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AQU
ACIA
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - N 15.590 B
Water chillersHeat pumps
Hydraulic module
useAQUACIAT2 LD-LDC-LDH and ILD-ILDC-ILDH series packaged water chillers or heaters with air cooled condenser are medium-capacity units specifically designed for heating and air conditioning applications in offices, healthcare facilities, administration, shopping centres and the residential sector.
These packaged units are designed for outdoor installation and require no special protection against adverse weather conditions.
An optional XTRAFAN version enables installation with ductable fan(s), if required, if there is a risk of air recycling, or for sound insulation on site.
To operate in heating or cooling mode, they use the outdoor air as the only external source; this allows heat to be evacuated in summer and thermal energy to be supplied for heating in winter.
Connected to an underfloor heating or cooling system, fan coil units or an air handling unit, the reversible AQUACIAT2 ILD-ILDC-ILDH series is an extremely easy way to heat and air condition buildings.
Each unit is delivered fully assembled, wired (control and power), charged with refrigerant and factory tested.
Simply make the necessary electrical and hydraulic connections, and your unit is ready to operate.
Cooling capacity: 20 to 170 kWHeating capacity: 20 to 180 kW
High energy efficiency with R410ACompact and quietScroll compressorsBrazed-plate heat exchangersSelf-adjusting electronic control
Heat recovery
Cooling or heating
Cooling
rangeAQUACIAT2 LD seriesCooling only versions without hydraulic system,
AQUACIAT2 LDC-LDH seriesCooling only versions with hydraulic system (circulation pump only or pump and buffer tank).
AQUACIAT2 ILD seriesReversible air/water versions without hydraulic system,
AQUACIAT2 ILDC-ILDH seriesReversible air/water versions with hydraulic system (circulation pump only or pump and buffer tank).
410A
2 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
DescriptionAQUACIAT2 LD-LDC-LDH cooling only or ILD-ILDC-ILDH reversible series models are supplied with the following components as standard:- Air-cooled condenser with axial fan motor assembly,- Chilled-water evaporator (or hot water condenser on reversible models),- Chilled water or hot water capacity control,- Control, automatic operation and startup box: . Power supply: 3~50Hz 400V (+10%/-10%) + Earth . 1~50Hz 230V control circuit (transformers fitted as standard on the machine),- Casing for outdoor installation.
n Complies with European EC directives- Machinery 2006/42/EC- EMC directive (2004/108 EC)- Pressure equipment PED 97/23 EC:
category 2 for LD - LDC - LDH 80V to 700Vcategory 2 for ILD - ILDC - ILDH 80V to 700V
- Low voltage (2006/95/EC)
n Complies with standards- EN 60-204, EN 378-2 (NFC 15-100, France)
DescriptionILD > Reversible version H > Hydraulic with pump and buffer tankLD > Cooling only version 540 > Unit sizeC > Hydraulic with pump only V > R410A refrigerant
Models 80 to 300
Main coMponentsn Casing- Removable galvanised metal panels,- RAL 7024 and RAL 7035 lacquer coating
n Hermetic Scroll compressors- Built-in electric motor cooled by suction gases- Motor protected by internal winding thermostat- Placed on anti-vibration mounts
n Evaporator- Brazed-plate exchanger(s)- End and inside plates in AISI 316 stainless steel- High-performance, optimised plate patterns- Thermal insulation
n Condenser- High efficiency air-cooled exchanger, aluminium fins with optimised profiles and grooved copper tubes- Condenser or evaporator mode heat exchanger on ILD-ILDC-ILDH reversible heat pump versions- Axial fan(s) with aluminium airfoil blades- 2-speed motors - IP 54, class F
n Control functions and safety devices- Water flow control- Thermostatic expansion valve(s)- Refrigerant high and low-pressure safety devices- Safety valves on refrigeration circuit
- Temperature and pressure sensors- Water flow controller, evaporator fitted- Unit start-up sequence
Fans
Air-cooled condenser
Buffer tank
Hydraulic pump versions C and H
Electrics box
Compressor compartment
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
n Electrics boxThe fully wired electrics box which houses all the electrical components and the electronic CPU board, controls the entire unit, monitors its operation, adjusts water setpoints and interfaces with an external control system.It comprises:- Control and power circuits,- Wire numbering,
- Main safety switch with handle on front,- Control circuit transformer,- Circuit breakers on the power and control circuits,- Compressor and motor switches,- Main earth connection,- Microprocessor-controlled electronic control unit,- Alarm or information signals on free terminals.
n Main options- Additional voltage-free contact boards,- Remote control unit,- Phase controller = rotation direction, missing phases,
(factory fitted on 350 to 700 versions),- Soft start system (factory fitted on 350 to 700 versions),- Frost protection,- Fan speed regulator (factory fitted on 350 to 700 versions)- 800-micron water filter supplied as standard on LDC-LDH or
ILDC-ILDH versions, and as an option on LD-ILD versions,- Evaporator and condenser flexible couplings,- Hydraulic control kit including manifold pressure gauges,
control valve and shut-off valve,- Pump intake minimum safety (factory fitted on sizes 350 to 700),
- Variable speed pump (350V to 700V)- Dual pump for 180 to 700 versions (factory fitted on 350 to
700 versions),- Refrigerant leak detection (factory fitted on sizes 350 to 700),- 15 kW extra heater kit (ILD, ILDC, ILDH 80 to 150).- 15-30-45-60 kW extra heater module kit (ILD, ILDC, ILDH
180 to 300),- MULTICONNECT management of up to 8 units,- Management of 4 auxiliary heating devices,- LONWORKS protocol,- BACNET protocol,- Container handling kit (350 to 700).
electronic control MoDule
CIAT electronic control module with microprocessor and CPU, with central automatic operation and access to internal operation states.
n Features:- Start, stop, reset or remote control,- Cooling or heating mode selector,- Outputs. RS485 output for CMS link (ModBus-JBus): . Board adapter for additional voltage-free contacts, . Remote control adapter (optional)- Multilingual analogue LCD and LEDs.
