm. mm. mm. kg.

1695 1120 1420 530

2195 1120 1420 760

2745 1120 1420 910

2745 1120 1620 980

2745 1120 1620 1030

EZIS

GNILOOC

yticapacgnilooC

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RWA - NL/TH - AC -E

2210 2510

)1(

Wk 6,34 2,65

Wk 521 951

2020 2620 2030

0,77 6,79 611

022 092 273

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REE

REESE

wolfretawregnahcxetaeH

rderusserpregnahcxetaeH

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GNITAEH

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WA NL/D/TH AC E

po

po

Wk 5,21 9,51

94,3

83,3

35,3

13,3

m� h/ 35,7 07,9

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Wk

Wk

m� h/

aPk

4,83

7,01

95,3

76,6

5,01

0,15

3,41

75,3

68,8

7,21

0,22 0,92 2,73

05,3

63,3

73,3

43,3

31,3

81,3

3,31 8,61 1,02

0,81 8,32 5,92

4,96

4,91

85,3

1,21

8,41

8,58

7,32

26,3

9,41

7,81

001

6,72

36,3

4,71

2,22

RWA - NL/D/TH - AC -E

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paclamrehtyrevocertaeH

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Wk 1,21 4,51

m� h/ 35,7 07,9

aPk 3,31 2,51

Wk 3,01 9,21

m� h/ 87,1 32,2

aPk 62,3 11,5

N°

N°.

N°. 2 2

2 2

2 2

9,97 101 121

3,12 1,82 0,63

3,31 8,61 1,02

0,81 8,32 5,92

9,71 1,42 4,13

01,3 91,4 64,5

52,4 57,7 2,31

2 2 2

2 2 2

2 2 2

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6281.gk

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24,8 86,8 86,8

52,052,052,0

38 38 48

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AWR-HT / LN-CA-E

AWR_HT_0122_0302 HFC 407C15

AWR-HT

8. COOLING CAPACITY PERFORMANCE

Ta [°C] - Air temperatureTev [°C] - Plant (side) cooling exchanger output water temperaturePat [kW] - Total power inputQev [m³/h] - Plant (side) heat exchanger water flowDpev [kPa] - Plant (side) cooling exchanger pressure drop

Pf [kW] - Cooling capacity'-' Conditions outside the operating rangeWaterflow and pressure drop on heat exchangers calculated with 5°C of delta TNOTE: Data on grey background: unit switched to non-silenced operation

0122 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

34,9 34,0 33,7 33,1 32,3 31,2 35,9 35,0 34,6 34,1 33,2 32,1 36,9 36,0 35,6 35,0 34,1 33,0 9,43 10,4 10,8 11,5 12,8 14,5 9,50 10,5 10,9 11,6 12,9 14,7 9,57 10,5 11,0 11,7 13,0 14,8 6,01 5,86 5,80 5,70 5,55 5,37 6,18 6,03 5,96 5,87 5,72 5,53 6,35 6,19 6,13 6,03 5,88 5,69 8,49 8,06 7,89 7,65 7,24 6,77 8,98 8,53 8,36 8,10 7,68 7,19 9,47 9,01 8,83 8,56 8,12 7,60

Ta

Dpev 9,98 9,49 9,30 9,02 8,56 8,03 10,5 9,98 9,78 9,49 9,01 8,46 11,0 10,5 10,3 9,96 9,47 8,90 Qev 6,52 6,36 6,29 6,20 6,04 5,85 6,68 6,52 6,45 6,35 6,19 6,00 6,84 6,68 6,61 6,51 6,35 6,15 Pat 9,64 10,6 11,1 11,8 13,1 14,9 9,70 10,7 11,2 11,9 13,2 15,1 9,76 10,8 11,2 12,0 13,3 15,2 Pf 37,8 36,9 36,5 36,0 35,0 33,9 38,8 37,8 37,4 36,9 35,9 34,8 39,7 38,7 38,4 37,8 36,8 35,7

9 10 11 Tev

0152 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

44,4 43,6 43,2 42,6 41,4 39,8 45,7 44,8 44,4 43,8 42,6 40,9 47,0 46,1 45,7 45,0 43,8 42,1 12,3 13,4 13,9 14,6 15,9 17,5 12,4 13,5 14,0 14,7 16,0 17,7 12,5 13,6 14,1 14,8 16,1 17,8 7,64 7,50 7,43 7,32 7,13 6,85 7,87 7,72 7,65 7,54 7,33 7,05 8,09 7,94 7,87 7,75 7,54 7,24 9,46 9,10 8,95 8,69 8,22 7,60 10,0 9,65 9,48 9,21 8,71 8,05 10,6 10,2 10,0 9,74 9,21 8,50

Ta

Dpev 11,2 10,8 10,6 10,3 9,71 8,95 11,8 11,3 11,1 10,8 10,2 9,41 12,4 11,9 11,7 11,4 10,7 9,87 Qev 8,31 8,15 8,08 7,96 7,74 7,43 8,53 8,37 8,29 8,17 7,94 7,62 8,75 8,58 8,50 8,37 8,14 7,81 Pat 12,6 13,7 14,2 14,9 16,2 18,0 12,6 13,8 14,2 15,0 16,4 18,1 12,7 13,8 14,3 15,1 16,5 18,3 Pf 48,3 47,3 46,9 46,2 44,9 43,2 49,5 48,6 48,1 47,4 46,1 44,2 50,8 49,8 49,3 48,6 47,2 45,3

9 10 11 Tev

0202 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

61,6 60,1 59,5 58,6 57,2 55,5 63,4 61,8 61,2 60,3 58,8 57,0 65,1 63,5 62,9 62,0 60,4 58,6 16,8 18,4 19,1 20,2 22,2 24,8 16,9 18,6 19,3 20,4 22,4 25,0 17,0 18,7 19,4 20,6 22,6 25,3 10,6 10,3 10,2 10,1 9,84 9,55 10,9 10,6 10,5 10,4 10,1 9,82 11,2 10,9 10,8 10,7 10,4 10,1 11,5 10,9 10,7 10,4 9,88 9,30 12,2 11,6 11,3 11,0 10,5 9,84 12,8 12,2 12,0 11,6 11,0 10,4

Ta

Dpev 13,5 12,9 12,6 12,2 11,6 10,9 14,2 13,5 13,3 12,9 12,2 11,5 14,9 14,2 13,9 13,5 12,8 12,1 Qev 11,5 11,2 11,1 11,0 10,7 10,4 11,8 11,5 11,4 11,2 10,9 10,6 12,1 11,8 11,7 11,5 11,2 10,9 Pat 17,1 18,9 19,6 20,7 22,8 25,5 17,3 19,0 19,7 20,9 23,0 25,8 17,4 19,1 19,9 21,1 23,2 26,0 Pf 66,9 65,2 64,6 63,6 62,0 60,1 68,6 66,9 66,2 65,2 63,6 61,6 70,2 68,5 67,8 66,8 65,1 63,1

9 10 11 Tev

0262 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

78,3 76,3 75,5 74,3 72,0 69,2 80,6 78,6 77,7 76,4 74,1 71,2 82,9 80,8 79,9 78,5 76,1 73,1 21,4 23,3 24,1 25,5 28,0 31,3 21,6 23,6 24,4 25,8 28,3 31,7 21,8 23,8 24,7 26,1 28,6 32,0 13,5 13,1 13,0 12,8 12,4 11,9 13,9 13,5 13,4 13,2 12,8 12,3 14,3 13,9 13,8 13,5 13,1 12,6 15,3 14,5 14,2 13,7 12,9 11,9 16,2 15,4 15,0 14,5 13,7 12,6 17,1 16,2 15,9 15,4 14,4 13,3

Ta

Dpev 18,0 17,1 16,8 16,2 15,2 14,0 19,0 18,0 17,6 17,0 16,0 14,7 20,0 18,9 18,5 17,9 16,8 15,5 Qev 14,7 14,3 14,1 13,9 13,5 12,9 15,0 14,6 14,5 14,2 13,8 13,2 15,4 15,0 14,8 14,6 14,1 13,6 Pat 22,1 24,1 25,0 26,4 29,0 32,4 22,3 24,3 25,2 26,7 29,3 32,7 22,5 24,6 25,5 26,9 29,6 33,1 Pf 85,1 82,9 82,0 80,6 78,1 75,0 87,3 85,0 84,1 82,7 80,1 76,9 89,4 87,1 86,2 84,7 82,1 78,8

9 10 11 Tev

0302 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

93,9 91,6 90,6 89,1 86,5 83,1 96,7 94,3 93,3 91,7 89,0 85,6 99,4 96,9 95,9 94,3 91,5 88,0 25,7 28,1 29,2 30,9 34,2 38,6 26,0 28,4 29,5 31,3 34,6 39,1 26,3 28,8 29,9 31,7 35,0 39,6 16,2 15,8 15,6 15,3 14,9 14,3 16,6 16,2 16,1 15,8 15,3 14,7 17,1 16,7 16,5 16,2 15,8 15,2 19,1 18,1 17,7 17,2 16,2 14,9 20,2 19,2 18,8 18,2 17,1 15,8 21,4 20,3 19,9 19,2 18,1 16,8

Ta

Dpev 22,6 21,5 21,0 20,3 19,1 17,7 23,8 22,6 22,1 21,4 20,2 18,7 25,0 23,8 23,3 22,5 21,2 19,6 Qev 17,6 17,1 17,0 16,7 16,2 15,6 18,0 17,6 17,4 17,1 16,6 16,0 18,5 18,0 17,8 17,6 17,0 16,4 Pat 26,7 29,1 30,2 32,1 35,5 40,1 27,0 29,5 30,6 32,4 35,9 40,6 27,3 29,8 30,9 32,8 36,3 41,1 Pf 102 99,5 98,5 96,8 94,0 90,4 105 102 101 99,4 96,5 92,8 107 105 104 102 98,9 95,1

9 10 11 Tev

03 352

veT

fPtP

9,43 0,43 33349 401 01

aT

23 53 04 64 52

6

7,3 1,33 3,23 2,13 9,5380 511 821 541 059

221003 23 53 04

7

0,53 6,43 1,43 2,33 3501 901 611 921

64 52 03 23 53

8

1,23 9,63 0,63 6,53 0,53741 759 501 011 711

04 64

0 1,43 0,337 031 841

taPveQvepD

34,9 4,01 0110,6 68,5 8,594,8 60,8 8,7

vepD 89,9 94,9 3,9veQ 25,6 63,6 2,6taP 46,9 6,01 11

fP 8,73 9,63 63

veT

03 352

veT

fPtaP

4,44 6,34 343,21 4,31 31

aT

8,0 5,11 8,21 5,41 05,908 07,5 55,5 73,5 81,698 56,7 42,7 77,6 89,8

03 20,9 65,8 30,8 5,0192 02,6 40,6 58,5 86,61,1 8,11 1,31 9,41 07,95,6 0,63 0,53 9,33 8,83

9

23 53 04 64 52

6

2,3 6,24 4,14 8,93 7,549,3 6,41 9,51 5,71 4,21

5,01 9,01 6,11 9,2130,6 69,5 78,5 27,5 535,8 63,8 01,8 86,7 7

89,9 87,9 94,9 10,9 825,6 54,6 53,6 91,6 67,01 2,11 9,11 2,318,73 4,73 9,63 9,53 3

01

251003 23 53 04

7

8,44 4,44 8,34 6,24 45,31 0,41 7,41 0,61

7,41 75,9 5,01 0,11 7,1135,5 53,6 91,6 31,6 30,691,7 74,9 10,9 38,8 65,8

64,8 0,11 5,01 3,01 69,900,6 48,6 86,6 16,6 15,61,51 67,9 8,01 2,11 0,218,43 7,93 7,83 4,83 8,73

11

64 52 03 23 53

8

9,04 0,74 1,64 7,54 0,547,71 5,21 6,31 1,41 8,41

7 0,31 8,413 88,5 96,56 21,8 06,7

6 74,9 09,81 53,6 51,60 3,31 2,518 8,63 7,53

04 64

0 8,34 1,248 1,61 8,71

veQvepD

46,7 05,7 4,764,9 01,9 9,8

vepD 2,11 8,01 01veQ 13,8 51,8 0,8taP 6,21 7,31 41

fP 3,84 3,74 64

veT

03 352

veT

fPtaPveQ

6,16 1,06 958,61 4,81 916,01 3,01 01

aT

34 23,7 31,7 58,6 78,759 96,8 22,8 06,7 0,01

6,0 3,01 17,9 59,8 8,1180 69,7 47,7 34,7 35,82,4 9,41 2,61 0,81 6,219,6 2,64 9,44 2,34 5,94

9

23 53 04 64 52

6

5,9 6,85 2,75 5,55 4,361,9 2,02 2,22 8,42 9,612,0 1,01 48,9 55,9 9,01

27,7 56,7 45,7 33,7 756,9 84,9 12,9 17,8 8

3,11 1,11 8,01 2,01 973,8 92,8 71,8 49,7 78,31 2,41 0,51 4,616,84 1,84 4,74 1,64 4

01

202003 23 53 04

7

8,16 2,16 3,06 8,85 56,81 3,91 4,02 4,22 26,01 5,01 4,01 1,01 9

50,7 90,8 49,7 78,7 57,750,8 6,01 2,01 0,01 47,9

14,9 4,21 9,11 7,11 4,1126,7 57,8 85,8 05,8 73,81,81 7,21 8,31 3,41 1,512,44 8,05 8,94 3,94 6,84

11

64 52 03 23 53

8

0,75 1,56 5,36 9,26 0,260,52 0,71 7,81 4,91 6,0228,9 2,11 9,01 8,01 7,01

5 45,7 42,74 12,9 05,8

4 7,01 78,97 41,8 18,71 5,61 3,816 2,74 3,54

04 64

0 4,06 6,856 6,22 3,527 4,01 1,01

veQvepD

6,01 3,01 015,11 9,01 01

vepD 5,31 9,21 21veQ 5,11 2,11 11taP 1,71 9,81 91

fP 9,66 2,56 46

veT

03 352

veT

fPtaPveQvepD

3,87 3,67 574,12 3,32 425,31 1,31 31351 541 41

aT

2,0 1,01 48,9 55,9 9,017,0 4,01 88,9 03,9 2,21

6,2 2,21 6,11 9,01 2,411,1 0,11 7,01 4,01 8,116,9 7,02 8,22 5,52 3,716,4 6,36 0,26 1,06 6,86

9

23 53 04 64 52

6

5,5 3,47 0,27 2,96 6,081,4 5,52 0,82 3,13 6,120,3 8,21 4,21 9,11 9,3124 731 921 911 261

6,01 5,01 4,01 1,01 96,11 3,11 0,11 5,01 9

5,31 3,31 9,21 2,215,11 4,11 2,11 9,010,91 7,91 9,02 0,32 29,66 2,66 2,56 6,36 6

01

262003 23 53 04

7

6,87 7,77 4,67 1,47 76,32 4,42 8,52 3,82 35,31 4,31 2,31 8,21451 051 541 731

28,9 2,11 9,01 8,01 7,0148,9 8,21 2,21 0,21 6,11

5,11 9,41 2,41 9,31 5,316,01 1,21 8,11 7,11 5,118,52 4,71 1,91 9,91 1,126,16 2,07 5,86 8,76 8,66

11

64 52 03 23 53

8

2,17 9,28 8,08 9,97 5,877,13 8,12 8,32 7,42 1,623,21 3,41 9,31 8,31 5,31621 171 261 951 451

7 4,01 1,016 0,11 4,01

5 8,21 1,215 2,11 9,011 2,32 0,628 1,56 1,36

04 64

5 1,67 1,371 6,82 0,235 1,31 6,214 441 331

vepD 3,51 5,41 41

vepD 0,81 1,71 61veQ 7,41 3,41 41taP 1,22 1,42 52

fP 1,58 9,28 28

veT

03 352

veT

fPtaPveQvepD

9,39 6,19 097,52 1,82 922,61 8,51 511,91 1,81 71

aT

2,4 7,31 9,21 9,11 2,61

8,6 2,61 2,51 0,41 0,911,4 9,31 5,31 9,21 0,510,5 4,62 0,92 4,23 3,220,2 6,08 1,87 0,57 3,78

9

23 53 04 64 52

6

6,0 1,98 5,68 1,38 7,692,9 9,03 2,43 6,83 0,626,5 3,51 9,41 3,41 6,617,7 2,71 2,61 9,41 2,02