n Functions:- Operation information displayed via: . Multilingual clear-text messages . Direct temperature and pressure readings
- Complete management of compressors with start-up sequence, timer and runtime balancing,
- Self-adjusting and proactive functions with adjustment of settings drift control,
- Series stage capacity-reduction system on multi-compressors according to cooling and heating demands based on water temperatures,
- Monitoring of internal operation parameters,- Pump standby based on demand,- Second setpoint management,- Direct display of water temperature and pressure,- Diagnosis of operation and fault states: HP/LP, water flow rate, compressor motor(s), frost protection- Short-cycle protection,- Remote management and remote monitoring,- Master/Slave Management allows two machines to be
controlled on a single water loop, by alternating the Master and Slave according to the running time,
- Setpoint adjustable by 4-20 mA signal,- Weekly programming.
options
4 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
Variable speeD puMp DescriptionAvailable in sizes from 350V to 700V, the «variable speed pump» option on the primary circuit saves you energy by adjusting the electrical consumption of one pump to the actual requirements of a hydraulic system (P2 pressure), in particular for oversized installations.A regulator enables one pump (pump A in the example below) to be adapted, by lowering its pressure P1 to the requirements of system P2, to obtain the optimal water flow setpoint.Electricity bills relating to the pump's consumption are reduced proportionately, by around 25% per year on average; this means you will see a return on investment (ROI) in only a few years, compared with the same fixed speed pump equipped with a simple flow control valve.
Operating principleThis relies on precise adjustment of the water flow required for an installation when the unit is started up; this must subsequently be maintained within a minimum/maximum range by constantly measuring the differential pressure on the pump terminals.The speed regulator is then triggered based on the events occurring in the hydraulic system, such as valves opening or closing, re-establishing the water flow setpoint.
Any deviation in the pressure recorded on the unit's terminals is immediately handled by the pump's variable speed control which is automatically adjusted based on the variations generated by the hydraulic system.The machine independently controls adjustments in the water flow between two (minimum and maximum) setpoints, without any external intervention.
Pa
S
S
S
mWC
mWC
P2
P2
ΔP P1
Rated flow
Rated flow
Pressure drop
m3/h
m3/h
Hz
Time
System pressure drop
Water flow rate setpoint
Regulator frequency
m3/h
max.
min.
Pump A
Pump B
Variable speed
pump "A"
Simple to useThe “Variable Speed Pump” is fully integrated and protected on the CIAT machine and, as it is installed outdoors, there is no need for work to be carried out in the machine room.The assembly is factory-fitted and pre-set on the unit by CIAT; it is therefore quick to install and reduces the cost of work, in particular because there is no water flow control valve on the outlet of the unit.The ability to adjust the water flow to your requirements means that the pump pressure can be adapted precisely to the actual pressure drop on the system when it is started up on-site.
SOFT STARTA "soft start" function prevents any current peaks when the pump is started up to protect the electrical system, thereby limiting the building’s electricity use at peak times and ensuring the smooth operation of the pipework.
STANDBY functionA “Standby” function controls the electricity consumed by the pump; this works by reducing the pump’s speed when the compressors are ordered to stop by the control, using a specific algorithm on the regulator.Lowering the speed to the minimum frequency when the compressors are on standby reduces the water flow to ensure the water loop is perfectly homogenised and the control temperature sensors are well irrigated.This reduces electricity consumption by around 70% during standby periods, which represents a significant proportion of the machine’s normal operating time, in particular for air conditioning applications.
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
LD LDC-LDH ILD ILDC-ILDHCOOLING ONLY HEAT PUMP
Power supply: 400 V, 3-Phase, 50 Hz, without neutral, with transformer Std Std Std Std
Coil protection screen Std 300 Std 300 Std 300 Std 300
Resilient mounts Std Std Std Std
MODBUS-JBUS RS 485 and MODBUS-TCP Ethernet communication interface Std Std Std Std
Main disconnect switch Std Std Std Std
Water fl ow regulator Std Std Std Std
Additional voltage-free contacts board O O O O
Remote control (remote control console) O O O O
Phase monitor (rotation direction, missing phases) O O O O
Soft start O O O O
Frost protection O O O O
Condenser ventilation variable speed drive (operation down to -20°C in cooling mode) O O O O
Partial heat recovery - Desuperheater O O O O
ALTENA coil coating O O O O
Polyurethane coated coil fi ns O O O O
800-micron water fi lter O Std O Std
Hydraulic control kit (manifold, control & shut-off valve) O O O O
Hydraulic hoses O O O O
Pump intake minimum safety O / 80 300*350 700**
O / 80 300*350 700**
O / 80 300*350 700**
O / 80 300*350 700**
Double pump _ O / 180 700 _ O / 180 700
Variable speed pump. _ O / 350 700 _ O / 350 700
Refrigerant leak detection O / 80 300* 350 700**
O / 80 300* 350 700**
O / 80 300* 350 700**
O / 80 300* 350 700**
Additional technical compartment (without equipment) O / 180 300 O / 180 300 O / 180 300 O / 180 300
15 kW auxiliary electric heater kit _ _ O / 80 150 O / 80 150
15 - 30 - 45 - 60 kW auxiliary electric heater module kit _ _ O / 180 300 O / 180 300
MULTICONNECT multiple unit management O O O O
External auxiliary heating management board (4-stage) _ _ O O
XTRAFAN fan system O / 700 O / 700 O / 700 O / 700
Reinforced insulation, low-temperature glycol/water mix (0°C to -12°C) O / 350 O / 350 O / 350 O / 350
LONWORKS / BACNET gateway O O O O
Kit - Container handling O / 350 700 O / 350 700 O / 350 700 O / 350 700
Optimised high pressure operation (All-season operation with energy optimisation) O / 350 700 O / 350 700 _ _
Electronic expansion valve O / 350 700 O / 350 700 _ _
Total heat recovery O / 350 700 O / 350 700 _ _
Shell and tube exchanger O / 350 700 _ _ _
stanDarD anD optional equipMent
Std:Supplied as standard O:Option* 80-->300 Kit supplied separately** 350 -->700 Factory fitted
_:Not available
Note: Some technical options not listed above may be added on special request (please contact us).
6 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
Most central air conditioning systems installed in the tertiary sector in Europe use water chillers to provide cooling.
Until now, the efficiency of air conditioners in Europe was measured using a single nominal test point under full load, called the Energy Efficiency Ratio (EER). However, a unit's efficiency depends on its operating conditions.
Analyses of installed systems show that the heat load varies from season to season and that a water chiller operates at reduced capacity for the majority of the time.
The European Seasonal Energy Efficiency Ratio (ESEER) measures the seasonal efficiency of water chillers by taking into account their efficiency under partial load using formulas created by the European certification body Eurovent.
The efficiency under partial load is therefore essential when choosing a water chiller.
It is with this in mind that the new AQUACIAT2 range was designed, especially as regards the choice of R410A refrigerant which, thanks to its extremely high thermodynamic performance, makes much higher EER and ESEER ratings possible compared to R407C, and reduces electricity consumption by as much as 25%.
As its compressors are connected in parallel on the refrigeration circuit, the AQUACIAT2 easily and efficiently adjusts the cooling capacity to the system's needs. The self-regulating CONNECT control anticipates variations in load and starts only the number of compressors needed. The compressors operate at optimum performance, energy efficiency is extremely high all year-round and, as a result, the system remains energy efficient for most of its life.
Unit load Air inlet temperature Chilled water temperature Weighting coefficient100 % 35°C 12°C/7°C A = 0.03
75% 30°C 10.8°C / 7°C (*) B = 0.33
50% 25°C 9.5°C / 7°C (*) C = 0.41
25 % 20°C 8.3°C / 7°C (*) D = 0.23
(*) Water flow rate = Water flow rate at 100%
The ESEER design conditions for air-cooled water chillers are as follows:
ESEER = A x EER100% + B x EER75% + C x EER50% + D x EER25%
A, B, C and D are weighting coefficients pertaining to a unit's running time based on its load
Jan. Feb. March April May June July Aug. Sept. Oct. Nov. Dec.
3 months only beyond 75%
seasonal perforMance
Seasonal heat load variations
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
(1) Capacities on HIGH PERFORMANCE version according to EN14511-2013 EUROVENT standard:
Chilled water: +12°C/+7°C and condenser air inlet temperature +35°C(2) Net value EER (excluding pump)
(3) Lw: Overall sound power level as per standard ISO3744Lp: Overall pressure level measured at 10m in a free field, calculated using the formula Lp=Lw- 10 log S
technical characteristics - cooling only
AQUACIAT2 LD - LDC - LDH 80V 90V 100V 120V 150V 180V 200V 240V 300V
Net cooling capacity (1) kW 20.5 23.37 27.28 30.43 38.24 46.18 53.2 60.1 75.73
Net absorbed power kW 6.73 7.73 8.74 10.1 13.88 14.77 17.74 20.44 28.07
Net energy efficiency rating (EER) (2) kW/ kW 3.04 3.02 3.12 3.01 2.75 3.12 2.99 2.93 2.69
Net seasonal energy efficiency rating (ESEER) LN kW/ kW 3.68 3.66 3.78 3.63 3.18 4.26 4.28 4.1 4.01
Net seasonal energy efficiency rating (ESEER) HP kW/ kW 3.62 3.63 3.81 3.69 3.29 4.36 4.31 4.01 4.01
Lw / Lp (3) (High Performance version - HP) dB(A) 75 / 43 77 / 45 78 / 46 79 / 47 84 / 52 87 / 55
Lw / Lp (3) (Low Noise version - LN) dB(A) 71 / 39 73 / 41 75 / 43 77 / 45 76 / 44 80 / 48 81 / 49
No. of refrigerating circuits 1
Refrigerant (GWP) R410A ( GWP = 2088)
Refrigerant charge kg 3.7 3.9 5.5 5.2 10 10.5 10.2 11
Tonne CO2 Equivalent TCO2Eq 7.72 8.14 11.48 10.85 20.88 21.92 21.29 22.96
Compressor Hermetic SCROLL (2 900 rpm)
Start-up mode Direct in line in series
Quantity 1 2
Power control % 100-0 100-50-0
Oil type Polyol ester POE 3MAF (32 cst)
Oil capacity l 2.5 3.25 4.14 6.5 8.3
Evaporator Brazed-plate exchanger(s)
Water content l 1.78 2.22 3.11 3.55 4.22 4.77 7.71
Chilled water outlet temp. (min./max.) °C -12 °C / +18 °C
Minimum water flow rate m3/h 2.4 2.7 3.1 3.5 4.4 5.4 6.1 6.9 8.8
Maximum water flow rate m3/h 7.2 8.3 9.6 10.8 13.4 16.2 18.7 21.3 26.3
Water connections ∅ Male G 1”1/4 Male G 1”1/2 Male G 2”
Max. pressure, water end bar 10 bar (LOD)/4 bar (LDC-LDH)
Air-cooled condenser Finned heat exchanger
Fan Ø mm Direct drive propeller fan - diameter 800 mm
No. x Motor output, High Performance (HP) version no x kW 1x0.8 1x1.6
Air flow, High Performance - HP m3/h 15500 16100 16200 21700
Qty x Motor output Low Noise version - LN nb x kW 1x0.5 1x1.1
Air flow, Low Noise - LN m3/h 12300 13100 13200 17600
Min water volume LD - LDC l 144 130 155 173 229 131 149 173 209
Tank volume version LDH l 100 150 200
Expansion vessel LDC - LDH l 6 18
Standard pump n° 44 45 40 41
Height (excluding mounts) mm 1170 1393 1743
Length version LD - LDC - LDH mm 1995 / 1995 / 1995 1995 / 1995 / 2676
Depth mm 1055
Weight (empty, version LD) kg 347 350 365 367 449 569 575 581 711
Weight (empty, version LDC) kg 365 368 383 385 467 616 619 625 756
Weight (empty, version LDH) kg 390 393 407 409 492 813 816 822 953
Maximum storage temperature °C + 50°C