4,51 0,51 5,41 7,31

0,81 6,71 0,71 0,616,41 5,41 2,41 8,313,42 2,52 7,62 3,92 30,58 1,48 7,28 1,08 7

01

203003 23 53 04

7

3,49 3,39 7,19 0,98 84,82 5,92 3,13 6,43 32,61 1,61 8,51 3,512,91 8,81 2,81 1,71

6,21 1,71 2,61 9,51 4,51

7,41 0,02 9,81 5,81 9,712,31 4,51 0,51 8,41 6,417,23 5,22 6,42 5,52 9,629,67 4,98 1,78 2,68 7,48

11

64 52 03 23 53

8

6,58 4,99 9,69 9,59 3,491,93 3,62 8,82 9,92 7,137,41 1,71 7,61 5,61 2,618,51 4,12 3,02 9,91 2,91

4 4,41 3,31

9 8,61 5,516 1,41 6,319 6,92 1,337 1,28 8,87

04 64

3 5,19 0,887 0,53 6,932 8,51 2,512 1,81 8,61

vepD 6,22 5,12 12veQ 6,71 1,71 71taP 7,62 1,92 03

fP 201 5,99 89

veT

0,1 3,02 1,91 7,71 8,320,7 7,61 2,61 6,51 0,812,0 1,23 5,53 1,04 0,725,8 8,69 0,49 4,09 501

9

6,22 1,22 4,12 2,026,71 4,71 1,71 6,615,92 6,03 4,23 9,53 4201 101 4,99 5,69 9

01

7,81 0,52 8,32 3,32 5,220,61 5,81 0,81 8,71 6,716,04 3,72 8,92 9,03 8,238,29 701 501 401 201

11

5 2,12 6,916 0,71 4,618 3,63 1,142 9,89 1,59

AWR-HT / CA-E

16AWR_HT_0122_0302 HFC 407C

AWR-HT

AWR-HT / LN-CA-E

8. COOLING CAPACITY PERFORMANCE

Ta [°C] - Air temperatureTev [°C] - Plant (side) cooling exchanger output water temperaturePat [kW] - Total power inputQev [m³/h] - Plant (side) heat exchanger water flowDpev [kPa] - Plant (side) cooling exchanger pressure drop

Pf [kW] - Cooling capacity'-' Conditions outside the operating rangeWaterflow and pressure drop on heat exchangers calculated with 5°C of delta TNOTE: Data on grey background: unit switched to non-silenced operation

0122 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

34,8 33,9 33,5 33,0 32,3 31,4 35,8 34,9 34,5 34,0 33,2 32,3 36,8 35,8 35,5 34,9 34,1 33,2 9,42 10,3 10,8 11,5 12,9 14,8 9,50 10,4 10,9 11,6 13,0 15,0 9,58 10,5 11,0 11,7 13,1 15,1 5,99 5,83 5,77 5,69 5,55 5,41 6,16 6,00 5,94 5,85 5,72 5,57 6,33 6,17 6,11 6,02 5,88 5,72 8,44 8,00 7,84 7,60 7,25 6,87 8,93 8,47 8,30 8,05 7,68 7,28 9,42 8,94 8,76 8,51 8,11 7,69

Ta

Dpev 9,92 9,42 9,23 8,97 8,56 8,12 10,4 9,91 9,71 9,43 9,00 8,54 10,9 10,4 10,2 9,90 9,45 8,97 Qev 6,50 6,33 6,27 6,18 6,03 5,88 6,66 6,49 6,43 6,34 6,19 6,03 6,82 6,65 6,59 6,49 6,34 6,18 Pat 9,65 10,6 11,1 11,8 13,2 15,3 9,72 10,7 11,1 11,9 13,3 15,4 9,79 10,8 11,2 12,0 13,4 15,5 Pf 37,7 36,8 36,4 35,9 35,0 34,1 38,7 37,7 37,3 36,8 35,9 35,0 39,6 38,6 38,2 37,7 36,8 35,9

9 10 11 Tev

0152 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

44,6 43,7 43,3 42,7 41,4 39,6 45,9 45,0 44,6 43,9 42,6 40,8 47,2 46,3 45,8 45,1 43,8 41,9 12,5 13,6 14,0 14,8 16,2 18,0 12,6 13,7 14,1 14,9 16,3 18,2 12,7 13,8 14,3 15,0 16,4 18,4 7,67 7,53 7,46 7,34 7,13 6,82 7,90 7,75 7,68 7,56 7,33 7,02 8,13 7,96 7,89 7,77 7,54 7,22 9,54 9,18 9,01 8,74 8,23 7,54 10,1 9,72 9,54 9,25 8,71 7,98 10,7 10,3 10,1 9,78 9,21 8,43

Ta

Dpev 11,3 10,8 10,6 10,3 9,70 8,89 11,9 11,4 11,2 10,8 10,2 9,35 12,5 12,0 11,8 11,4 10,7 9,82 Qev 8,35 8,18 8,10 7,98 7,74 7,41 8,57 8,39 8,31 8,18 7,94 7,60 8,78 8,60 8,52 8,38 8,13 7,79 Pat 12,8 13,9 14,4 15,1 16,6 18,5 12,9 14,0 14,5 15,2 16,7 18,6 12,9 14,1 14,6 15,3 16,8 18,8 Pf 48,5 47,5 47,0 46,3 44,9 43,0 49,7 48,7 48,2 47,5 46,1 44,1 51,0 49,9 49,4 48,6 47,2 45,2

9 10 11 Tev

0202 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

61,5 60,0 59,4 58,5 57,1 55,4 63,3 61,7 61,1 60,2 58,7 56,9 65,0 63,4 62,8 61,8 60,3 58,5 16,9 18,5 19,2 20,3 22,3 24,8 17,0 18,7 19,4 20,5 22,5 25,1 17,1 18,8 19,5 20,7 22,7 25,4 10,6 10,3 10,2 10,1 9,82 9,53 10,9 10,6 10,5 10,4 10,1 9,80 11,2 10,9 10,8 10,6 10,4 10,1 11,4 10,9 10,7 10,4 9,84 9,26 12,1 11,5 11,3 11,0 10,4 9,80 12,8 12,2 11,9 11,6 11,0 10,3

Ta

Dpev 13,5 12,8 12,6 12,2 11,6 10,9 14,2 13,5 13,2 12,8 12,2 11,5 14,9 14,1 13,9 13,5 12,8 12,0 Qev 11,5 11,2 11,1 10,9 10,7 10,3 11,8 11,5 11,4 11,2 10,9 10,6 12,1 11,8 11,7 11,5 11,2 10,9 Pat 17,2 19,0 19,7 20,9 22,9 25,6 17,4 19,1 19,8 21,0 23,1 25,9 17,5 19,2 20,0 21,2 23,3 26,1 Pf 66,7 65,1 64,4 63,5 61,9 60,0 68,4 66,7 66,1 65,1 63,4 61,5 70,1 68,4 67,7 66,6 65,0 63,0

9 10 11 Tev

0262 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

78,1 76,2 75,3 74,1 71,8 69,0 80,4 78,4 77,5 76,2 73,9 71,0 82,6 80,5 79,7 78,3 75,9 72,9 21,5 23,5 24,4 25,8 28,3 31,5 21,7 23,8 24,7 26,1 28,6 31,9 21,9 24,1 25,0 26,4 28,9 32,2 13,4 13,1 13,0 12,7 12,4 11,9 13,8 13,5 13,3 13,1 12,7 12,2 14,2 13,9 13,7 13,5 13,1 12,6 15,2 14,4 14,1 13,7 12,8 11,9 16,1 15,3 15,0 14,5 13,6 12,5 17,0 16,2 15,8 15,3 14,4 13,2

Ta

Dpev 17,9 17,0 16,7 16,1 15,1 13,9 18,9 17,9 17,5 16,9 15,9 14,7 19,8 18,8 18,4 17,8 16,7 15,4 Qev 14,6 14,2 14,1 13,8 13,4 12,9 15,0 14,6 14,4 14,2 13,8 13,2 15,4 15,0 14,8 14,5 14,1 13,5 Pat 22,2 24,3 25,3 26,7 29,3 32,6 22,4 24,6 25,5 27,0 29,6 33,0 22,6 24,8 25,8 27,3 29,9 33,3 Pf 84,9 82,7 81,8 80,4 77,9 74,8 87,0 84,8 83,9 82,4 79,9 76,7 89,2 86,9 85,9 84,4 81,8 78,5

9 10 11 Tev

0302 30 32 35 40 46 25 25 30 32 35 40 46 25 30 32 35 40 46

6 7 8 Tev Pf Pat Qev Dpev

92,9 90,4 89,4 87,8 85,1 81,7 95,6 93,1 92,0 90,4 87,6 84,1 98,3 95,7 94,6 92,9 90,1 86,4 26,7 29,4 30,6 32,4 35,9 40,5 27,1 29,8 31,0 32,9 36,4 41,1 27,5 30,2 31,4 33,3 36,9 41,7 16,0 15,6 15,4 15,1 14,7 14,1 16,5 16,0 15,8 15,6 15,1 14,5 16,9 16,5 16,3 16,0 15,5 14,9 18,7 17,7 17,3 16,7 15,7 14,4 19,8 18,7 18,3 17,7 16,6 15,3 20,9 19,8 19,4 18,7 17,6 16,2

Ta

Dpev 22,0 20,9 20,4 19,7 18,5 17,1 23,2 22,0 21,5 20,8 19,5 18,0 24,4 23,1 22,6 21,8 20,5 18,9 Qev 17,4 16,9 16,7 16,4 15,9 15,3 17,8 17,4 17,2 16,9 16,3 15,7 18,3 17,8 17,6 17,3 16,8 16,1 Pat 27,8 30,6 31,8 33,8 37,4 42,3 28,2 31,0 32,2 34,2 37,9 42,8 28,5 31,3 32,6 34,6 38,3 43,4 Pf 101 98,2 97,1 95,4 92,5 88,8 104 101 99,6 97,9 94,9 91,1 106 103 102 100 97,2 93,3

9 10 11 Tev

03 352

veT

fPtP

8,43 9,33 33249 301 01

aT

23 53 04 64 52

6

5,3 0,33 3,23 4,13 8,5380 511 921 841 059

221003 23 53 04

7

9,43 5,43 0,43 2,33 3401 901 611 031

64 52 03 23 53

8

3,23 8,63 8,53 5,53 9,43051 859 501 011 711

04 64

9 1,43 2,337 131 151

taPveQvepD

24,9 3,01 0199,5 38,5 7,544,8 00,8 8,7

vepD 29,9 24,9 2,9veQ 05,6 33,6 2,6taP 56,9 6,01 11

fP 7,73 8,63 63

veT

03 352

veT

fPtaP

6,44 7,34 345,21 6,31 41

aT

8,0 5,11 9,21 8,41 05,977 96,5 55,5 14,5 61,648 06,7 52,7 78,6 39,8

32 79,8 65,8 21,8 4,0172 81,6 30,6 88,5 66,61,1 8,11 2,31 3,51 27,94,6 9,53 0,53 1,43 7,83

9

23 53 04 64 52

6

3,3 7,24 4,14 6,93 9,540,4 8,41 2,61 0,81 6,21

4,01 9,01 6,11 0,3100,6 49,5 58,5 27,5 574,8 03,8 50,8 86,7 7

19,9 17,9 34,9 00,9 894,6 34,6 43,6 91,6 67,01 1,11 9,11 3,317,73 3,73 8,63 9,53 3

01

251003 23 53 04

7

0,54 6,44 9,34 6,24 47,31 1,41 9,41 3,61

0,51 85,9 5,01 0,11 7,1175,5 33,6 71,6 11,6 20,682,7 24,9 49,8 67,8 15,8

45,8 9,01 4,01 2,01 09,930,6 28,6 56,6 95,6 94,64,51 97,9 8,01 2,11 0,210,53 6,93 6,83 2,83 7,73

11

64 52 03 23 53

8

8,04 2,74 3,64 8,54 1,542,81 7,21 8,31 3,41 0,51

7 1,31 1,512 88,5 27,51 11,8 96,7

0 54,9 79,89 43,6 81,60 4,31 5,517 8,63 9,53

04 64

1 8,34 9,140 4,61 4,81

veQvepD

76,7 35,7 4,745,9 81,9 0,9

vepD 3,11 8,01 01veQ 53,8 81,8 ,8taP 8,21 9,31 41

fP 5,84 5,74 74

veT

03 352

veT

fPtaPveQ

5,16 0,06 959,61 5,81 916,01 3,01 01

aT

64 43,7 31,7 28,6 09,710 47,8 32,8 45,7 1,01

6,0 3,01 07,9 98,8 9,1101 89,7 47,7 14,7 75,84,4 1,51 6,61 5,81 9,210,7 3,64 9,44 0,34 7,94

9

23 53 04 64 52

6

4,9 5,85 1,75 4,55 3,362,9 3,02 3,22 8,42 0,712,0 1,01 28,9 35,9 9,01

57,7 86,7 65,7 33,7 727,9 45,9 52,9 17,8 7

4,11 2,11 8,01 2,01 993,8 13,8 81,8 49,7 70,41 5,41 2,51 7,617,84 2,84 5,74 1,64 4

01

202003 23 53 04

7

7,16 1,16 2,06 7,85 57,81 4,91 5,02 5,22 26,01 5,01 4,01 1,01 9

20,7 31,8 69,7 98,7 77,789,7 7,01 3,01 1,01 87,9

53,9 5,21 0,21 8,11 4,1106,7 87,8 06,8 25,8 83,86,81 9,21 1,41 6,41 3,511,44 0,15 9,94 4,94 6,84

11

64 52 03 23 53

8

9,65 0,56 4,36 8,26 8,161,52 1,71 8,81 5,91 7,0208,9 2,11 9,01 8,01 6,01

7 45,7 22,78 12,9 34,8

4 7,01 28,98 31,8 97,73 8,61 8,816 2,74 2,54

04 64

8 3,06 5,857 7,22 4,526 4,01 1,01

veQvepD

6,01 3,01 014,11 9,01 01

vepD 5,31 8,21 21veQ 5,11 2,11 11taP 2,71 0,91 91

fP 7,66 1,56 46

veT

03 352

veT

fPtaPveQvepD

1,87 2,67 575,12 5,32 424,31 1,31 31251 441 41

aT

2,0 1,01 28,9 35,9 9,017,0 4,01 48,9 62,9 1,21

6,2 2,21 6,11 9,01 2,411,1 9,01 7,01 3,01 8,117,9 9,02 9,22 6,52 4,714,4 5,36 9,16 0,06 4,86

9

23 53 04 64 52

6

3,5 1,47 8,17 0,96 4,084,4 8,52 3,82 5,13 7,120,3 7,21 4,21 9,11 8,3114 731 821 911 161

6,01 5,01 4,01 1,01 95,11 3,11 0,11 4,01 9

5,31 2,31 8,21 2,215,11 4,11 2,11 9,011,91 8,91 0,12 1,32 27,66 1,66 1,56 4,36 6

01

262003 23 53 04

7

4,87 5,77 2,67 9,37 78,32 7,42 1,62 6,82 35,31 3,31 1,31 7,21351 051 541 631

08,9 2,11 9,01 8,01 6,0108,9 8,21 2,21 9,11 6,11

5,11 9,41 1,41 9,31 5,316,01 1,21 8,11 7,11 5,119,52 5,71 2,91 0,02 2,125,16 1,07 4,86 7,76 6,66

11

64 52 03 23 53

8

0,17 6,28 5,08 7,97 3,879,13 9,12 1,42 0,52 4,622,21 2,41 9,31 7,31 5,31521 071 261 851 351

6 4,01 1,016 0,11 3,01

5 8,21 0,215 2,11 9,012 3,32 1,626 0,56 0,36

04 64

3 9,57 9,274 9,82 2,235 1,31 6,213 441 231

vepD 2,51 4,41 41

vepD 9,71 0,71 61veQ 6,41 2,41 41taP 2,22 3,42 52

fP 9,48 7,28 18

veT

03 352

veT

fPtaPveQvepD

9,29 4,09 987,62 4,92 030,61 6,51 517,81 7,71 71

aT

1,4 7,31 8,21 9,11 1,61

7,6 1,61 1,51 9,31 9,811,4 8,31 4,31 9,21 0,513,5 7,62 3,92 6,23 4,228,1 4,08 9,77 8,47 0,78

9

23 53 04 64 52

6

4,9 8,78 1,58 7,18 6,596,0 4,23 9,53 5,04 1,724,5 1,51 7,41 1,41 5,613,7 7,61 7,51 4,41 8,91

3,51 0,51 5,41 6,31

9,71 5,71 9,61 9,516,41 4,41 2,41 8,316,42 5,52 0,72 6,92 38,48 9,38 4,28 9,97 7

01

203003 23 53 04

7

1,39 0,29 4,09 6,78 88,92 0,13 9,23 4,63 40,61 8,51 6,51 1,517,81 3,81 7,71 6,61

5,21 0,71 2,61 8,51 3,51

7,41 8,91 8,81 4,81 8,712,31 4,51 0,51 8,41 5,410,33 6,22 8,42 8,52 3,727,67 2,98 9,68 9,58 4,48

11

64 52 03 23 53

8

1,48 3,89 7,59 6,49 9,291,14 5,72 2,03 4,13 3,335,41 9,61 5,61 3,61 0,613,51 9,02 8,91 4,91 7,81

3 4,41 2,31

8 7,61 4,515 1,41 5,313 9,92 3,334 8,18 5,87

04 64

9 1,09 4,683 9,63 7,140 5,51 9,417 6,71 2,61

vepD 0,22 9,02 02veQ 4,71 9,61 61taP 8,72 6,03 13

fP 101 2,89 79

veT

4,0 7,91 5,81 1,71 2,327,6 4,61 9,51 3,51 8,718,1 8,33 4,73 3,24 2,821,7 4,59 5,29 8,88 401

9

0,22 5,12 8,02 5,914,71 2,71 9,61 3,610,13 2,23 2,43 9,73 4101 6,99 9,79 9,49 9

01

0,81 4,42 1,32 6,22 8,127,51 3,81 8,71 6,71 3,718,24 5,82 3,13 6,23 6,431,19 601 301 201 001

11

8 5,02 9,813 8,61 1,616 3,83 4,340 2,79 3,39

AWR_HT_0122_0302 HFC 407C17

AWR-HT

Ta [°C] - Air temperatureTcd (°C) - Plant (side) heating exchanger output water temperaturePt (kW) - Heating capacityPat (kW) - Total power inputQcd (m³/h) - Plant (side) heating exchanger water flow

Dpcd (kPa) - Plant (side) heating exchanger pressure drop'-' - Conditions outside the operating rangeWaterflow and pressure drop on heat exchangers calculated with 8°C of delta TNOTE: Data on grey background: unit switched to non-silenced operation

0122 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 18,0

8,61

1,95 0,893

Tcd Pt

Pat

Qcd Pcd

21,4 23,5 28,8 32,7 38,6 20,7 23,2 24,9 29,4 33,1 39,0 - 23,6 25,3 29,9 33,7 39,5

8,58 8,58 8,64 8,72 8,90 9,49 9,76 9,91 10,2 10,4 10,7 - 10,3 10,6 11,2 11,5 11,8

2,32 2,55 3,11 3,54 4,17 2,24 2,52 2,70 3,19 3,60 4,23 - 2,56 2,75 3,25 3,66 4,30 1,26 1,52 2,28 2,95 4,10 1,18 1,49 1,72 2,40 3,04 4,21 - 1,54 1,78 2,49 3,15 4,34

Ta

- Pcd 1,55 1,82 2,60 3,30 4,50 - - 1,84 2,73 3,49 4,72 - - 1,83 2,89 3,73 4,98 - Qcd 2,57 2,78 3,33 3,75 4,38 - - 2,80 3,41 3,85 4,48 - - 2,79 3,51 3,99 4,60

- Pat 10,9 11,4 12,2 12,7 13,1 - - 12,1 13,4 14,0 14,5 - - 12,9 14,6 15,4 16,1

- Pt 23,6 25,6 30,5 34,4 40,2 - - 25,6 31,2 35,3 41,0 - - 25,5 32,1 36,4 42,1 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

0152 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 19,9

10,1

2,15 0,748

Tcd Pt

Pat

Qcd Pcd

25,9 29,5 37,8 43,7 51,9 20,9 26,9 30,5 38,8 44,6 52,6 - 27,6 31,1 39,3 45,0 52,9

10,6 10,9 11,5 11,9 12,2 10,4 11,6 12,2 13,3 13,9 14,4 - 12,6 13,2 14,4 15,1 15,7

2,80 3,19 4,09 4,73 5,62 2,26 2,92 3,31 4,21 4,84 5,71 - 3,00 3,38 4,27 4,89 5,75 1,27 1,65 2,71 3,63 5,12 0,831 1,38 1,78 2,87 3,79 5,28 - 1,46 1,86 2,95 3,88 5,36

Ta

- Pcd 1,55 1,95 3,04 3,96 5,43 - - 2,05 3,14 4,05 5,50 - - 2,17 3,24 4,13 5,57 - Qcd 3,09 3,47 4,33 4,95 5,79 - - 3,56 4,40 5,00 5,83 - - 3,66 4,47 5,05 5,86

- Pat 13,9 14,5 15,7 16,3 17,0 - - 16,0 17,0 17,7 18,5 - - 17,8 18,5 19,1 20,0

- Pt 28,4 31,8 39,8 45,4 53,2 - - 32,6 40,3 45,8 53,4 - - 33,5 40,9 46,2 53,6 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

0202 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 33,0

14,8

3,57 1,30

Tcd Pt

Pat

Qcd Pcd

38,7 42,4 51,6 58,8 69,7 34,2 39,9 43,6 52,8 59,9 70,6 - 40,4 44,2 53,5 60,6 71,3

15,0 15,2 15,6 15,9 16,3 16,7 17,2 17,5 18,2 18,7 19,4 - 18,1 18,6 19,6 20,3 21,2

4,19 4,59 5,59 6,37 7,55 3,71 4,34 4,73 5,73 6,50 7,66 - 4,39 4,80 5,82 6,59 7,75 1,79 2,15 3,19 4,13 5,81 1,41 1,92 2,29 3,35 4,31 5,99 - 1,97 2,35 3,45 4,44 6,13

Ta

- Pcd 2,01 2,42 3,57 4,58 6,31 - - 2,48 3,70 4,76 6,52 - - 2,54 3,85 4,96 6,76 - Qcd 4,44 4,87 5,92 6,70 7,86 - - 4,93 6,02 6,83 7,99 - - 4,99 6,14 6,97 8,14

- Pat 18,8 19,6 21,1 22,1 23,2 - - 20,5 22,7 24,0 25,4 - - 21,4 24,3 26,0 27,7

- Pt 40,7 44,7 54,3 61,5 72,2 - - 45,2 55,2 62,6 73,2 - - 45,6 56,2 63,8 74,4 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

0262 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 43,8

17,8

4,74 1,88

Tcd Pt

Pat

Qcd Pcd

49,1 52,9 63,2 72,0 86,2 45,6 51,0 54,7 64,9 73,5 87,3 - 52,3 56,0 66,0 74,5 88,0

18,0 18,2 18,6 19,1 19,9 20,3 20,8 21,1 21,9 22,5 23,6 - 22,5 22,9 23,8 24,6 25,8

5,31 5,72 6,84 7,79 9,32 4,95 5,53 5,94 7,05 7,98 9,48 - 5,68 6,09 7,18 8,10 9,57 2,37 2,75 3,93 5,10 7,30 2,05 2,57 2,96 4,17 5,35 7,54 - 2,71 3,11 4,33 5,51 7,70

Ta

- Pcd 2,89 3,29 4,51 5,69 7,88 - - 3,50 4,73 5,91 8,09 - - 3,76 4,97 6,15 8,33 - Qcd 5,87 6,26 7,33 8,23 9,69 - - 6,46 7,50 8,39 9,81 - - 6,69 7,69 8,55 9,96

- Pat 24,4 24,9 26,0 26,9 28,2 - - 27,1 28,4 29,4 30,8 - - 29,6 31,0 32,1 33,7

- Pt 53,9 57,5 67,3 75,6 88,9 - - 59,2 68,7 76,8 89,9 - - 61,1 70,3 78,2 91,0 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

-1- 02 - 51

0,81591

dcT

tPdQ

4,12 32232 2

aT

21 -5 0 7 - 02

53

5,3 8,82 7,23 6,83 7,0255 113 453 714 422

2210- 21 -5 0- 51

54

2,32 9,42 4,92 1,33252 072 913 063

7 - 21 -5- 02 - 51

05

0,93 - 6,32 3,52 9,92324 652 572 523

0 7

9 7,33 5,935 663 034

16,8

59,1398,0

taP

dcQdcP

85,8 ,8

23,2 ,262,1 ,1

-dcP 55,1 ,1-dcQ 75,2 ,2

-taP 9,01 11

-tP 6,32 52

dcT

-1- 51- 02aT

-1- 02 - 51

991

dcT

tP 952 92

aT

85 46,8 27,8 09,8 94,9

55 11,3 45,3 71,4 42,225 82,2 59,2 01,4 81,1

28 06,2 03,3 05,4 -87 33,3 57,3 83,4 -

4,1 2,21 7,21 1,31 -

6,5 5,03 4,43 2,04 -

55

70-521 - 02

21 -5 0 7 - 02

53

59 873 734 915 902

67,9 19,9 2,01 4,01

25,2 07,2 91,3 06,394,1 27,1 04,2 40,3

- 48,1 37,2 94,3- 08,2 14,3 58,3

- 1,21 4,31 0,41

- 6,52 2,13 3,53

06

0-5- 21- 51

2510- 21 -5 0- 51

54

962 503 883 644

7,01 - 3,01 6,01 2,11

32,4 - 65,2 57,2 52,312,4 - 45,1 87,1 94,2

27,4 - - 38,1 98,284,4 - - 97,2 5,3

5,41 - - 9,21 6,41

0,14 - - 5,52 ,23

56

7 -5- 21- 51- 02

7 - 21 -5- 02 - 51

05

625 672 113 393

2 5,11 8,11

5 66,3 03,49 51,3 43,4

9 37,3 89,41 99,3 06,4

6 4,51 1,61

1 4,63 1,24

70

0 7

3 054 925

9,91

1,01

51,2847,0

tP

taP

dcQdcP

9,52 92

6,01 01

08,2 ,372,1 ,1

-dcP 55,1 ,1-dcQ 90,3 ,3

-taP 9,31 41

-tP 4,82 13

dcT

-1- 51- 02aT

-1- 02 - 51

dcT

aT

5,9 8,73 7,34 9,15 9,02

9,0 5,11 9,11 2,21 4,01

91 90,4 37,4 26,5 62,256 17,2 36,3 21,5 138,0

59 40,3 69,3 34,5 -74 33,4 59,4 97,5 -

5,4 7,51 3,61 0,71 -

8,1 8,93 4,54 2,35 -

55

70-521 - 02

21 -5 0 7 - 02

53

9,62 5,03 8,83 6,44

6,11 2,21 3,31 9,31

29,2 13,3 12,4 48,483,1 87,1 78,2 97,3

- 50,2 41,3 50,4- 65,3 04,4 00,5

- 0,61 0,71 7,71

- 6,23 3,04 8,54

06

0-5- 21- 51

2020- 21 -5 0- 51

54

6,25 - 6,72 1,13 3,93

4,41 - 6,21 2,31 4,41

17,5 - 00,3 83,3 72,482,5 - 64,1 68,1 59,2

05,5 - - 71,2 42,338,5 - - 66,3 74,4

5,81 - - 8,71 5,81

4,35 - - 5,33 9,04

56

7 -5- 21- 51- 02

7 - 21 -5- 02 - 51

05

3 0,54 9,25

4 1,51 7,51

7 98,4 57,55 88,3 63,5

4 31,4 75,57 50,5 68,5

5 1,91 0,02

9 2,64 6,35

70

0 7

0,33

8,41

75,303,1

tP

taP

dcQdcP

7,83 24

0,51 51

91,4 ,497,1 ,2

-dcP 10,2 ,2-dcQ 44,4 ,4

-taP 8,81 91

-tP 7,04 44

dcT

-1- 51- 02aT

-1- 02 - 51

dT

aT

4,2 6,15 8,85 7,96 2,43

2,5 6,51 9,51 3,61 7,61

95 95,5 73,6 55,7 17,351 91,3 31,4 18,5 14,1

24 75,3 85,4 13,6 -78 29,5 07,6 68,7 -

6,9 1,12 1,22 2,32 -

7,4 3,45 5,16 2,27 -

55

70-521 - 02

21 -5 0 7 - 02

53

9,93 6,34 8,25 9,95

2,71 5,71 2,81 7,81

43,4 37,4 37,5 05,629,1 92,2 53,3 13,4

- 84,2 07,3 67,4- 39,4 20,6 38,6

- 5,02 7,22 0,42

- 2,54 2,55 6,26

06

0-5- 21- 51

2620- 21 -5 0- 51

54

6,07 - 4,04 2,44 5,35

4,91 - 1,81 6,81 6,91

66,7 - 93,4 08,4 28,599,5 - 79,1 53,2 54,3

25,6 - - 45,2 58,399,7 - - 99,4 41,6

4,52 - - 4,12 3,42

2,37 - - 6,54 2,65

56

7 -5- 21- 51- 02

7 - 21 -5- 02 - 51

05

5 6,06 3,17

6 3,02 2,12

2 95,6 57,75 44,4 31,6

5 69,4 67,64 79,6 41,8

3 0,62 7,72

2 8,36 4,47

70

0 7

8,34

8,71

47,488,1

dcT

tP

taP

dcQdcP

1,94 25

0,81 81

13,5 ,573,2 ,2

-dcP 98,2 ,3-dcQ 78,5 ,6

-taP 4,42 42

-tP 9,35 75

dcT

-1- 51- 02aT

53

9,2 2,36 0,27 2,68 6,54

2,8 6,81 1,91 9,91 3,02

27 48,6 97,7 23,9 59,457 39,3 01,5 03,7 50,2

92 15,4 96,5 88,7 -62 33,7 32,8 96,9 -

9,4 0,62 9,62 2,82 -

5,7 3,76 6,57 9,88 -

55

70-521 - 02

54

0,15 7,45 9,46 5,37

8,02 1,12 9,12 5,22

35,5 49,5 50,7 89,775,2 69,2 71,4 53,5

- 05,3 37,4 19,5- 64,6 05,7 93,8

- 1,72 4,82 4,92

- 2,95 7,86 8,67

06

0-5- 21- 51

05

3,78 - 3,25 0,65 0,66

6,32 - 5,22 9,22 8,32

84,9 - 86,5 90,6 81,745,7 - 17,2 11,3 33,4

90,8 - - 67,3 79,418,9 - - 96,6 96,7

8,03 - - 6,92 0,13

9,98 - - 1,16 3,07

56

7 -5- 21- 51- 02

0 5,47 0,88

8 6,42 8,52

8 01,8 75,93 15,5 07,7

7 51,6 33,89 55,8 69,9

0 1,23 7,33

3 2,87 0,19

70

0302 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 52,7

20,8

5,70 2,37

Tcd Pt

Pat

Qcd Pcd

59,2 63,7 76,2 86,7 104 51,8 59,5 64,5 77,8 88,4 105 - 59,8 65,2 78,8 89,5 106

21,0 21,1 21,7 22,2 23,2 25,1 25,2 25,3 25,9 26,5 27,7 - 26,6 27,1 28,2 29,1 30,5

6,40 6,89 8,24 9,38 11,2 5,62 6,46 7,01 8,44 9,59 11,4 - 6,50 7,09 8,57 9,73 11,5 2,99 3,47 4,96 6,42 9,18 2,31 3,04 3,58 5,20 6,72 9,45 - 3,09 3,66 5,36 6,91 9,67

Ta

- Pcd 3,14 3,76 5,54 7,15 9,95 - - 3,87 5,75 7,42 10,3 - - 4,00 5,99 7,73 10,7 - Qcd 6,56 7,18 8,71 9,90 11,7 - - 7,28 8,88 10,1 11,9 - - 7,40 9,06 10,3 12,1

- Pat 27,6 28,5 30,5 31,9 33,6 - - 29,8 33,0 34,9 37,1 - - 30,8 35,5 38,2 40,9

- Pt 60,2 65,9 80,0 90,8 107 - - 66,7 81,3 92,4 109 - - 67,7 82,8 94,1 111 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