8 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
characteristics - cooling only
(1) Capacities on HIGH PERFORMANCE version according to EN14511-2013 EUROVENT standard:
Chilled water: +12°C/+7°C and condenser air inlet temperature +35°C(2) Net value EER (excluding pump)
(3) Lw: Overall sound power level as per standard ISO3744 Lp: Overall pressure level measured at 10m in a free field, calculated using the formula Lp=Lw- 10 log S
(4) Based on selection
AQUACIAT2 LD - LDC - LDH 350V 400V 500V 540V 600V 700V
Net cooling capacity (1) kW 91.95 100.81 125.65 141.08 154.23 170.45
Net absorbed power kW 30.23 35.02 43.17 46.31 53.73 62.95
Net energy efficiency rating (EER) (2) kW/ kW 3.04 2.87 2.91 3.04 2.87 2.7
Net seasonal energy efficiency rating (ESEER) LN kW/ kW 4.1 4.12 3.43 4.08 3.85 3.78
Net seasonal energy efficiency rating (ESEER) HP kW/ kW 4.08 4.05 3.48 4.04 3.89 3.86
Lw / Lp (3) (High Performance version - HP) dB(A) 87 / 55 88 / 56 89 / 57
Lw / Lp (3) (Low Noise version - LN) dB(A) 81 / 49 83 / 51
No. of refrigerating circuits 1 2
Refrigerant (GWP) R410A ( GWP = 2088)
Refrigerant charge kg 22 12+12.6 15.3+15.6 15.2+15.7 17+17.4
Tonne CO2 Equivalent TCO2Eq 45.93 51.36 64.51 71.82
Compressor Hermetic SCROLL (2 900 rpm)
Start-up mode Direct in line in series
Quantity 2 4
Power control % 100-57-43-0 100-63-37-0 100-50-0100-78-72-55-50-
45-28-22-0100-75-50-25-0
100-78-71-57-50-43-28-21-0
Oil type Polyol ester POE 3MAF (32 cst)
Oil capacity l 8.8 9.8 11.2 14.8 16.6 17.6
Evaporator Brazed-plate exchanger(s)
Water content l 6.4 7.5 9.3 9.3 10.6 11.8
Chilled water outlet temp. (min./max.) °C -12 °C/ +18°C
Minimum water flow rate m3/h 10.7 11.8 17.3 18.1 20.8
Maximum water flow rate m3/h 32.5 35.3 43.6 48.7 53 59
Water connections ∅ DN 80 flange
Max. pressure. water end bar 10 bar (LOD)/4 bar (LDC-LDH)
Air-cooled condenser Finned heat exchanger
Fan Ø mm Direct drive propeller fan - diameter 800 mm
No. x Motor output. High Performance (HP) version no x kW 2x1.7 2x1.6
Air flow. High Performance - HP m3/h 37600 40000 41500
Qty x Motor output Low Noise version - LN nb x kW 2x1.1
Air flow. Low Noise - LN m3/h 29000 31000 33200
Min water volume LD - LDC l 220 213 357 164 207 203
Tank volume version LDH l 250
Expansion vessel LDC - LDH l 18
Standard pump n° (4)
Height (excluding mounts) mm 2117
Length version LD - LDC - LDH mm 2190 / 2190 / 2190 2740 / 2740 / 2740
Depth mm 2129
Weight (empty. version LD) kg 1064 1163 1245 1530 1666 1732
Weight (empty. version LDC) kg 1162 1268 1315 1725 1845 1911
Weight (empty. version LDH) kg 1233 1332 1380 1790 1908 1974
Maximum storage temperature °C + 50°C
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
technical characteristics - reVersible heat puMpsAQUACIAT ILD - ILDC - ILDH 80V 90V 100V 120V 150V 180V 200V 240V 300V
Net cooling capacity (1) kW 20.1 22.72 27.21 30.26 40.22 46.77 53.16 61.5 75,29
Net absorbed power kW 7.04 8.17 9.29 10.83 13.27 15.52 18.64 21.09 27,9
Net energy efficiency rating (EER) (2) kW / kW 2.85 2.77 2.92 2.79 3.02 3.01 2.85 2.91 2,69
Seasonal energy efficiency rating (ESEER) LN kW / kW 3.16 3.03 3.17 2.95 3.11 4.09 3.93 3.83 3,66
Lw / Lp (4) (Low Noise version - LN) dB(A) 73 / 41 75 / 43 77 / 45 79 / 45 78 / 46 82 / 50 83 / 51
Net heating capacity(2/3) kW 20.84 / 21.6 23.38 / 24.2 28.3 / 29.5 31.85 / 33.2 41.69 / 43.1 48.74 / 50.5 55.25 / 57.2 64.12 / 66.9 81,75 / 84,2
Net absorbed power (2/3) kW 7.14 / 5.8 8.08 / 6.6 9.8 / 7.9 10.95 / 9 13.89 / 11.4 15.74 / 12.7 18.25 / 14.6 21.32 / 17.5 26,65 / 21,9
COP/net COP performance (2/3) 2.91 / 3.72 2.89 / 3.67 2.88 / 3.73 2.9 / 3.69 3 / 3.78 3.09 / 3.97 3.02 / 3.91 3 / 3.82 3,06 / 3,84
Net seasonal efficiency SCOP (5) kW / kW 3.05 3.03 3.25 3.15 3.17 3.33 3.38 3.25 3,31
ŋs heating % 119 118 127 123 124 130 132 127 129
Prated kW 12.67 13.88 16.46 18.03 23.62 29.6 29.36 34.69 43,68
No. of refrigerating circuits 1
Refrigerant (GWP) R410A (GWP = 2088)
Refrigerant charge kg 5.2 6.4 7.1 9.7 12.5 12.7 13.1 13,1
Tonne CO2 Equivalent TCO2Eq 10.85 13.36 14.82 20.25 26.1 26.51 27.35 27,35
Compressor Hermetic SCROLL (2 900 rpm)
Start-up mode Direct in line in series
Quantity 1 2
Power control % 100-0 100-50-0
Oil type Polyol ester POE 3MAF (32 cst)
Oil capacity l 2.50 3.25 4.14 6.50 8,3
Evaporator Brazed-plate exchanger(s) exchanger(s)
Water content l 1.78 2.22 3.11 3.55 4.22 4.77 7,71
Chilled water outlet temp. (min./max.) °C -10°C/+18°C
Hot water outlet temp. (min./max.) °C +30°C / +50°C
Minimum water flow rate m3/h 2.9 3.6 5.1 5.8 6.9 7.8 10,4
Maximum water flow rate m3/h 6.7 7.4 9 10 13.1 15.4 17.6 20.4 24,5
Water connections ∅ Male G1"1/4 Male G1"1/2 Male G 2"