-1- 02 - 51

7,25075

dcT

tPdQ

2,95 36046 6

aT

21 -5 0 7 - 02

53

7,3 2,67 7,68 401 8,1598 428 839 211 265

2030- 21 -5 0- 51

54

5,95 5,46 8,77 4,88646 107 448 959

7 - 21 -5- 02 - 51

05

501 - 8,95 2,56 8,87411 056 907 758

0 7

8 5,98 6017 379 511

8,02

07,573,2

taP

dcQdcP

0,12 12

04,6 ,699,2 ,3

-dcP 41,3 ,3-dcQ 65,6 ,7

-taP 6,72 82

-tP 2,06 56

dcT

-1- 51- 02aT

1,1 7,12 2,22 2,32 1,52

98 42,8 83,9 2,11 26,574 69,4 24,6 81,9 13,2

67 45,5 51,7 59,9 -81 17,8 09,9 7,11 -

5,8 5,03 9,13 6,33 -

9,5 0,08 8,09 701 -

55

70-521 - 02

2,52 3,52 9,52 5,62

64,6 10,7 44,8 95,940,3 85,3 02,5 27,6

- 78,3 57,5 24,7- 82,7 88,8 1,01

- 8,92 0,33 9,43

- 7,66 3,18 4,29

06

0-5- 21- 51

7,72 - 6,62 1,72 2,82

4,11 - 05,6 90,7 75,854,9 - 90,3 66,3 63,5

3,01 - - 00,4 99,59,11 - - 04,7 60,9

1,73 - - 8,03 5,53

901 - - 7,76 8,28

56

7 -5- 21- 51- 02

2 1,92 5,03

7 37,9 5,116 19,6 76,9

9 37,7 7,016 3,01 1,21

5 2,83 9,04

8 1,49 111

70

9. HEAT PUMP CAPACITY PERFORMANCE

AWR-HT / CA-E

18AWR_HT_0122_0302 HFC 407C

AWR-HT

Ta [°C] - Air temperatureTcd (°C) - Plant (side) heating exchanger output water temperaturePt (kW) - Heating capacityPat (kW) - Total power inputQcd (m³/h) - Plant (side) heating exchanger water flow

Dpcd (kPa) - Plant (side) heating exchanger pressure drop'-' - Conditions outside the operating rangeWaterflow and pressure drop on heat exchangers calculated with 8°C of delta TNOTE: Data on grey background: unit switched to non-silenced operation

0122 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 19,0

8,61

2,05 0,990

Tcd Pt

Pat

Qcd Pcd

22,1 24,0 29,1 33,0 39,0 20,2 23,0 24,9 29,7 33,5 39,4 - 23,3 25,2 30,1 34,0 39,9

8,58 8,58 8,64 8,72 8,90 9,49 9,76 9,91 10,2 10,4 10,7 - 10,3 10,6 11,2 11,5 11,8

2,39 2,60 3,15 3,57 4,22 2,19 2,50 2,70 3,22 3,63 4,28 - 2,53 2,74 3,28 3,70 4,34 1,34 1,59 2,33 3,00 4,19 1,13 1,47 1,71 2,43 3,10 4,30 - 1,51 1,77 2,52 3,21 4,42

Ta

- Pcd 1,53 1,82 2,64 3,36 4,59 - - 1,87 2,78 3,55 4,81 - - 1,91 2,95 3,79 5,08 - Qcd 2,55 2,78 3,35 3,78 4,42 - - 2,82 3,44 3,89 4,53 - - 2,85 3,54 4,02 4,65

- Pat 10,9 11,4 12,2 12,7 13,1 - - 12,1 13,4 14,0 14,5 - - 12,9 14,6 15,4 16,1

- Pt 23,4 25,5 30,8 34,7 40,6 - - 25,8 31,5 35,6 41,5 - - 26,0 32,4 36,7 42,5 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

0152 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 22,6

9,97

2,44 0,965

Tcd Pt

Pat

Qcd Pcd

27,4 30,5 37,9 43,4 51,6 22,8 28,0 31,2 38,7 44,3 52,3 - 28,6 31,7 39,2 44,7 52,6

10,5 10,8 11,4 11,8 12,1 10,3 11,5 12,1 13,2 13,8 14,3 - 12,5 13,1 14,3 15,0 15,6

2,97 3,30 4,10 4,70 5,58 2,48 3,04 3,38 4,20 4,81 5,68 - 3,11 3,45 4,27 4,86 5,72 1,43 1,76 2,72 3,57 5,04 0,993 1,49 1,85 2,86 3,75 5,23 - 1,57 1,93 2,95 3,83 5,31

Ta

- Pcd 1,67 2,03 3,04 3,91 5,38 - - 2,15 3,14 4,00 5,44 - - 2,30 3,24 4,08 5,50 - Qcd 3,21 3,54 4,33 4,92 5,76 - - 3,65 4,40 4,97 5,80 - - 3,77 4,48 5,02 5,82

- Pat 13,8 14,4 15,6 16,2 16,9 - - 15,9 16,9 17,6 18,4 - - 17,7 18,4 19,0 19,9

- Pt 29,5 32,5 39,7 45,1 52,9 - - 33,4 40,3 45,5 53,1 - - 34,5 40,9 45,8 53,2 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

0202 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 32,2

14,8

3,49 1,24

Tcd Pt

Pat

Qcd Pcd

38,5 42,5 52,2 59,5 70,3 32,6 39,2 43,3 53,1 60,5 71,2 - 39,7 43,9 53,8 61,2 71,8

15,0 15,2 15,6 15,9 16,3 16,7 17,2 17,5 18,2 18,7 19,4 - 18,3 18,7 19,7 20,4 21,2

4,17 4,59 5,64 6,44 7,61 3,53 4,25 4,70 5,77 6,56 7,73 - 4,32 4,77 5,85 6,66 7,81 1,77 2,15 3,25 4,22 5,90 1,27 1,84 2,25 3,39 4,40 6,09 - 1,90 2,32 3,50 4,52 6,22

Ta

- Pcd 1,98 2,41 3,62 4,66 6,39 - - 2,52 3,77 4,84 6,58 - - 2,65 3,95 5,04 6,81 - Qcd 4,40 4,86 5,96 6,76 7,91 - - 4,97 6,08 6,89 8,03 - - 5,10 6,22 7,03 8,17

- Pat 19,4 20,0 21,3 22,2 23,2 - - 21,4 23,1 24,1 25,4 - - 22,8 25,0 26,2 27,7

- Pt 40,4 44,6 54,7 62,1 72,6 - - 45,6 55,7 63,1 73,6 - - 46,6 56,9 64,3 74,7 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

0262 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 43,4

16,4

4,69 1,85

Tcd Pt

Pat

Qcd Pcd

49,3 53,3 64,1 73,0 87,1 44,2 50,5 54,6 65,6 74,4 88,2 - 51,2 55,5 66,5 75,3 88,9

17,2 17,6 18,6 19,2 20,0 18,9 19,9 20,5 21,8 22,7 23,7 - 22,0 22,6 23,8 24,7 25,9

5,34 5,77 6,94 7,90 9,43 4,80 5,48 5,93 7,12 8,07 9,57 - 5,57 6,03 7,23 8,19 9,67 2,39 2,80 4,05 5,24 7,47 1,94 2,52 2,96 4,25 5,48 7,69 - 2,60 3,06 4,40 5,63 7,85

Ta

- Pcd 2,70 3,18 4,56 5,82 8,03 - - 3,31 4,76 6,05 8,25 - - 3,47 4,99 6,30 8,49 - Qcd 5,67 6,15 7,37 8,33 9,78 - - 6,28 7,53 8,48 9,91 - - 6,42 7,71 8,66 10,1

- Pat 24,5 25,0 26,1 27,0 28,3 - - 27,8 28,6 29,5 30,9 - - 31,0 31,4 32,2 33,8

- Pt 52,0 56,4 67,7 76,4 89,8 - - 57,5 69,0 77,7 90,8 - - 58,7 70,4 79,2 91,9 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

-1- 02 - 51

0,91502

dcT

tPdQ

1,22 42932 2

aT

21 -5 0 7 - 02

53

0,4 1,92 0,33 0,93 2,0206 513 753 224 912

2210- 21 -5 0- 51

54

0,32 9,42 7,92 5,33052 072 223 363

7 - 21 -5- 02 - 51

05

4,93 - 3,32 2,52 ,03824 352 472 823

0 7

1 0,43 9,938 073 434

16,8

50,2099,0

taP

dcQdcP

85,8 ,8

93,2 ,243,1 ,1

-dcP 35,1 ,1-dcQ 55,2 ,2

-taP 9,01 11

-tP 4,32 52

dcT

-1- 51- 02aT

-1- 02 - 51

622

dcT

tP 472 03

aT

85 46,8 27,8 09,8 94,9

06 51,3 75,3 22,4 91,295 33,2 00,3 91,4 31,1

28 46,2 63,3 95,4 -87 53,3 87,3 24,4 -

4,1 2,21 7,21 1,31 -

5,5 8,03 7,43 6,04 -

55

70-521 - 02

21 -5 0 7 - 02

53

50 973 434 615 822

67,9 19,9 2,01 4,01

05,2 07,2 22,3 36,374,1 17,1 34,2 01,3

- 78,1 87,2 55,3- 28,2 44,3 98,3

- 1,21 4,31 0,41

- 8,52 5,13 6,53

06

0-5- 21- 51

2510- 21 -5 0- 51

54

082 213 783 344

7,01 - 3,01 6,01 2,11

82,4 - 35,2 47,2 82,303,4 - 15,1 77,1 25,2

18,4 - - 19,1 59,235,4 - - 58,2 45,3

5,41 - - 9,21 6,41

5,14 - - 0,62 4,23

56

7 -5- 21- 51- 02

7 - 21 -5- 02 - 51

05

325 682 713 293

2 5,11 8,11

8 07,3 43,42 12,3 24,4

5 97,3 80,54 20,4 56,4

6 4,51 1,61

4 7,63 5,24

70

0 7

2 744 625

6,22

79,9

44,2569,0

tP

taP

dcQdcP

4,72 03

5,01 01

79,2 ,334,1 ,1

-dcP 76,1 ,2-dcQ 12,3 ,3

-taP 8,31 41

-tP 5,92 23

dcT

-1- 51- 02aT

-1- 02 - 51

dcT

aT

5,0 9,73 4,34 6,15 8,22

8,0 4,11 8,11 1,21 3,01

03 01,4 07,4 85,5 84,267 27,2 75,3 40,5 399,0

30 40,3 19,3 83,5 -45 33,4 29,4 67,5 -

4,4 6,51 2,61 9,61 -

5,2 7,93 1,54 9,25 -

55

70-521 - 02

21 -5 0 7 - 02

53

0,82 2,13 7,83 3,44

5,11 1,21 2,31 8,31

40,3 83,3 02,4 18,494,1 58,1 68,2 57,3

- 51,2 41,3 00,4- 56,3 04,4 79,4

- 9,51 9,61 6,71

- 4,33 3,04 5,54

06

0-5- 21- 51

2020- 21 -5 0- 51

54

3,25 - 6,82 7,13 2,93

3,41 - 5,21 1,31 3,41

86,5 - 11,3 54,3 72,432,5 - 75,1 39,1 59,2

44,5 - - 03,2 42,308,5 - - 77,3 84,4

4,81 - - 7,71 4,81

1,35 - - 5,43 9,04

56

7 -5- 21- 51- 02

7 - 21 -5- 02 - 51

05

2 7,44 6,25

3 0,51 6,51

7 68,4 27,55 38,3 13,5

4 80,4 05,58 20,5 28,5

4 0,91 9,91

9 8,54 2,35

70

0 7

2,23

8,41

94,342,1

tP

taP

dcQdcP

5,83 24

0,51 51

71,4 ,477,1 ,2

-dcP 89,1 ,2-dcQ 04,4 ,4

-taP 4,91 02

-tP 4,04 44

dcT

-1- 51- 02aT

-1- 02 - 51

dT

aT

5,2 2,25 5,95 3,07 6,23

2,5 6,51 9,51 3,61 7,61

95 46,5 44,6 16,7 35,351 52,3 22,4 09,5 72,1

14 26,3 66,4 93,6 -68 69,5 67,6 19,7 -

0,0 3,12 2,22 2,32 -

6,4 7,45 1,26 6,27 -

55

70-521 - 02

21 -5 0 7 - 02

53

2,93 3,34 1,35 5,06

2,71 5,71 2,81 7,81

52,4 07,4 77,5 65,648,1 52,2 93,3 04,4

- 25,2 77,3 48,4- 79,4 80,6 98,6

- 4,12 1,32 1,42

- 6,54 7,55 1,36

06

0-5- 21- 51

2620- 21 -5 0- 51

54

2,17 - 7,93 9,34 8,35

4,91 - 3,81 7,81 7,91

37,7 - 23,4 77,4 58,590,6 - 09,1 23,2 05,3

85,6 - - 56,2 59,330,8 - - 01,5 22,6

4,52 - - 8,22 0,52

6,37 - - 6,64 9,65

56

7 -5- 21- 51- 02

7 - 21 -5- 02 - 51

05

8 2,16 8,17

7 4,02 2,12

5 66,6 18,70 25,4 22,6

5 40,5 18,62 30,7 71,8

0 2,62 7,72

9 3,46 7,47

70

0 7

4,34

4,61

96,458,1

dcT

tP

taP

dcQdcP

3,94 35

2,71 71

43,5 ,593,2 ,2

-dcP 07,2 ,3-dcQ 76,5 ,6

-taP 5,42 52

-tP 0,25 65

dcT

-1- 51- 02aT

53

3,3 1,46 0,37 1,78 2,44

6,7 6,81 2,91 0,02 9,81

77 49,6 09,7 34,9 08,408 50,4 42,5 74,7 49,1

81 65,4 28,5 30,8 -51 73,7 33,8 87,9 -

0,5 1,62 0,72 3,82 -

4,6 7,76 4,67 8,98 -

55

70-521 - 02

54

5,05 6,45 6,56 4,47

9,91 5,02 8,12 7,22

84,5 39,5 21,7 70,825,2 69,2 52,4 84,5

- 13,3 67,4 50,6- 82,6 35,7 84,8

- 8,72 6,82 5,92

- 5,75 0,96 7,77

06

0-5- 21- 51

05

2,88 - 2,15 5,55 5,66

7,32 - 0,22 6,22 8,32

75,9 - 75,5 30,6 32,796,7 - 06,2 60,3 04,4

52,8 - - 74,3 99,419,9 - - 24,6 7,7

9,03 - - 0,13 4,13

8,09 - - 7,85 4,07

56

7 -5- 21- 51- 02

5 3,57 9,88

8 7,42 9,52

3 91,8 76,90 36,5 58,7

9 03,6 94,81 66,8 1,01

4 2,23 8,33

4 2,97 9,19

70

0302 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15 -12 -5 0 7 -20 -15

35 45 50 55,2

23,1

5,97 2,61

Tcd Pt

Pat

Qcd Pcd

60,3 64,1 75,3 85,3 102 57,1 62,2 66,0 77,1 86,9 103 - 63,2 67,1 78,3 88,0 104

22,4 22,1 21,8 22,1 23,0 25,0 25,1 25,2 25,8 26,4 27,6 - 26,5 27,0 28,1 29,0 30,4

6,52 6,94 8,15 9,23 11,0 6,20 6,75 7,17 8,37 9,43 11,2 - 6,87 7,30 8,51 9,57 11,3 3,11 3,51 4,85 6,21 8,88 2,81 3,33 3,75 5,11 6,49 9,15 - 3,45 3,89 5,29 6,69 9,37

Ta

- Pcd 3,56 4,03 5,50 6,94 9,64 - - 4,19 5,74 7,22 9,97 - - 4,36 6,01 7,56 10,4 - Qcd 6,99 7,43 8,68 9,75 11,5 - - 7,58 8,87 9,95 11,7 - - 7,73 9,08 10,2 11,9

- Pat 28,1 28,8 30,5 31,7 33,4 - - 30,8 33,2 34,7 36,8 - - 32,8 36,0 38,0 40,4

- Pt 64,1 68,2 79,7 89,5 105 - - 69,4 81,2 91,1 107 - - 70,6 83,0 93,0 109 55 60 65 Tcd

7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 7 0 -5 -12 -15 -20 Ta

-1- 02 - 51

2,55795

dcT

tPdQ

3,06 46256 6

aT

21 -5 0 7 - 02

53

1,4 3,57 3,58 201 1,7549 518 329 011 026

2030- 21 -5 0- 51

54

2,26 0,66 1,77 9,68576 717 738 349

7 - 21 -5- 02 - 51

05

301 - 2,36 1,76 3,87211 786 037 58

0 7

3 0,88 4011 759 311

1,32

79,516,2

taP

dcQdcP

4,22 22

25,6 ,611,3 ,3

-dcP 65,3 ,4-dcQ 99,6 ,7

-taP 1,82 82

-tP 1,46 86

dcT

-1- 51- 02aT

1,2 8,12 1,22 0,32 0,52

49 51,8 32,9 0,11 02,615 58,4 12,6 88,8 18,2

30 05,5 49,6 46,9 -34 86,8 57,9 5,11 -

8,8 5,03 7,13 4,33 -

2,8 7,97 5,98 501 -

55

70-521 - 02

1,52 2,52 8,52 4,62

57,6 71,7 73,8 34,933,3 57,3 11,5 94,6

- 91,4 47,5 22,7- 85,7 78,8 59,9

- 8,03 2,33 7,43

- 4,96 2,18 1,19

06

0-5- 21- 51

6,72 - 5,62 0,72 ,82

2,11 - 78,6 03,7 5,851,9 - 54,3 98,3 92,5

79,9 - - 63,4 0,67,11 - - 37,7 80,9

8,63 - - 8,23 0,63

701 - - 6,07 0,38

56

7 -5- 21- 51- 02

1 0,92 4,03

1 75,9 3,119 96,6 73,9

1 65,7 4,018 2,01 9,11

0 0,83 4,04

0 0,39 901

70

9. HEAT PUMP CAPACITY PERFORMANCE

AWR-HT / LN-CA-E

AWR_HT_0122_0302 HFC 407C19

AWR-HT

Tde (°C) - Plant (side) heat exchanger recovery output water temperatureTa [°C] - Source (side) cooling exchanger air temperaturePf (kW) - Cooling capacity (Plant side cooling exchanger water in/out 12/7 °C)Pat (kW) - Total power inputPtde (kW) - Heat recovery thermal capacityQde (m3/h) - Plant (side) cooling exchanger recovery water flowDpde (kPa) - Plant side heating exchanger recovery pressure drop'-' - Conditions outside the operating rangeWaterflow and pressure drop on heat exchangers calculated with 5°C of delta TNOTE: Data on grey background: unit switched to non-silenced operation

0122

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

36,3 36,3 36,3 35,4 35,4 35,4 34,4 34,4 34,4 33,5 33,5 33,5 32,6 32,6 32,6 31,6 31,6 31,6 10,1 10,1 10,1 11,2 11,2 11,2 12,5 12,5 12,5 13,9 13,9 13,9 15,5 15,5 15,5 17,2 17,2 17,2 9,14 8,68 8,22 10,2 9,97 9,46 11,5 11,5 10,9 12,9 13,2 12,6 14,5 15,2 14,5 16,2 17,4 16,6 1,58 1,51 1,43 1,77 1,73 1,64 1,99 1,99 1,90 2,23 2,29 2,19 2,51 2,64 2,52 2,81 3,02 2,89 2,56 2,32 2,09 3,21 3,07 2,77 4,05 4,06 3,68 5,11 5,39 4,89 6,44 7,12 6,48 8,07 9,36 8,54

Tde Ta

0152

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

46,5 46,5 46,5 45,4 45,4 45,4 44,2 44,2 44,2 42,8 42,8 42,8 41,2 41,2 41,2 39,4 39,4 39,4 13,1 13,1 13,1 14,2 14,2 14,2 15,5 15,5 15,5 16,8 16,8 16,8 18,3 18,3 18,3 19,8 19,8 19,8 11,6 11,0 10,4 12,7 12,4 11,8 14,0 14,0 13,3 15,3 15,7 15,0 16,8 17,6 16,8 18,3 19,7 18,8 2,01 1,91 1,81 2,21 2,15 2,05 2,42 2,43 2,31 2,66 2,73 2,60 2,91 3,06 2,92 3,18 3,42 3,27 4,12 3,73 3,36 4,98 4,75 4,29 6,01 6,03 5,46 7,23 7,62 6,92 8,66 9,58 8,72 10,3 12,0 10,9

Tde Ta

0202

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

64,2 64,2 64,2 62,6 62,6 62,6 61,0 61,0 61,0 59,5 59,5 59,5 58,0 58,0 58,0 56,5 56,5 56,5 18,0 18,0 18,0 19,8 19,8 19,8 21,7 21,7 21,7 23,8 23,8 23,8 26,0 26,0 26,0 28,4 28,4 28,4 16,0 15,2 14,4 17,8 17,3 16,4 19,7 19,7 18,7 21,8 22,3 21,2 24,0 25,2 24,0 26,4 28,4 27,1 2,77 2,63 2,50 3,08 3,00 2,85 3,41 3,42 3,25 3,77 3,87 3,69 4,16 4,38 4,18 4,58 4,93 4,71 3,39 3,07 2,76 4,18 3,99 3,60 5,14 5,16 4,67 6,29 6,63 6,02 7,66 8,47 7,71 9,27 10,7 9,80

Tde Ta

0262

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

81,5 81,5 81,5 79,3 79,3 79,3 76,9 76,9 76,9 74,4 74,4 74,4 71,7 71,7 71,7 68,9 68,9 68,9 22,8 22,8 22,8 25,0 25,0 25,0 27,4 27,4 27,4 30,0 30,0 30,0 33,0 33,0 33,0 36,2 36,2 36,2 20,8 19,8 18,7 23,0 22,4 21,2 25,4 25,4 24,1 28,0 28,8 27,3 31,0 32,5 31,0 34,2 36,7 35,0 3,60 3,43 3,25 3,98 3,88 3,69 4,40 4,40 4,19 4,86 4,99 4,75 5,37 5,64 5,38 5,92 6,37 6,08 5,74 5,20 4,68 6,99 6,67 6,02 8,54 8,57 7,76 10,4 11,0 9,98 12,7 14,1 12,8 15,5 17,9 16,4

Tde Ta

0302

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

97,8 97,8 97,8 95,1 95,1 95,1 92,3 92,3 92,3 89,4 89,4 89,4 86,3 86,3 86,3 83,1 83,1 83,1 27,5 27,5 27,5 30,3 30,3 30,3 33,5 33,5 33,5 37,1 37,1 37,1 41,1 41,1 41,1 45,5 45,5 45,5 25,5 24,2 23,0 28,3 27,6 26,2 31,5 31,5 29,9 35,1 35,9 34,2 39,1 41,0 39,1 43,5 46,8 44,6 4,42 4,20 3,99 4,90 4,78 4,54 5,45 5,46 5,19 6,07 6,23 5,94 6,77 7,12 6,79 7,54 8,12 7,75 8,63 7,81 7,03 10,6 10,1 9,13 13,1 13,2 11,9 16,3 17,2 15,6 20,3 22,4 20,4 25,1 29,1 26,6

Tde Ta

03

53 04 4

fP 3,63 3,63 63

edT

aT

53

54 53 04 54 53

3,6 4,53 4,53 4,53 4,43

2210

04 54

04 54 53 04

4,43 4,43 5,33 5,33 3

05

54 53 04 54 53

5,33 6,23 6,23 6,23 6,13

55

04 54

6 6,13 6,13

taP

edtP

edQ

edpD

, ,

1,01 1,01 01

41,9 86,8 2,8

85,1 15,1 4,1

65,2 23,2 0,2

03

53 04 4

fP

taP

edtP

edQ

5,64 5,64 64

1,31 1,31 31

6,11 0,11 01

10,2 19,1 8,1

edT

aT

, , , , ,

1,0 2,11 2,11 2,11 5,21

22 2,01 79,9 64,9 5,11

34 77,1 37,1 46,1 99,1

90 12,3 70,3 77,2 50,4

53

54 53 04 54 53

5,6 4,54 4,54 4,54 2,44

1,3 2,41 2,41 2,41 5,51

4,0 7,21 4,21 8,11 0,41

18 12,2 51,2 50,2 24,2

, , , ,

5,21 5,21 9,31 9,31

5,11 9,01 9,21 2,31

99,1 09,1 32,2 92,2 2

60,4 86,3 11,5 93,5 4

2510

04 54

04 54 53 04

2,44 2,44 8,24 8,24 4

5,51 5,51 8,61 8,61

0,41 3,31 3,51 7,51

34,2 13,2 66,2 37,2 2

, , , , ,

9,31 5,51 5,51 5,51 2,71

6,21 5,41 2,51 5,41 2,61

91,2 15,2 46,2 25,2 18,2

98,4 44,6 21,7 84,6 70,8

05

54 53 04 54 53

8,24 2,14 2,14 2,14 4,93

8,61 3,81 3,81 3,81 8,91

0,51 8,61 6,71 8,61 3,81

06,2 19,2 60,3 29,2 81,3

, ,

2 2,71 2,71

2 4,71 6,61

1 20,3 98,2

7 63,9 45,8

55

04 54

4 4,93 4,93

8 8,91 8,91

3 7,91 8,81

8 24,3 72,3

edQ

edpD

10,2 19,1 8,1

21,4 37,3 3,3

03

53 04 4

fP

taP

edtP

edQ

edpD

2,46 2,46 46

0,81 0,81 81

0,61 2,51 41

77,2 36,2 5,2

93,3 70,3 7,2

edT

aT

18 12,2 51,2 50,2 24,2

63 89,4 57,4 92,4 10,6

53

54 53 04 54 53

2,4 6,26 6,26 6,26 0,16

0,8 8,91 8,91 8,91 7,12

4,4 8,71 3,71 4,61 7,91

05 80,3 00,3 58,2 14,3

67 81,4 99,3 06,3 41,5

34,2 13,2 66,2 37,2 2

30,6 64,5 32,7 26,7 6

2020

04 54

04 54 53 04

0,16 0,16 5,95 5,95 5

7,12 7,12 8,32 8,32 2

7,91 7,81 8,12 3,22 2

24,3 52,3 77,3 78,3 3

61,5 76,4 92,6 36,6 6

2620

06,2 19,2 60,3 29,2 81,3

29,6 66,8 85,9 27,8 3,01

05

54 53 04 54 53

5,95 0,85 0,85 0,85 5,65

8,32 0,62 0,62 0,62 4,82

2,12 0,42 2,52 0,42 4,62

96,3 61,4 83,4 81,4 85,4

20,6 66,7 74,8 17,7 72,9

8 24,3 72,3

3 0,21 9,01

55

04 54

5 5,65 5,65

4 4,82 4,82

4 4,82 1,72

8 39,4 17,4

7 7,01 08,9

03

53 04 4

fP

taP

edtP

edQ

edpD

5,18 5,18 18

8,22 8,22 22

8,02 8,91 81

06,3 34,3 2,3

47,5 02,5 6,4

edT

aT

03

53 04 4edT

aT

53

54 53 04 54 53

5,1 3,97 3,97 3,97 9,67

8,2 0,52 0,52 0,52 4,72

7,8 0,32 4,22 2,12 4,52

52 89,3 88,3 96,3 04,4

86 99,6 76,6 20,6 45,8

53

54 53 04 54 53

2620

04 54

04 54 53 04

9,67 9,67 4,47 4,47 7

4,72 4,72 0,03 0,03 3

4,52 1,42 0,82 8,82 2

04,4 91,4 68,4 99,4 4

75,8 67,7 4,01 0,11 9

2030

04 54

04 54 53 04

05

54 53 04 54 53

4,47 7,17 7,17 7,17 9,86

0,03 0,33 0,33 0,33 2,63

3,72 0,13 5,23 0,13 2,43

57,4 73,5 46,5 83,5 29,5

89,9 7,21 1,41 8,21 5,51

05

54 53 04 54 53

55

04 54

9 9,86 9,86

2 2,63 2,63

2 7,63 0,53

2 73,6 80,6

5 9,71 4,61

55

04 54

fP

taP

edtP

edQ

edpD

8,79 8,79 79

5,72 5,72 72

5,52 2,42 32

24,4 02,4 9,3

36,8 18,7 0,7

8,7 1,59 1,59 1,59 3,29

5,7 3,03 3,03 3,03 5,33

0,3 3,82 6,72 2,62 5,13

99 09,4 87,4 45,4 54,5

30 6,01 1,01 31,9 1,31

3,29 3,29 4,98 4,98 8

5,33 5,33 1,73 1,73 3

5,13 9,92 1,53 9,53 3

64,5 91,5 70,6 32,6 5

2,31 9,11 3,61 2,71

4,98 3,68 3,68 3,68 1,38

1,73 1,14 1,14 1,14 5,54

2,43 1,93 0,14 1,93 5,34

49,5 77,6 21,7 97,6 45,7

6,51 3,02 4,22 4,02 1,52

1 1,38 1,38

5 5,54 5,54

5 8,64 6,44

4 21,8 57,7

1 1,92 6,62

10. DESUPERHEATER CAPACITY PERFORMANCE

AWR-HT-D / CA-E

20AWR_HT_0122_0302 HFC 407C

AWR-HT

Tde (°C) - Plant (side) heat exchanger recovery output water temperatureTa [°C] - Source (side) cooling exchanger air temperaturePf (kW) - Cooling capacity (Plant side cooling exchanger water in/out 12/7 °C)Pat (kW) - Total power inputPtde (kW) - Heat recovery thermal capacityQde (m3/h) - Plant (side) cooling exchanger recovery water flowDpde (kPa) - Plant side heating exchanger recovery pressure drop'-' - Conditions outside the operating rangeWaterflow and pressure drop on heat exchangers calculated with 5°C of delta TNOTE: Data on grey background: unit switched to non-silenced operation

0122

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

36,2 36,2 36,2 35,3 35,3 35,3 34,4 34,4 34,4 33,7 33,7 33,7 33,0 33,0 33,0 32,4 32,4 32,4 10,1 10,1 10,1 11,2 11,2 11,2 12,6 12,6 12,6 14,2 14,2 14,2 16,0 16,0 16,0 18,0 18,0 18,0 9,10 8,65 8,19 10,2 9,97 9,46 11,6 11,6 11,0 13,2 13,5 12,8 15,0 15,7 15,0 17,0 18,3 17,4 1,58 1,50 1,42 1,77 1,73 1,64 2,01 2,01 1,91 2,28 2,34 2,23 2,59 2,72 2,60 2,94 3,17 3,03 2,55 2,30 2,08 3,21 3,07 2,77 4,12 4,13 3,74 5,32 5,60 5,09 6,87 7,60 6,92 8,86 10,3 9,37

Tde Ta

0152

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

46,7 46,7 46,7 45,5 45,5 45,5 44,2 44,2 44,2 42,6 42,6 42,6 40,9 40,9 40,9 38,9 38,9 38,9 13,2 13,2 13,2 14,4 14,4 14,4 15,8 15,8 15,8 17,3 17,3 17,3 19,0 19,0 19,0 20,8 20,8 20,8 11,7 11,2 10,6 12,9 12,6 12,0 14,3 14,3 13,6 15,8 16,2 15,4 17,5 18,3 17,5 19,3 20,7 19,8 2,03 1,93 1,84 2,24 2,19 2,08 2,47 2,48 2,36 2,74 2,81 2,68 3,03 3,18 3,04 3,34 3,60 3,44 4,23 3,83 3,45 5,14 4,90 4,42 6,27 6,29 5,69 7,66 8,08 7,33 9,37 10,4 9,43 11,4 13,3 12,1

Tde Ta

0202

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

64,0 64,0 64,0 62,5 62,5 62,5 60,9 60,9 60,9 59,4 59,4 59,4 57,9 57,9 57,9 56,4 56,4 56,4 18,1 18,1 18,1 19,9 19,9 19,9 21,8 21,8 21,8 23,9 23,9 23,9 26,1 26,1 26,1 28,5 28,5 28,5 16,1 15,3 14,5 17,9 17,4 16,5 19,8 19,8 18,8 21,9 22,4 21,3 24,1 25,3 24,1 26,5 28,5 27,2 2,79 2,65 2,52 3,09 3,02 2,87 3,43 3,43 3,27 3,79 3,89 3,71 4,18 4,39 4,19 4,60 4,95 4,73 3,43 3,11 2,80 4,23 4,03 3,64 5,19 5,21 4,71 6,34 6,69 6,07 7,72 8,54 7,77 9,34 10,8 9,88