Max. pressure, water end bar 10 bar (ILD)/4 bar (ILDC-ILDH)
Air-cooled condenser Finned heat exchanger
Fan ∅ mm Direct drive propeller fan - diameter 800 mm
Qty x Motor output Low Noise version - LN no. x kW 1x0.35 1x0.46 1x1.2
Air flow, Low Noise - LN m3/h 8700 10800 9700 10800 18000
Min water volume ILD - ILDC l 114 130 155 173 229 131 149 173 209
Tank volume ILDH version l 100 150 200
Expansion vessel ILDC - ILDH l 6 18
Standard pump no 44 45 40
Height (excluding mounts) mm 1170 1393 1743
Length ILD - ILDC - ILDH version mm 1995 / 1995 / 1995 1995 / 1995 / 2676
Depth mm 1055
Weight (empty, version ILD) kg 328 331 366 368 452 611 614 620 756
Weight (empty, version ILDC) kg 346 349 384 386 470 648 651 656 789
Weight (empty, version ILDH) kg 371 374 409 411 495 845 848 853 986
Maximum storage temperature °C + 50°C
Output for LOW NOISE version: Net conditions (exc. pumps) according to EN14511-2013 EUROVENT standard(1) Chilled water 12°/7°C and condenser air inlet temperature +35°C(2) Hot water 40°C/45°C and outdoor air temperature +7°C DB/ 6°C WB(3) Hot water 30°C/35°C and outdoor air temperature +7°C DB/ 6°C WB
(4) Lw: Overall sound power level as per standard ISO3744Lp: Overall pressure level measured at 10m in a free field, calculated using the formula Lp=Lw- 10 log S
(5) Hot water 30°C/35°C - Average climate conditions according to EN 14825-2013 standard
10 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
technical characteristics - reVersible heat puMps
Output for HIGH PERFORMANCE version : Net conditions (exc. pumps) According to EN14511-2013 EUROVENT standard(1) Chilled water: +12°C/+7°C and condenser air inlet temperature +35°C(2) Hot water 40°C/45°C and outdoor air temperature +7°C DB/ 6°C WB(3) Hot water 30°C/35°C and outdoor air temperature +7°C DB/ 6°C WB(4) Lw: Overall sound power level as per standard ISO3744
Lp: Overall pressure level measured at 10m in a free field, calculated using the formula Lp=Lw- 10 log S
(5) Hot water 30°C/35°C - Average climate conditions according to EN 14825-2013 standard
(*) Based on selection
AQUACIAT ILD - ILDC - ILDH 350V 400V 500V 540V 600V 700V
Net cooling capacity (1) kW 92.41 104.77 127.51 139.23 154.68 162.42
Net absorbed power kW 31.78 35.61 44.98 46.76 53.11 60.21
Net energy efficiency rating (EER) (2) kW / kW 2.9 2.94 2.83 2.97 2.91 2.69
Seasonal energy efficiency rating (ESEER) kW / kW 3.71 3.77 3.15 3.99 3.91 3.69
Seasonal energy efficiency rating (ESEER) kW / kW 3.56 3.7 3.16 3.83 3.81 3.5
Lw / Lp (4) (High Performance version - HP) dB(A) 89 / 57 90 / 58 91 / 59
Lw / Lp (4) (Low Noise version - LN) dB(A) 83 / 51 85 / 53
Net heating capacity(2/3) kW 95.4 / 99.1 109.25 / 113 133.22 / 137. 9 147.83 / 153.5 164.68 / 169.9 182.37 / 187.5
Net absorbed power (2/3) kW 31.8 / 26.4 36.45 / 30.3 43.72 / 36.2 48.43 / 39.8 53.68 / 44.1 58.89 / 48.1
COP/net COP performance (2/3) 2.99 / 3.76 2.99 / 3.73 3.04 / 3.81 3.05 / 3.86 3.06 / 3.85 3.15 / 3.90
Seasonal efficiency SCOP net (5) kW / kW 3.03 3.01 3.07 3.03 3.07 3.06
ŋs % 118 118 120 118 120 119
Prated kW 55.03 64.08 76.61 83.22 93.62 104.46
No. of refrigerating circuits 1 2
Refrigerant (GWP) R410A (GWP = 2088)
Refrigerant charge kg 21 24 14 + 14 18 + 18 18.2 + 19.2 19.5 + 19.5
Tonne CO2 Equivalent TCO2Eq 43.84 50.11 58.46 75.16 78.09 81.43
Compressor Hermetic SCROLL (2 900 rpm)
Start-up mode Direct in line in series
Quantity 2 4
Power control % 100-57-43-0 100-63-37-0 100-50-0100-78-72-55-50-
45-28-22-0100-75-50-25-0 100-78-50-22-0
Oil type Polyol ester POE 3MAF (32 cst)
Oil capacity l 8.80 9.8 11.2 14.8 16.6 17.6
Evaporator Brazed-plate exchanger(s)
Water content l 8.68 9.88 10.66 12.48 15.42
Chilled water outlet temp. (min./max.) °C -10°C/+18°C
Hot water outlet temp. (min./max.) °C +30°C / +50°C
Minimum water flow rate m3/h 11.7 13.3 17.3 18.1 20.8
Maximum water flow rate m3/h 30.7 34.6 41.9 45.9 50.7
Water connections ∅ Male G 2” DN 80 flange
Max. pressure, water end bar 10 bar (ILD)/4 bar (ILDC-ILDH)
Air-cooled condenser Finned heat exchanger
Fan ∅ mm Direct drive propeller fan - diameter 800 mmNumber x Motor output High Performance (HP version)
no. x kW 2x1.7 2x1.8 2x1.7
Air flow, High Performance - HP m3/h 44000 42000 41000 44000
Qty x Motor output Low Noise version - LN no. x kW 2x1.2 2x1.1
Air flow, Low Noise - LN m3/h 32000 29000 30500 35000
Min water volume ILD - ILDC l 220 213 357 164 207 203
Tank volume ILDH version l 250
Expansion vessel ILDC - ILDH l 18
Standard pump no (*)
Height (excluding mounts) mm 2117
Length ILD - ILDC - ILDH version mm 2190 / 2190 / 2190 2740 / 2740 / 2740
Depth mm 2129
Weight (empty, version ILD) kg 1096 1195 1283 1570 1706 1878
Weight (empty, version ILDC) kg 1194 1292 1355 1675 1804 1976