Tde Ta

0262

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

81,3 81,3 81,3 79,1 79,1 79,1 76,7 76,7 76,7 74,1 74,1 74,1 71,5 71,5 71,5 68,7 68,7 68,7 23,0 23,0 23,0 25,3 25,3 25,3 27,7 27,7 27,7 30,3 30,3 30,3 33,1 33,1 33,1 36,1 36,1 36,1 21,0 20,0 18,9 23,3 22,7 21,5 25,7 25,7 24,4 28,3 29,0 27,6 31,1 32,6 31,1 34,1 36,6 34,9 3,64 3,47 3,29 4,03 3,93 3,74 4,45 4,45 4,24 4,90 5,03 4,79 5,38 5,66 5,40 5,90 6,35 6,07 5,87 5,31 4,78 7,17 6,84 6,18 8,74 8,76 7,94 10,6 11,2 10,1 12,8 14,2 12,9 15,4 17,8 16,3

Tde Ta

0302

30 35 40 45 50 55 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45 35 40 45

Pf Pat Ptde Qde Dpde

96,6 96,6 96,6 93,8 93,8 93,8 90,9 90,9 90,9 87,8 87,8 87,8 84,7 84,7 84,7 81,3 81,3 81,3 28,8 28,8 28,8 31,8 31,8 31,8 35,2 35,2 35,2 39,0 39,0 39,0 43,1 43,1 43,1 47,6 47,6 47,6 26,8 25,5 24,1 29,8 29,1 27,6 33,2 33,2 31,5 37,0 37,9 36,0 41,1 43,2 41,1 45,6 49,1 46,8 4,65 4,42 4,20 5,16 5,04 4,79 5,75 5,76 5,48 6,40 6,57 6,26 7,12 7,49 7,14 7,91 8,51 8,13 9,54 8,64 7,78 11,8 11,2 10,2 14,6 14,7 13,3 18,1 19,1 17,3 22,4 24,8 22,6 27,6 32,0 29,2

Tde Ta

03

53 04 4

fP 2,63 2,63 63

edT

aT

53

54 53 04 54 53

2,6 3,53 3,53 3,53 4,43

2210

04 54

04 54 53 04

4,43 4,43 7,33 7,33 3

05

54 53 04 54 53

7,33 0,33 0,33 0,33 4,23

55

04 54

4 4,23 4,23

taP

edtP

edQ

edpD

, ,

1,01 1,01 01

01,9 56,8 ,8

85,1 05,1 4,1

55,2 03,2 0,2

03

53 04 4

fP

taP

edtP

edQ

7,64 7,64 64

2,31 2,31 31

7,11 2,11 01

30,2 39,1 8,1

edT

aT

, , , , ,

1,0 2,11 2,11 2,11 6,21

91 2,01 79,9 64,9 6,11

24 77,1 37,1 46,1 10,2

80 12,3 70,3 77,2 21,4

53

54 53 04 54 53

7,6 5,54 5,54 5,54 2,44

2,3 4,41 4,41 4,41 8,51

6,0 9,21 6,21 0,21 3,41

48 42,2 91,2 80,2 74,2

, , , ,

6,21 6,21 2,41 2,41

6,11 0,11 2,31 5,31

10,2 19,1 82,2 43,2 2

31,4 47,3 23,5 06,5 5

2510

04 54

04 54 53 04

2,44 2,44 6,24 6,24 4

8,51 8,51 3,71 3,71

3,41 6,31 8,51 2,61

84,2 63,2 47,2 18,2 2

, , , , ,

2,41 0,61 0,61 0,61 0,81

8,21 0,51 7,51 0,51 0,71

32,2 95,2 27,2 06,2 49,2

90,5 78,6 06,7 29,6 68,8

05

54 53 04 54 53

6,24 9,04 9,04 9,04 9,83

3,71 0,91 0,91 0,91 8,02

4,51 5,71 3,81 5,71 3,91

86,2 30,3 81,3 40,3 43,3

, ,

0 0,81 0,81

0 3,81 4,71

4 71,3 30,3

6 3,01 73,9

55

04 54

9 9,83 9,83

8 8,02 8,02

3 7,02 8,91

4 06,3 44,3

edQ

edpD

30,2 39,1 8,1

32,4 38,3 4,3

03

53 04 4

fP

taP

edtP

edQ

edpD

0,46 0,46 46

1,81 1,81 81

1,61 3,51 41

97,2 56,2 5,2

34,3 11,3 8,2

edT

aT

48 42,2 91,2 80,2 74,2

54 41,5 09,4 24,4 72,6

53

54 53 04 54 53

0,4 5,26 5,26 5,26 9,06

1,8 9,91 9,91 9,91 8,12

5,4 9,71 4,71 5,61 8,91

25 90,3 20,3 78,2 34,3

08 32,4 30,4 46,3 91,5

84,2 63,2 47,2 18,2 2

92,6 96,5 66,7 80,8 7

2020

04 54

04 54 53 04

9,06 9,06 4,95 4,95 5

8,12 8,12 9,32 9,32 2

8,91 8,81 9,12 4,22 2

34,3 72,3 97,3 98,3 3

12,5 17,4 43,6 96,6 6

2620

86,2 30,3 81,3 40,3 43,3

33,7 73,9 4,01 34,9 4,11

05

54 53 04 54 53

4,95 9,75 9,75 9,75 4,65

9,32 1,62 1,62 1,62 5,82

3,12 1,42 3,52 1,42 5,62

17,3 81,4 93,4 91,4 06,4

70,6 27,7 45,8 77,7 43,9

4 06,3 44,3

4 3,31 1,21

55

04 54

4 4,65 4,65

5 5,82 5,82

5 5,82 2,72

0 59,4 37,4

4 8,01 88,9

03

53 04 4

fP

taP

edtP

edQ

edpD

3,18 3,18 18

0,32 0,32 32

0,12 0,02 81

46,3 74,3 2,3

78,5 13,5 7,4

edT

aT

03

53 04 4edT

aT

53

54 53 04 54 53

3,1 1,97 1,97 1,97 7,67

0,3 3,52 3,52 3,52 7,72

9,8 3,32 7,22 5,12 7,52

92 30,4 39,3 47,3 54,4

87 71,7 48,6 81,6 47,8

53

54 53 04 54 53

2620

04 54

04 54 53 04

7,67 7,67 1,47 1,47 7

7,72 7,72 3,03 3,03 3

7,52 4,42 3,82 0,92 2

54,4 42,4 09,4 30,5 4

67,8 49,7 6,01 2,11

2030

04 54

04 54 53 04

05

54 53 04 54 53

1,47 5,17 5,17 5,17 7,86

3,03 1,33 1,33 1,33 1,63

6,72 1,13 6,23 1,13 1,43

97,4 83,5 66,5 04,5 09,5

1,01 8,21 2,41 9,21 4,51

05

54 53 04 54 53

55

04 54

7 7,86 7,86

1 1,63 1,63

1 6,63 9,43

0 53,6 70,6

4 8,71 3,61

55

04 54

fP

taP

edtP

edQ

edpD

6,69 6,69 69

8,82 8,82 82

8,62 5,52 42

56,4 24,4 2,4

45,9 46,8 7,7

6,6 8,39 8,39 8,39 9,09

8,8 8,13 8,13 8,13 2,53

1,4 8,92 1,92 6,72 2,33

02 61,5 40,5 97,4 57,5

87 8,11 2,11 2,01 6,41

9,09 9,09 8,78 8,78 8

2,53 2,53 0,93 0,93 3

2,33 5,13 0,73 9,73 3

67,5 84,5 04,6 75,6 6

7,41 3,31 1,81 1,91

8,78 7,48 7,48 7,48 3,18

0,93 1,34 1,34 1,34 6,74

0,63 1,14 2,34 1,14 6,54

62,6 21,7 94,7 41,7 19,7

3,71 4,22 8,42 6,22 6,72

3 3,18 3,18

6 6,74 6,74

6 1,94 8,64

1 15,8 31,8

6 0,23 2,92

10. DESUPERHEATER CAPACITY PERFORMANCE

AWR-HT-D / LN-CA-E

AWR_HT_0122_0302 HFC 407C21

AWR-HT

11. OPERATING LIMITS

AWR-HT / CA-E - 0122 ÷ 0302

-15

20

15

10

5

0

-5

-10

25

30

35

40

4546

50

-10 -5-8 0-2 5 10 15 20

COOLING LIMITS

T.Out Evap. [°C]

Air

Tem

p. [°

C]

-15

20

15

10

5

0

-5

-10

25

30

35

40

4546

50

-10 -5-8 0-2 5 10 15 20

COOLING LIMITS

T.Out Evap. [°C]

Air

Tem

p. [°

C]

AWR-HT / LN-CA-E - 0122 ÷ 0302

22AWR_HT_0122_0302 HFC 407C

AWR-HT

-25

35

40

45

50

55

60

65

70

-20 -15 -10-12 -5 0 5 10 15 20 25 30 35 40 45

HEAT PUMP LIMITS

Air Temp. [°C]

T.O

ut

Co

nd

. [°

C]

-25

35

40

45

50

55

60

65

70

-20 -15 -10-12 -5 0 5 10 15 20 25 30 35 40 45

HEAT PUMP LIMITS

Air Temp. [°C]

T.O

ut

Co

nd

. [°

C]

11. OPERATING LIMITS

AWR-HT / CA-E - 0122 ÷ 0302

AWR-HT / LN-CA-E - 0122 ÷ 0302

AWR_HT_0122_0302 HFC 407C23

AWR-HT

12. ETHYLENE GLYCOL MIXTURE

Ethylene glycol and water mixture, used as a heat-conveying fluid, cause a variation in unit performance. For correct data, use the fac-tors indicated in the following tabel.

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

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

ff: fouling factorsf1 - f2: potential correction factorsfk1 - fk2: compressor power input correction factorsr3: capacity correction factors

KE: minimum condenser outlet temperature increaseKC: maximum condenser outlet temperature decrease

13. FOULING FACTORS

Performances are based on clean condition of tubes (fouling factor = 1). For different fouling values, performance should be adjustedusing the correction factors shown in the following table.

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

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

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

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

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

cQ

cPf

Freezing point (°C)

Ethylene glycol percentage by weight

pdc

Qc

fPc

0 -5

%210

589,01

20,11

70,11

- 01 - 51 - 02

%53%03%02

9,0479,089,0

1,1570,140,1

2,181,111,1

(tniopgnizeerF ° )C

egatnecreplocylgenelyhtE

0 - 52 - 03

%54%04%

469,0569,079

71,141,11

72,1,1 4222

)

thgiewyb

- 53

%05

69,0

2,1

3,1

FOULING FACTORS EVAPORATOR CONDENSER/RECOVERY DESUPERHEATER

2 ff

(m °CW) F1 FK1 F2 FK2 KC [°C] R3

KE [°C]

1,000 1,000 0,0 1,000 1,000 0,0 1,000 0

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

1,000 1,000 0,0 0,990 1,030 1,0 0,990 4,40 x 10 -5

0,960 0,990 0,7 0,980 1,040 1,5 0,980 8,80 x 10 -5

0,944 0,985 1,0 0,964 1,050 2,3 0,964 13,20 x 10 -5

0,930 0,980 1,5 0,950 1,060 3,0 0,950 17,20 x 10 -5

SROTCAFGNILUOF

2mffff

m2( ° )WC

0

01x08,1-5

S ROTAROPAVE

1F 1KFEK

[° ]C

000,1 000,1 0,0

000,1 000,1 0,0

YREVOCER/RESNEDNOC

2F 2KFCK

[° ]C

000,1 000,1 0,0

000,1 000,1 0,0

RETAEHREPUSED

3R

000,1

000,1

01x04,4-5

01x08,8-5

01x02,31-5

01x02,71-5

000,1 000,1 0,0

069,0 099,0 7,0

449,0 589,0 0,1

039,0 089,0 5,1

099,0 030,1 0,1

089,0 040,1 5,1

469,0 050,1 3,2

059,0 060,1 0,3

099,0

089,0

469,0

059,0

24AWR_HT_0122_0302 HFC 407C

AWR-HT

14. HYDRAULIC DATA

Water flow and pressure dropWater flow in the heat exchangers is given by: Q=Px0,86/DtQ: water flow (m3/h)Dt: difference between inlet and outlet water temp. (°C)P: heat exchanger capacity (kW)

Pressure drop is given by: Dp= K x Q2/1000Q: water flow (m3/h)Dp: pressure drop (kPa)K: unit size ratio

Q min: 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 plant, using traditional control logicC.A.S.: heat exchanger water content- - -

SIZE

Plant side heat exchanger Auxiliary side heat exchanger

KQ min Q max C.A.S. C.a.

KQ min C.A.S. Q max

m³/h m³/h dm³ min m³ m³/h dm³ m³/h

AWR-HT /CA-E 0122 235 3,3 27,5 7 0,35 - - - -

AWR-HT /CA-E 0152 162 3,3 27,5 10 0,45 - - - -

AWR-HT /CA-E 0202 102 5,3 27,5 13 0,62 - - - -

AWR-HT /CA-E 0262 84 7,4 27,5 16 0,76 - - - -

AWR-HT /CA-E 0302 73 8,6 27,5 19 0,91 - - - -

AWR-HT /LN-CA-E 0122 235 3,3 27,5 7 0,35 - - - -

AWR-HT /LN-CA-E 0152 162 3,3 27,5 10 0,45 - - - -

AWR-HT /LN-CA-E 0202 102 5,3 27,5 13 0,62 - - - -

AWR-HT /LN-CA-E 0262 84 7,4 27,5 16 0,76 - - - -

AWR-HT /LN-CA-E 0302 73 8,6 27,5 19 0,91 - - - -

AWR-HT /D /CA-E 0122 235 3,3 27,5 7 0,35 1024 - 0,3 2

AWR-HT /D /CA-E 0152 162 3,3 27,5 10 0,45 1024 - 0,3 2,6

AWR-HT /D /CA-E 0202 102 5,3 27,5 13 0,62 442 - 0,4 3,5

AWR-HT /D /CA-E 0262 84 7,4 27,5 16 0,76 442 - 0,4 4,6

AWR-HT /D /CA-E 0302 73 8,6 27,5 19 0,91 442 - 0,4 5,8

AWR-HT /D /LN-CA-E 0122 235 3,3 27,5 7 0,35 1024 - 0,3 2

AWR-HT /D /LN-CA-E 0152 162 3,3 27,5 10 0,45 1024 - 0,3 2,6

AWR-HT /D /LN-CA-E 0202 102 5,3 27,5 13 0,62 442 - 0,4 3,5

AWR-HT /D /LN-CA-E 0262 84 7,4 27,5 16 0,76 442 - 0,4 4,6

AWR-HT /D /LN-CA-E 0302 73 8,6 27,5 19 0,91 442 - 0,4 5,8

AWR_HT_0122_0302 HFC 407C25

AWR-HT

Extra weight

13. HYDRONIC GROUP (OPTIONAL)

extra [kg] extra weight

The units can be supplied with a hydronic group. This housesall the main hydraulic components, thereby optimising hydraulicand electric installation space, time and cost.

Available pump configurations:

- Hydronic kit with one IN-LINE 2-pole low-head pump- Hydronic kit with one IN-LINE 2-pole high-head pump- Hydronic kit with IN-LINE 2-pole low-head twin pumps- Hydronic kit with IN-LINE 2-pole high-head twin pumps

2-pole low head pump

Centrifugal pumps with in-line suction and delivery flanges, insingle and twin versions. Pump body in cast iron and impeller inAISI 316L stainless steel or cast-iron, entirely laser technologywelded. Mechanical seal with components in ceramics, carbonand EPDM elastomers. Three-phase electric motor protected toIP55, insulation class F, suitable for continuous service.

2-pole high-head pump

All versions of the hydronic unit can be supplied with a highhead pump. In these cases, the pump features a two-polemotor even in the silent-running versions.

Twin pump

A second stand-by pump for high or low pressures is availableon request. The pumps are automatically exchanged on thebasis of a rotation programme and the stand-by pump cuts inautomatically if the primary pump fails.

GENERAL CHARACTERISTICS

Water connections

In the units without pumps, standard version, the connectionsfor the water inlet and outlet both in the evaporator and in thedesuperheater are inside the unit. As an accessory one canrequest these connections flush with the unit.For units with pumps, the connections are always flush with theunit.

3 way valve kit

Three way valve for the prodiction of domesti hot water (DHW)including water temperature sensor, voltage-free contact foractivating an integrating external heating source (gas boiler orelectrical heater). The kit comes with or without the 3 way valvefactory built-in.

Water-side mechanical filter (optional)

Y-filter designed and built to capture the impurities in thehydraulic circuit. It is fitted with a 0.9 mm stainless steel meshcartridge which can be replaced without removing the valvebody from the piping.

Unit electrical panel

The unit electrical panel is fitted with fuses and a circuit breakercontactor.

Special pumps

For pumps with different configurations, please contact oursales department.

Additional components

The supply does not include the following accessories thoughthese are recommended to ensure correct system operation:- MA Pressure gauges upline and downline from the unit- GF Flexible joints on piping- RI On-off valves- T Outlet control thermometer

SIZE1 Pump

Hydronic kit2 Pumps

Hydronic kit

extra [kg] extra [kg]

0122 /CA-E 40 70

0152 /CA-E 50 80

0202 /CA-E 60 90

0262 /CA-E 60 90

0302 /CA-E 70 90

0122 /LN-CA-E 40 60

0152 /LN-CA-E 40 70

0202 /LN-CA-E 60 80

0262 /LN-CA-E 60 90

0302 /LN-CA-E 70 100

26AWR_HT_0122_0302 HFC 407C

AWR-HT

Hydraulic diagram

Sonda ingresso acqua scambiatore Exchanger water inlet probe

LEGENDA - LEGEND

SC

S1

S2 Sonda uscita acqua scambiatoreExchanger water outlet probe

CD/EV

Drain valveValvola di scarico

Evaporator/Condenser (plate exchanger)Evaporatore/Condensatore (scambiatore a piastre)

SF Purge valveValvola di sfiato

S2

S1

CD/EV

SF

SC

SF

SC

DE

S

DES Desuperheaters optional (plate exchanger)Desurriscaldatori opzionali (scambiatore a piastre)

CIRCUITO DESURRISCALDATORI OPZIONALEOPTIONAL DESUPERHEATERS CIRCUIT

F

FlussostatoFlow switchF

INGRESSO ACQUAWATER INLET

USCITA ACQUA IMPIANTOPLANT WATER OUTLET

INGRESSO ACQUA DESURRISCALDATORIDESUPERHEATERS WATER INLET

USCITA ACQUA DESURRISCALDATORIDESUPERHEATERS WATER OUTLET

VR

VR

P

TP

TP

CIRCUITO A 2 POMPE OPZIONALEOPZIONAL 2 PUMPS CIRCUIT

P

SC

VA

Available pressure pumpPompa di circolazioneP

Drain plugTappo di drenaggio

Safety valveValvola di sicurezzaVA

TP

Valvola di ritegno (solo con 2 pompe)Check valve (only with 2 pumps)VR

AWR_HT_0122_0302 HFC 407C27

AWR-HT

Hydraulic diagram with 3 way valve

Sonda ingresso acqua scambiatore Exchanger water inlet probe

LEGENDA - LEGEND

SC

S1

S2 Sonda uscita acqua scambiatoreExchanger water outlet probe

CD/EV

Drain valveValvola di scarico

Evaporator/Condenser (plate exchanger)Evaporatore/Condensatore (scambiatore a piastre)

SF Purge valveValvola di sfiato

S2

S1

CD/EV

SC

SF

SC

DE

S

DES Desuperheaters optional (plate exchanger)Desurriscaldatori opzionali (scambiatore a piastre)

CIRCUITO DESURRISCALDATORI OPZIONALEOPTIONAL DESUPERHEATERS CIRCUIT

F

FlussostatoFlow switchF

INGRESSO ACQUAWATER INLET

INGRESSO ACQUA DESURRISCALDATORIDESUPERHEATERS WATER INLET

USCITA ACQUA DESURRISCALDATORIDESUPERHEATERS WATER OUTLET

VR

VR

P

TP

TP

CIRCUITO A 2 POMPE OPZIONALEOPZIONAL 2 PUMPS CIRCUIT

P

SC

VA

Available pressure pumpPompa di circolazioneP

Drain plugTappo di drenaggio

Safety valveValvola di sicurezzaVA

TP

Valvola di ritegno (solo con 2 pompe)Check valve (only with 2 pumps)VR

SF

USCITA ACQUA SANITARIODOMESTIC HOT WATER OUTLET

USCITA ACQUA IMPIANTOPLANT WATER OUTLET

V3V

V3V Valvole 3 vie3 way valve

28AWR_HT_0122_0302 HFC 407C

AWR-HT

COOLING - 1 PUMP - HIGH HEAD PUMP

Pf (1) Q (1) Rif. Pump N. F.L.I. F.L.A. Ks Dps Hu

SIZE [kW] [m3/h] Pump type Pole [kW] [A] - kPa kPa Kv3v Kfi

0122 34,1 5,9 C1 DWC-V 300 / 1,5 2 1,5 3,2 294 10,1 211 66 109

0152 43,8 7,5 C2 DWC-V 300 / 1,5 2 1,5 3,2 217 12,3 203 66 109

0202 60,3 10,4 C3 DWC-V 300 / 1,5 2 1,5 3,2 123 13,2 190 27 79

0262 76,4 13,1 E DWC-V 500 / 2,2 2 2,2 4,8 104 18,0 206 27 79

0302 91,7 15,8 F DWC-V 500 / 3,0 2 3 5,6 92 22,9 215 27 79

HEATING - 1 PUMP - HIGH HEAD PUMP

Pt (1) Q (1) Rif. Pump N. F.L.I. F.L.A. Ks Dps Hu

SIZE [kW] [m3/h] Pump type Pole [kW] [A] - kPa kPa Kv3v Kfi

0122 38,0 6,5 C1 DWC-V 300 / 1,5 2 1,5 3,2 294 12,6 206 66 109

0152 51,3 8,8 C2 DWC-V 300 / 1,5 2 1,5 3,2 217 16,9 192 66 109

0202 68,8 11,8 C3 DWC-V 300 / 1,5 2 1,5 3,2 123 17,2 180 27 79

0262 84,9 14,6 E DWC-V 500 / 2,2 2 2,2 4,8 104 22,2 198 27 79

0302 102,0 17,5 F DWC-V 500 / 3,0 2 3 5,6 92 28,3 206 27 79

(1) Values refer to rated operating conditions Pf Cooling capacity of unit Pt Heating capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump

Ks Coefficients for calculating pressure dropsUnit with hydronic unit without network filter and 3 way valve

Kv3v Coefficients 3 way valve for calculating pressure dropsKfi Coefficients filter for calculating pressure dropsDps Total pressure drop of hydronic group Hu Residual head

0

20

40

60

80

100

120

140

160

180

200

220

240

4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42

Q [m3/h]

Hu

[k

Pa

]

C1 E FC2 C3

WORKING HEAD CURVES

AWR_HT_0122_0302 HFC 407C29

AWR-HT

COOLING - 2 PUMPS - HIGH HEAD PUMP

HEATING - 2 PUMPS - HIGH HEAD PUMP

(1) Values refer to rated operating conditions Pf Cooling capacity of unit Pt Heating capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump

Ks Coefficients for calculating pressure dropsUnit with hydronic unit without network filter and 3 way valve

Kv3v Coefficients 3 way valve for calculating pressure dropsKfi Coefficients filter for calculating pressure dropsDps Total pressure drop of hydronic group Hu Residual head

0

20

40

60

80

100

120

140

160

180

200

220

240

4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38

Q [m3/h]

Hu

[k

Pa

]

C1 E FC2 C3

WORKING HEAD CURVES

Pf (1) Q (1) Rif. Pump N. F.L.I. F.L.A. Ks Dps Hu

SIZE [kW] [m3/h] Pump type Pole [kW] [A] - kPa kPa Kv3v Kfi

0122 34,1 5,9 C1 DWC-V 300 / 1,5 2 1,5 3,2 373 12,8 208 66 109

0152 43,8 7,5 C2 DWC-V 300 / 1,5 2 1,5 3,2 293 16,6 198 66 109

0202 60,3 10,4 C3 DWC-V 300 / 1,5 2 1,5 3,2 153 16,5 187 27 79

0262 76,4 13,1 E DWC-V 500 / 2,2 2 2,2 4,8 134 23,1 201 27 79

0302 91,7 15,8 F DWC-V 500 / 3,0 2 3 5,6 122 30,3 208 27 79

Pt (1) Q (1) Rif. Pump N. F.L.I. F.L.A. Ks Dps Hu

SIZE [kW] [m3/h] Pump type Pole [kW] [A] - kPa kPa Kv3v Kfi

0122 38,0 6,5 C1 DWC-V 300 / 1,5 2 1,5 3,2 294 15,9 203 66 109

0152 51,3 8,8 C2 DWC-V 300 / 1,5 2 1,5 3,2 217 22,8 186 66 109

0202 68,8 11,8 C3 DWC-V 300 / 1,5 2 1,5 3,2 123 21,4 176 27 79

0262 84,9 14,6 E DWC-V 500 / 2,2 2 2,2 4,8 104 28,6 191 27 79

0302 102,0 17,5 F DWC-V 500 / 3,0 2 3 5,6 92 37,6 196 27 79

30AWR_HT_0122_0302 HFC 407C

AWR-HT

0

20

40

60

80

100

120

140

160

180

200

5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25

Q [m3/h]

Hu

[k

Pa]

A1 A2 B1A3 B2

WORKING HEAD CURVES

COOLING - 1 PUMP - LOW HEAD PUMP

HEATIN - 1 PUMP - LOW HEAD PUMP

(1) Values refer to rated operating conditions Pf Cooling capacity of unit Pt Heating capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump

Ks Coefficients for calculating pressure dropsUnit with hydronic unit without network filter and 3 way valve

Kv3v Coefficients 3 way valve for calculating pressure dropsKfi Coefficients filter for calculating pressure dropsDps Total pressure drop of hydronic group Hu Residual hea

Pf (1) Q (1) Rif. Pump N. F.L.I. F.L.A. Ks Dps Hu

SIZE [kW] [m3/h] Pump type Pole [kW] [A] - kPa kPa Kv3v Kfi

0122 34,1 5,9 A1 DWC-V 300/1,1 R 2 1,1 2,5 294 10,1 129 66 109

0152 43,8 7,5 A2 DWC-V 300/1,1 R 2 1,1 2,5 217 12,3 122 66 109

0202 60,3 10,4 A3 DWC-V 300/1,1 R 2 1,1 2,5 123 13,2 109 27 79

0262 76,4 13,1 B1 DWC-V 300/1,1 2 1,1 2,5 104 18,0 140 27 79

0302 91,7 15,8 B2 DWC-V 300/1,1 2 1,1 2,5 92 22,9 120 27 79

Pt (1) Q (1) Rif. Pump N. F.L.I. F.L.A. Ks Dps Hu

SIZE [kW] [m3/h] Pump type Pole [kW] [A] - kPa kPa Kv3v Kfi

0122 38,0 6,5 A1 DWC-V 300/1,1 R 2 1,1 2,5 294 12,6 124 66 109

0152 51,3 8,8 A2 DWC-V 300/1,1 R 2 1,1 2,5 217 16,9 112 66 109

0202 68,8 11,8 A3 DWC-V 300/1,1 R 2 1,1 2,5 123 17,2 98 27 79

0262 84,9 14,6 B1 DWC-V 300/1,1 2 1,1 2,5 104 22,2 128 27 79

0302 102,0 17,5 B2 DWC-V 300/1,1 2 1,1 2,5 92 28,3 103 27 79

AWR_HT_0122_0302 HFC 407C31

AWR-HT

0

20

40

60

80

100

120

140

160

180

200

5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25

Q [m3/h]

Hu

[k

Pa

]

A1 A2 B1A3 B2

WORKING HEAD CURVES

COOLING - 2 PUMPS - LOW HEAD PUMP

HEATING - 2 PUMPS - LOW HEAD PUMP

(1) Values refer to rated operating conditions Pf Cooling capacity of unit Pt Heating capacity of unit Q Flow of water to evaporator F.L.I. Power absorbed by pump F.L.A. Current absorbed by pump

Ks Coefficients for calculating pressure dropsUnit with hydronic unit without network filter and 3 way valve

Kv3v Coefficients 3 way valve for calculating pressure dropsKfi Coefficients filter for calculating pressure dropsDps Total pressure drop of hydronic group Hu Residual hea

Pf (1) Q (1) Rif. Pump N. F.L.I. F.L.A. Ks Dps Hu

SIZE [kW] [m3/h] Pump type Pole [kW] [A] - kPa kPa Kv3v Kfi

0122 34,1 5,9 A1 DWC-V 300/1,1 R 2 1,1 2,5 373 12,8 126 66 109

0152 43,8 7,5 A2 DWC-V 300/1,1 R 2 1,1 2,5 293 16,6 117 66 109

0202 60,3 10,4 A3 DWC-V 300/1,1 R 2 1,1 2,5 153 16,5 106 27 79

0262 76,4 13,1 B1 DWC-V 300/1,1 2 1,1 2,5 134 23,1 135 27 79

0302 91,7 15,8 B2 DWC-V 300/1,1 2 1,1 2,5 122 30,3 113 27 79

Pt (1) Q (1) Rif. Pump N. F.L.I. F.L.A. Ks Dps Hu

SIZE [kW] [m3/h] Pump type Pole [kW] [A] - kPa kPa Kv3v Kfi

0122 38,0 6,5 A1 DWC-V 300/1,1 R 2 1,1 2,5 373 15,9 121 66 109

0152 51,3 8,8 A2 DWC-V 300/1,1 R 2 1,1 2,5 293 22,8 106 66 109

0202 68,8 11,8 A3 DWC-V 300/1,1 R 2 1,1 2,5 153 21,4 94 27 79

0262 84,9 14,6 B1 DWC-V 300/1,1 2 1,1 2,5 134 28,6 121 27 79

0302 102,0 17,5 B2 DWC-V 300/1,1 2 1,1 2,5 122 37,6 93 27 79

32AWR_HT_0122_0302 HFC 407C

AWR-HT

16. ELECTRICAL DATA

Maximum values

Compressor SIZE

n F.L.I. [kW]

F.L.A. [A]

L.R.A. [A]

L.R.A. [A]

F.L.A. [A]

F.L.I. [kW]

F.L.A. [A]

F.L.I. [kW]

Fans (1) Total (1) (2)

2 2 X 7,9 2 X 13,9 2 X 101 0,25 1,1 16,8 32,2 119,3 0122

2 2 X 10 2 X 17 2 X 99 0,25 1,1 21,5 40,6 122,6 0152

2 2 X 14,2 2 X 23,3 2 X 127 0,25 1,1 30,4 55,4 159,1 0202

2 2 X 18 2 X 28,5 2 X 167 0,25 1,1 38 65,8 204,3 0262

2 2 X 21,7 2 X 34,7 2 X 198 0,25 1,1 45,4 78,2 241,5 0302

EZIS

rosserpmoC

seulavmumixaM

snaF

)1( 2()1(latoT

)2

n

22210

22510

22020

22620

22030

.I.L.F]Wk[

.A.L.F]A[

9,7X2 9,31X2

01X2 71X2

2,41X2 3,32X2

81X2 5,82X2

7,12X2 7,43X2

.A.R.L]A[

.I.L.F]Wk[

101X2 52,0

99X2 52,0

721X2 52,0

761X2 52,0

891X2 52,0

.A.L.F]A[

.I.L.F]Wk[

.A.L.F]A[

1,1 8,61 2,23

1,1 5,12 6,04

1,1 4,03 4,55

1,1 83 8,56

1,1 4,54 2,87

.A.R.L]A[

3,911

6,221

1,951

3,402

5,142

AWR-HT / CA-E

Maximum values

Compressor SIZE

n F.L.I. [kW]

F.L.A. [A]

L.R.A. [A]

L.R.A. [A]

F.L.A. [A]

F.L.I. [kW]

F.L.A. [A]

F.L.I. [kW]

Fans (1) Total (1) (2)

2 2 X 7,9 2 X 13,9 2 X 101 0,25 1,1 16,8 32,2 119,3 0122

2 2 X 10 2 X 17 2 X 99 0,25 1,1 21,5 40,6 122,6 0152

2 2 X 14,2 2 X 23,3 2 X 127 0,25 1,1 30,4 55,4 159,1 0202

2 2 X 18 2 X 28,5 2 X 167 0,25 1,1 38 65,8 204,3 0262

2 2 X 21,7 2 X 34,7 2 X 198 0,25 1,1 45,4 78,2 241,5 0302

EZIS

rosserpmoC

seulavmumixaM

snaF

)1( 2()1(latoT

)2

n

22210

22510

22020

22620

22030

.I.L.F]Wk[

.A.L.F]A[

9,7X2 9,31X2

01X2 71X2

2,41X2 3,32X2

81X2 5,82X2

7,12X2 7,43X2

.A.R.L]A[

.I.L.F]Wk[

101X2 52,0

99X2 52,0

721X2 52,0

761X2 52,0

891X2 52,0

.A.L.F]A[

.I.L.F]Wk[

.A.L.F]A[

1,1 8,61 2,23

1,1 5,12 6,04

1,1 4,03 4,55

1,1 83 8,56

1,1 4,54 2,87

.A.R.L]A[

3,911

6,221

1,951

3,402

5,142

AWR-HT / LN-CA-E

Give the typical operating conditions of units designed for outdoor installation, which can be associated (according to reference docu-ment IEC 60721) to the following classes:- climatic conditions class 4K4H: air temperature range from -20 up to 55°C (*), relative humidity range from 4 up to 100%, with possible

precipitations, at air pressure from 70 and 106 kPa and a maximum solar radiation of 1120 W/m2

- special climatic conditions negligible- biological conditions class 4B1 and 4C2: locations in a generic urban area- mechanically active substances class 4S2: locations in areas with sand or dust representative of urban areas- mechanical conditions class 4M1: locations protected from significant vibrations or shocks

The required protection level for safe operation, according to reference document IEC 60529, is IP43XW (protection against access, tothe most critical unit's parts, of external devices with diameter larger than 1 mm and rain).The unit can be considered IP44XW protected, i.e. protected against access of external devices (with diameter larger than 1 mm) andwater in general.