Weight (empty, version ILDH) kg 1257 1356 1418 1748 1868 2040
Maximum storage temperature °C + 50°C
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electrical characteristicsn Basic unit (excluding pump)
80V 90V 100V 120V 150V 180V 200V 240VPower supply ph/Hz/V 3~50Hz 400V (+10% / -10%) + Earth
Control circuit voltage ph/Hz/V 1~50Hz 230V (+10% / -10%) - Transformer fitted
Starting current (excluding pump) A 95 111 118 137 174 129 139 160
Starting current, SOFT START option A 50 53 55 70 60 70 76 93
Breaking capacity (TN-TT neutral system) kA 15 10 15
Maximum wire cross-section mm2 10 35 70
Maximum nominal current (1) A 19.8 22.3 25.8 27.8 35.7 40 47 52
Machine protection rating IP 44
300V 350V 400V 500V 540V 600V 700VPower supply ph/Hz/V 3~50Hz 400V (+10% / -10%) + Earth
Control circuit voltage ph/Hz/V 1~50Hz 230V (+10% / -10%) - Transformer fitted
Starting current (excluding pump) A 205 256 303 317 251 267 323
Starting current. SOFT START option A 91 168 195 208 137 153 235
Breaking capacity (TN-TT neutral system) kA 10 35 10
Maximum wire cross-section mm2 95
Maximum nominal current (1) A 68 83.1 91.3 105 123.6 139.4 150.4
Machine protection rating IP 44
(1) pump current not included
n Hydraulic pumps (versions C and H)When choosing a pump, refer to the flow rate/pressure curves.
In accordance with regulation No. 640/2009 and directive 2005/32/EC relating to eco-design requirements for electric motors, the pumps are equipped with IE2 (P<7.5 kW) or IE3 (P>7.5 kW) efficiency class motors.Current for voltage 400V/3Ph/50 Hz (+10%/-10%)Cable selection nominal current: sum of maximum nominal currents indicated in the tables.
DUAL PUMPS (I)LDC - (I)LDH ONLY Number 2 X 40 2 X 51 2 X 52 2 X 41 2 X 42 2 X 43
Power kW 2 X 0.75 2 X 0.75 2 X 0.75 2 X 1.1 2 x 1.5 2 x 2.2
Maximum nominal current A 2 x 1.91 2 x 1.91 2 x 1.91 2 x 2.36 2 x 3.15 2 x 5.2
SINGLE PUMPS (I)LDC - (I)LDH ONLYNumber 150 138 140 151 117 139 152 118 119
Power kW 0.75 1.5 1.5 1.5 2.2 2.2 2.2 4 7.5
Maximum nominal current A 1.76 3.2 3.2 3.2 4.4 4.6 4.6 7.7 13.7
DUAL PUMPS (I)LDC - (I)LDH ONLYNumber 250 238 240 251 217 239 252 218 219
Power kW 0.75 1.5 1.5 1.5 2.2 2.2 2.2 4 7.5
Maximum nominal current A 1.76 3.2 3.2 3.2 4.4 4.6 4.6 7.7 13.7
SINGLE PUMPS (I)LDC - (I)LDH ONLYNumber 44 45 40 51 52 41 42 43
Power kW 0.55 0.75 0.75 0.75 0.75 1.1 1.5 2.2
Maximum nominal current A 1.7 1.91 1.91 1.91 1.91 2.36 3.15 5.2
12 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
SIZE Standard versionLD - ILD
Version C LDC - ILDC
Version HLDH - ILDH
80to
150
180 to
300
350to
700
hyDraulic configurationsThe Aquaciat 2 range of reversible and cooling only models is available in 3 versions: LD-ILD standard units without hydraulics, LDC-ILC units equipped with a single or dual pump, LDH-ILH hydraulic units equipped with a single or dual pump and a buffer tank.
With 1 dual external pump no. 250 to no. 119 With 1 dual external pump no. 250 to no. 119
With pump no. 44, no. 45 or no.51With pump no. 44, no. 45 or no.51
With 1 or 2 single internal pumps no. 40 to 43; no.51 and no.52
With 1 or 2 single internal pumps no. 40 to 43; no.51 and no.52
With ME electric module and 1 or 2 single internal pumps no. 40 to no.43; no.51 and no.52
With ME electric module and 1 or 2 single internal pumps no. 40 to no.43; no.51 and no.52
With 1 single external pump no. 150 to no. 119 With 1 single external pump no. 150 to no. 119
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hyDraulic puMpsStandard or optional installationThe water circulation pumps below relate to units factory-fitted with hydraulic equipment, versions C or H.
● Standard Factory fitted
no. 80V 90V 100V 120V 150V 180V 200V 240V 300V 350V 400V 500V 540V 600V 700V
Sing
le p
umps
44 ● ● ● ●
45 ●
40 ● ● ●
51
52
41 ●
42
43
150
138
140
151
117
139
152
118
119
Dua
l pum
ps
2 X 40
2 X 51
2 X 52
2 X 41
2 X 42
2 X 43
250
238
240
251
217
239
252
218
219
14 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
operating range (at full capacity)
n ILD - ILDC - ILDH
n LD - LDC - LDH
→ O
utdo
or te
mpe
ratu
re °
C B
S
→ Evaporator outlet °C
Glycol compulsory
SELF-REGULATING
OVERBOOSTXtraFan option
→ O
utdo
or te
mpe
ratu
re °
C B
S
→ Evaporator outlet (°C)
Glycol compulsory
SELF-REGULATING OVERBOOSTXtraFan option
Operation in COOLING mode
→ O
utdo
or te
mpe
ratu
re (°
C) D
B
→ Hot water outlet (°C)
Operation in HEATING mode
STA
ND
AR
D
Operation with fan speed controller option
Operation with fan speed controller option
Variable speed driveoption
Variable speed drive option
N.B.:When the installation is connected to a boiler, the return temperature of the hot water on the unit must never exceed +60°C.