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

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

(1) (2) Safety values to be considered when cabling the unit for power supply and line-protections(1) Values calculated referring to the version with the maximum number of fans working at the max absorbed current

Power supply: 400/3/50+NVoltage tolerance: 10%Maximum voltage unbalance: 3%

AWR_HT_0122_0302 HFC 407C33

AWR-HT

17. FULL LOAD SOUND LEVEL

SIZE Octave band [Hz] 2000 1000 500 250 125 63 8000 4000

Total sound level

Sound power level dB(A)

SOUND POWER

89 86 83 81 81 75 70 62 84 0122 91 88 85 83 83 77 72 64 86 0152 92 89 86 84 84 78 73 65 87 0202 92 89 86 84 84 78 73 65 87 0262 92 89 86 84 84 78 73 65 87 0302

EZIS

36

]zH[dnabevatcO

0001005052521

BdlevelrewopdnuoS

REWOPDNUOS

0002 00080004slatoTvel

)A(

dnuosle

982210

192510

292020

292620

292030

68 38 18 18

88 58 38 38

98 68 48 48

98 68 48 48

98 68 48 48

57 07 26 48

77 27 46 68

87 37 56 78

87 37 56 78

87 37 56 78

4

6

7

7

7

AWR-HT / CA-E

SIZE Octave band [Hz] 2000 1000 500 250 125 63 8000 4000

Total sound level

Sound power level dB(A)

SOUND POWER

85 82 79 77 77 71 66 58 80 0122 87 84 81 79 79 73 68 60 82 0152 88 85 82 80 80 74 69 61 83 0202 88 85 82 80 80 74 69 61 83 0262 89 86 83 81 81 75 70 62 84 0302

EZIS

36

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0001005052521

BdlevelrewopdnuoS

REWOPDNUOS

0002 00080004slatoTvel

)A(

dnuosle

582210

782510

882020

882620

982030

28 97 77 77

48 18 97 97

58 28 08 08

58 28 08 08

68 38 18 18

17 66 85 08

37 86 06 28

47 96 16 38

47 96 16 38

57 07 26 48

0

2

3

3

4

AWR-HT / LN-CA-E

Working conditions

Ambient temperature 7 C°Exchanger water (in/out) 40/45 C°Sound power on the basis of measurements made in compliance with ISO 9614 and Eurovent 8/1 for Eurovent certified units;in compliance with ISO 3744 for non-certified unitsSuch certification refers specifically to the sound Power Level in dB(A). This is therefore the only acoustic data to be considered as binding.

SIZE Octave band [Hz] at 10 m 2000 1000 500 250 125 63 8000 4000

Total sound level

Sound pressure level dB(A)

SOUND PRESSURE LEVEL

57 54 51 49 49 43 38 30 52 0122 59 56 53 51 51 45 40 32 54 0152 60 57 54 52 52 46 41 33 55 0202 60 57 54 52 52 46 41 33 55 0262 60 57 54 52 52 46 41 33 55 0302

EZIS

01ta]zH[dnabevatcO

LERUSSERPDNUOS

m0 slatoT

LEVE

dnuos

EZIS

36

752210

952510

062020

062620

062030

01ta]zH[dnabevatcO

0001005052521

dlevelerusserpdnuoS

45 15 94 94

65 35 15 15

75 45 25 25

75 45 25 25

75 45 25 25

m0

0002 00080004

slatoTvel

)A(B

34 83 03 25

54 04 23 45

64 14 33 55

64 14 33 55

64 14 33 55

dnuosle

2

4

5

5

5

AWR-HT / CA-E

SIZE Octave band [Hz] at 10 m 2000 1000 500 250 125 63 8000 4000

Total sound level

Sound pressure level dB(A)

SOUND PRESSURE LEVEL

53 50 47 45 45 39 34 26 48 0122 55 52 49 47 47 41 36 28 50 0152 56 53 50 48 48 42 37 29 51 0202 56 53 50 48 48 42 37 29 51 0262 57 54 51 49 49 43 38 30 52 0302

EZIS

01ta]zH[dnabevatcO

LERUSSERPDNUOS

m0 slatoT

LEVE

dnuos

EZIS

36

352210

552510

652020

652620

752030

01ta]zH[dnabevatcO

0001005052521

dlevelerusserpdnuoS

05 74 54 54

25 94 74 74

35 05 84 84

35 05 84 84

45 15 94 94

m0

0002 00080004

slatoTvel

)A(B

93 43 62 84

14 63 82 05

24 73 92 15

24 73 92 15

34 83 03 25

dnuosle

8

0

1

1

2

AWR-HT / LN-CA-E

Working conditions

Ambient temperature 7 C°Exchanger water (in/out) 40/45 C°Sound power on the basis of measurements made in compliance with ISO 9614 and Eurovent 8/1 for Eurovent certified units;in compliance with ISO 3744 for non-certified units

dB(A)

dB(A)

34AWR_HT_0122_0302 HFC 407C

AWR-HT18. DIMENSIONAL DRAWINGS

BASE

D'A

PPO

GG

IO -

SUPP

ORT

ING

BAS

EMEN

T

- ENT

RATA

ARI

A

- AIR

OUT

LET

- USC

ITA A

RIA

- AIR

INLE

T

ATTN

: USE

N°4

LIFT

ING

ROPE

S W

ITH

EQUA

L LEN

GHT

ONLY

ATTN

: UTI

LIZZA

RE N

°4 F

UNI D

I SOL

LEVA

MENT

O DI

PAR

I LUN

GHEZ

ZA

A

8

LIF

TING

SOLL

EVAM

ENTO

H

SPAZ

IO D

I RIS

PETT

O

N°

6 H

OLE

S M

12N

° 6

FOR

I M

12W

2W

4

W1

W3

4

W6

W5

1

STAN

DARD

VER

SION

WIT

H 3-

WAY

VALV

E FO

R DO

MEST

IC H

OT W

ATER

B

C1C2

B

1W

ATER

INLE

T IN

GRES

SO A

CQUA

42 3

1

MIN

IMUM

CLE

ARAN

CE

3

PLAN

T WAT

ER O

UTLE

TUS

CITA

ACQ

UA IM

PIAN

TO

PLAN

T WAT

ER O

UTLE

TUS

CITA

ACQ

UA IM

PIAN

TO

5 6DE

SUPE

RHEA

TERS

WAT

ER O

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T (OP

TION

AL)

USCI

TA A

CQUA

DES

URRI

SCAL

DATO

RI (O

PZIO

NALE

)

DESU

PERH

EATE

RS W

ATER

INLE

T (OP

TION

AL)

INGR

ESSO

ACQ

UA D

ESUR

RISC

ALDA

TORI

(OPZ

IONA

LE)

1256

56

SCAR

ICO

ACQU

A DI

CON

DENS

A n

1”1/4

DRAI

N W

ATER

OUT

LET

n1”

1/47

DOME

STIC

HOT

WAT

ER O

UTLE

TUS

CITA

ACQ

UA S

ANITA

RIO

32465

WIT

H or

WIT

HOUT

HYD

RONI

C KI

TW

ITH

or W

ITHO

UT H

YDRO

NIC

KIT A

ND

77

77

INGR

ESSO

LINE

A EL

ETTR

ICA

POW

ER IN

LET

8

7

R4

R3

R1 R2

AWR_HT_0122_0302 HFC 407C35

AWR-HT

19. LEGEND OF PIPE CONNECTIONS

UNI ISO 228/1 Pipe threads where pressure-tight joints are not made on the threads - Designation, dimensions and tolerances Used terminology: G: Pipe threads where pressure-tight joints are not made on the threads A: Close tolerance class for external pipe threads where pressure-tight joints are not made on the threads B: Wider tolerance class for external pipe threads where pressure-tight joints are not made on the threads Internal 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 ISO 7/1 Pipe threads where pressure-tight joints are made on the threads - Designation, dimensions and tolerances Used terminology: Rp: Internal cylindrical threads where pressure-tight joints are made on the threads Rc: Internal conical threads where pressure-tight joints are made on the threads R: External conical threads where pressure-tight joints are made on the threads Internal cylindrical threads: R letter followed by p letter Internal conical threads: R letter followed by c letter External conical threads: R letter

1/822OSIINUerusserperehwsdaerhtepiP

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1/7OSIINUerusserperehwsdaerhtepiP

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UNI ISO 7/1 - Rp 1 1/2

UNI ISO 7/1 - Rp 2 1/2

UNI ISO 7/1 - Rp 3

UNI ISO 228/1 - G 4 B

DN 80 PN 16

UNI ISO 7/1 - R 3

Designation Description

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

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

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

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

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

Flange Nominal Diameter: 80 mm Nominal Pressure: 16 bar

1/7OSIINU - 1pR 2/1

1/7OSIINU - 2/12pR

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rperehwsdaerhtlacirdnilyclanretnI1/7OSIINU

lanoitnevnoC ø 2/11 ”

rperehwsdaerhtlacirdnilyclanretnI1/7OSIINU

lanoitnevnoC ø 2/12 ”

erusser - htehtnoedamerastniojthgit

erusser - htehtnoedamerastniojthgit

dradnatsybdenifed,sdaerh

dradnatsybdenifed,sdaerh

1/7OSIINU - 3pR

1/822OSIINU - B4G

61NP08ND

1/7OSIINU - 3R

rperehwsdaerhtlacirdnilyclanretnI1/7OSIINU

lanoitnevnoC ø 3”

serperehwsdaerhtlacinoclanretxE1/7OSIINU

lanoitnevnoC ø 3”

rperehwsdaerhtlacirdnilyclanretnIaerhtlanretxerofBssalcecnareloT

lanoitnevnoC ø 4”

mm08:retemaiDlanimoNegnalFrab61:erusserPlanimoN

erusser - htehtnoedamerastniojthgit

eruss - erhtehtnoedamerastniojthgit

erusser - htnoedamtonerastniojthgitda

dradnatsybdenifed,sdaerh

dradnatsybdenifed,sdae

INUdradnatsybdenifed,sdaerhteh SI

1/822OS

UNI ISO 7/1 UNI ISO 228/1

1" 1"

2.309 mm 2.309 mm

33.249 mm 33.249 mm

30.291 mm 30.291 mm

1.479 mm 1.479 mm

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:

Conventional ø

Pitch

External ø

Core ø

Thread height

:setoN

eulavretemaidlanoitnevnoCehtnopudesab,noitangiseddenifederaseulavevitalerllA

moswolebereh,elpmaxesA

daerhttrohsseifitnedi]sehcnini[e.dradnatsevitaler

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lanoitnevnoC ø

hctiP

lanretxE ø

eroC ø

thgiehdaerhT

1/7OSIINU U

"1

mm903.2

mm942.33

mm192.03

mm974.1

1/822OSIINU

"1

mm903.2

mm942.33

mm192.03

mm974.1

SIZE

DIMENSIONS AND WEIGHTS CLEARANCE PLANT SIDE HEAT EXCHANGER AUXILIARY SIDE HEAT EXCHANGER

A

[mm]

B

[mm]

H

[mm]

Peso

[kg]

R1

[mm]

R2

[mm]

R3

[mm]

R4

[mm]

IN/OUT IN/OUT

TYPE Ø TYPE Ø

AWR-HT /CA-E 0122 1695 1120 1420 510 1000 1000 600 600 GAS 1 1/2” - -

AWR-HT /CA-E 0152 2195 1120 1420 750 1000 1000 600 600 GAS 1 1/2” - -

AWR-HT /CA-E 0202 2745 1120 1420 870 1000 1000 600 600 GAS 2” - -

AWR-HT /CA-E 0262 2745 1120 1620 940 1000 1000 600 600 GAS 2” - -

AWR-HT /CA-E 0302 2745 1120 1620 1030 1000 1000 600 600 GAS 2” - -

AWR-HT /LN-CA-E 0122 1695 1120 1420 530 1000 1000 600 600 GAS 1 1/2” - -

AWR-HT /LN-CA-E 0152 2195 1120 1420 760 1000 1000 600 600 GAS 1 1/2” - -

AWR-HT /LN-CA-E 0202 2745 1120 1420 910 1000 1000 600 600 GAS 2” - -

AWR-HT /LN-CA-E 0262 2745 1120 1620 980 1000 1000 600 600 GAS 2” - -

AWR-HT /LN-CA-E 0302 2745 1120 1620 1030 1000 1000 600 600 GAS 2” - -

AWR-HT /D /CA-E 0122 1695 1120 1420 530 1000 1000 600 600 GAS 1 1/2” GAS 1 1/2”

AWR-HT /D /CA-E 0152 2195 1120 1420 780 1000 1000 600 600 GAS 1 1/2” GAS 1 1/2”

AWR-HT /D /CA-E 0202 2745 1120 1420 900 1000 1000 600 600 GAS 2” GAS 1 1/2”

AWR-HT /D /CA-E 0262 2745 1120 1620 970 1000 1000 600 600 GAS 2” GAS 1 1/2”

AWR-HT /D /CA-E 0302 2745 1120 1620 1060 1000 1000 600 600 GAS 2” GAS 1 1/2”

AWR-HT /D /LN-CA-E 0122 1695 1120 1420 550 1000 1000 600 600 GAS 1 1/2” GAS 1 1/2”

AWR-HT /D /LN-CA-E 0152 2195 1120 1420 780 1000 1000 600 600 GAS 1 1/2” GAS 1 1/2”

AWR-HT /D /LN-CA-E 0202 2745 1120 1420 940 1000 1000 600 600 GAS 2” GAS 1 1/2”

AWR-HT /D /LN-CA-E 0262 2745 1120 1620 1010 1000 1000 600 600 GAS 2” GAS 1 1/2”

AWR-HT /D /LN-CA-E 0302 2745 1120 1620 1060 1000 1000 600 600 GAS 2” GAS 1 1/2”

Climaveneta S.p.A.

Via Sarson 57/c

36061 Bassano del Grappa (VI)

Italy

Tel +39 0424 509500

Fax +39 0424 509509

info@climaveneta.com

www.climaveneta.com

www.climaveneta.com

Climaveneta France

3, Village d’Entreprises

ZA de la Couronne des Prés

Avenue de la Mauldre

78680 Epone

France

Tel +33 (0)1 30 95 19 19

Fax +33 (0)1 30 95 18 18

info@climaveneta.fr

www.climaveneta.fr

Climaveneta Deutschland

Rhenus Platz, 2

59439 Holzwickede

Germany

Tel +49 2301 91222-0

Fax +49 2301 91222-99

info@climaveneta.de

www.climaveneta.de

Climaveneta

Espana - Top Clima

Londres 67, 1° 4°

08036 Barcelona

Spain

Tel +34 963 195 600

Fax +34 963 615 167

topclima@topclima.com

www.climaveneta.com

Climaveneta Chat Union

Refrig. Equipment Co Ltd

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