Glycol use zone
Glycol use zone
Speed regulator option
Speed regulator option
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glycol/water MiX coefficients
n 30% concentration by weight of glycol (MEG)
n Solution freezing point: - 17.5°C.
K: correction factors
Values read in instructions:
Cc: cooling capacity based on selection tables
Pi: compressor power input based on selection tables
∆P: water pressure drop based on the curves, for the corresponding corrected flow rate (Qc)
Values corrected using the above calculations:
Ccc: corrected cooling capacity
Qc: corrected flow rate (chilled water or hot water)
∆Pc: corrected water pressure drop, evaporator or condenser
eVaporator liMitsThe curves show the minimum and maximum allowable temperature differences for chilled water or glycol/water solution based on the outlet temperature.
Example:
For a water outlet: + 5 °C
Minimum difference: 2.6°CWater temperature: 7.6/5°C
Maximum difference: 6°CWater temperature: 11/5°C
If the temperature difference calculated is outside the two curves, contact us.
Maximum ∆T
Minimum ∆T
Brazed-plate evaporator
% concentration volume percent of ethylene
Multiplier correction factorCooling capacity Water fl ow rate Pressure drops
10 0.99 1.05 1.05
20 0.985 1.10 1.10
30 0.98 1.15 1.15
40 0.97 1.20 1.23
correction factor for ethylene glycolnEvaporator
n Glycol concentration requiredVolume concentration in % 0 10 20 30 40
Ethylene glycolFreezing point °C 0 -4 -10 -18 -27
Minimum water outlet °C 5 3 -1 -7 -14
Propylene glycolFreezing point °C 0 -4 -9 -16 -25
Minimum water outlet °C 5 4 1 -4 -9
→ ∆
T ac
cept
able
wat
er in
let/o
utle
t tem
pera
ture
diff
eren
ce (°
C)
→ Water outlet temperature (°C)
calculation ∆T for performance tables
CORRECTION POSITIVE TEMP. NEGATIVE TEMP.
K Calculation method K Calculation method
Evap
orat
or
Cooling capacity 0,98 Ccc = CC x 0.98 1,00 See selectiontable
Chilled waterflow rate
1,05 Qc = Ccc x 0.86 x 1,05∆T 1,10
Qc = Ccc x 0.86 x 1,10∆T
Water pressuredrop
1,15 ∆Hc = ∆P x 1,15 1,30 ∆Pc = ∆P x 1,30
Avg. temp. gradient 12 / 7 °C See operating limits
Con
dens
er
Cooling capacity 0,97 Ccc = CC x 0,97
Hot water flow rate 1,05 Qc = (Ccc+Pa) x 0.86 x 1,05∆T
Waterpressure drop 1,10 ∆Hc = ∆P x 1,10
Avg. temp. gradient 35 / 40 °C
Evap
orat
or +
con
dens
er
Cooling capacity 0,95 Ccc = CC x 0,95 0,97 Ccc = CC x 0,97
Chilledwater flow rate
1,05 Qc = Ccc x 0.86 x 1,05∆T
1,10 Qc = Ccc x 0.86 x 1,10∆T
Water pressure drop at evaporator 1,15 ∆Hc = ∆P x 1,15 1,30 ∆Hc = ∆P x 1,30
Hot water flow rate 1,05 Qc = (Ccc+Pa) x 0.86 x 1,05∆T
1,05 Qc = (Ccc+Pa) x 0.86 x 1,05∆T
Water pressure drop at condenser 1,10 ∆Hc = ∆P x 1,10 1,10 ∆Hc = ∆P x 1,10
16 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
MiniMuM water VoluMe (cooling MoDe)The Connect controller uses anticipation logic making it particularly flexible in adjusting operation to changes in settings, particularly on low-volume hydraulic systems.Adjusting compressor running times prevents short-cycle protection cycles from starting and, in most cases, eliminates the need for a buffer tank.The calculation of the minimum water volume is given for EUROVENT rated conditions, in cooling mode only.
This value is applicable for most air conditioning applications (unit with fan coil units)Note:For installations running with a low volume of water (assembly with air handling unit) or for industrial processes, the buffer tank is a required component.For heat pump applications, we recommend the use of a buffer tank to ensure a stable temperature is maintained during the defrosting cycle.
Size 80V 90V 100V 120V 150V 180V 200V 240V 300V 350V 400V 500V 540V 600V 700V
Min. system capacity (litres) 114 130 155 173 229 131 149 173 209 220 213 357 164 207 203
n Sound power level ref 2x10-5 Pa ±3 dB (Lp)Measurement conditions: free field, 10 metres from machine, 1.50 metres above floor level, directivity 2.
Note: Sound pressure levels depend on the installation conditions of each system. As such, the levels listed above are given for information only. Please note that only the sound power levels are comparable and certified.
AQUACIAT2 SOUND POWER LEVEL SPECTRUM (dB) Overall level
LwdB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 78 73 72 72 65 60 54 7590 V 78 73 72 72 65 60 54 75
100 V 78 77 74 74 68 62 55 77120 V 78 77 74 74 68 62 55 77150 V 77 79 77 74 67 60 54 78180 V 81 81 76 75 68 64 61 79200 V 79 78 76 75 68 62 58 79240 V 86 86 79 80 74 68 63 84300 V 82 88 83 83 77 70 64 87350 V 81 83 85 83 80 73 66 87400 V 81 83 85 84 80 74 67 88500 V 87 84 84 85 81 75 71 88540 V 82 85 86 84 81 74 68 88600 V 82 85 87 85 81 74 68 89700 V 82 85 87 85 81 74 68 89
AQUACIAT2SOUND PRESSURE SPECTRUM (dB) Overall level
(Lp)dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 46 41 40 40 33 28 22 4390 V 46 41 40 40 33 28 22 43
100 V 46 45 42 42 36 30 23 45120 V 46 45 42 42 36 30 23 45150 V 45 47 45 42 35 28 22 46180 V 49 49 44 43 36 32 29 47200 V 47 46 44 43 36 30 26 47240 V 54 54 47 48 42 36 31 52300 V 50 56 51 51 45 38 32 55350 V 49 51 53 51 48 41 34 55400 V 49 51 53 52 48 42 35 56500 V 55 52 52 53 49 43 39 56540 V 50 53 54 52 49 42 36 56600 V 50 53 55 53 49 42 36 57700 V 50 53 55 53 49 42 36 57
sounD leVelsThe distinguishing feature of the AQUACIAT2 range is its rigorous design incorporating "noiseless" assembly techniques:
LD - LDC - LDH COOLING ONLY High Performance versions - HPn Sound power levels ref 2x10-12 Pa ±3 dB (Lw)At nominal EN 14511 operating conditions – Cooling mode
n Scroll compressor fitted outside of the air streamn Compressor(s) installed on anti-vibration mountsn Pipes uncoupled from unit structure
nLow-speed fan(s)n Automatic air flow adjustment n Anti-vibration mounts underneath the units, supplied as standard
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LD - LDC - LDH COOLING ONLY LOW NOISE versions - LNn Sound power level ref 2x10-12 Pa ±3 dB (Lw)At nominal EN 14511 operating conditions – Cooling mode
n Sound power level ref 2x10-5 Pa ±3 dB (Lp)Measurement conditions: free field, 10 metres from machine, 1.50 metres above floor level, directivity 2.
Note: Sound pressure levels depend on the installation conditions of each system. As such, the levels listed above are given for information only.Please note that only the sound power levels are comparable and certified.
AQUACIAT2 SOUND POWER LEVEL SPECTRUM (dB) Overall level LwdB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 78 70 68 66 61 55 50 7190 V 78 70 68 66 61 55 50 71100 V 76 72 71 69 64 59 52 73120 V 75 73 71 69 64 59 52 73150 V 80 75 74 69 65 57 51 75180 V 80 80 74 71 64 62 60 77200 V 79 77 75 71 65 63 60 76240 V 85 85 75 73 66 63 61 80300 V 80 85 78 76 70 62 56 81350 V 74 79 79 76 72 66 60 81400 V 74 79 79 77 73 68 63 81500 V 83 81 82 78 74 69 64 83540 V 76 82 82 79 74 69 65 83600 V 75 81 83 78 73 67 63 83700 V 75 81 83 78 73 67 63 83
AQUACIAT2 SOUND PRESSURE SPECTRUM (dB) Overall level (Lp) dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 46 38 36 34 29 23 18 3990 V 46 38 36 34 29 23 18 39100 V 44 40 39 37 32 27 20 41120 V 43 41 39 37 32 27 20 41150 V 48 43 42 37 33 25 19 43180 V 48 48 42 39 32 30 28 45200 V 47 45 43 39 33 31 28 44240 V 53 53 43 41 34 31 29 48300 V 48 53 46 44 38 30 24 49350 V 42 47 47 44 40 34 28 49400 V 42 47 47 45 41 36 31 49500 V 51 49 50 46 42 37 32 51540 V 44 50 50 47 42 37 33 51600 V 43 49 51 46 41 35 31 51700 V 43 49 51 46 41 35 31 51
18 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
ILD – ILDC – ILDH REVERSIBLE HEAT PUMPS High Performance versions - HPn Sound power levels ref 2x10-12 Pa ±3 dB (Lw)At nominal EN 14511 operating conditions – Cooling mode
n Sound power level ref 2x10-5 Pa ±3 dB (Lp)Measurement conditions: free field, 10 metres from machine, 1.50 metres above floor level, directivity 2.
AQUACIAT2SOUND POWER LEVEL SPECTRUM (dB) Niveau global Lw
dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
350 V 83 85 87 85 82 75 68 89
400 V 83 85 87 86 82 76 69 90
500 V 89 86 86 87 83 77 73 90
540 V 84 87 88 86 83 76 70 90
600 V 84 87 89 87 83 76 70 91
700 V 84 87 89 87 83 76 70 91
AQUACIAT2SOUND PRESSURE SPECTRUM (dB) Overall level
(Lp)dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
350 V 51 53 55 53 50 43 36 57
400 V 51 53 55 54 50 44 37 58
500 V 57 54 54 55 51 45 41 58
540 V 52 55 56 54 51 44 38 58
600 V 52 55 57 55 51 44 38 59
700 V 52 55 57 55 51 44 38 59
Note: Sound pressure levels depend on the installation conditions of each system. As such, the levels listed above are given for information only. Please note that only the sound power levels are comparable and certified.
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ILD – ILDC – ILDH REVERSIBLE HEAT PUMPSVersion LOW NOISE - LNn Sound power level ref 2x10-12 Pa ±3 dB (Lw)At nominal EN 14511 operating conditions – Cooling mode
n Sound power level ref 2x10-5 Pa ±3 dB (Lp)Measurement conditions: free field, 10 metres from machine, 1.50 metres above floor level, directivity 2.
Note: Sound pressure levels depend on the installation conditions of each system. As such, the levels listed above are given for information only.Please note that only the sound power levels are comparable and certified.
AQUACIAT2SOUND POWER LEVEL SPECTRUM (dB) Overall level Lw
dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 80 72 70 68 63 57 52 7390 V 80 72 70 68 63 57 52 73100 V 78 74 73 71 66 61 54 75120 V 77 75 73 71 66 61 54 75150 V 82 77 76 71 67 59 53 77180 V 82 82 76 73 66 64 62 79200 V 81 79 77 73 67 65 62 78240 V 87 87 77 75 68 65 63 82300 V 82 87 80 78 72 64 58 83350 V 76 81 81 78 74 68 62 83400 V 76 81 81 79 75 70 65 83500 V 85 83 84 80 76 71 66 85540 V 78 84 84 81 76 71 67 85600 V 77 83 85 80 75 69 65 85700 V 77 83 85 80 75 69 65 85
AQUACIAT2SOUND PRESSURE SPECTRUM (dB) Overall level
(Lp) dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 48 40 38 36 31 25 20 4190 V 48 40 38 36 31 25 20 41100 V 46 42 41 39 34 29 22 43120 V 45 43 41 39 34 29 22 43150 V 50 45 44 39 35 27 21 45180 V 50 50 44 41 34 32 30 47200 V 49 47 45 41 35 33 30 46240 V 55 55 45 43 36 33 31 50300 V 50 55 48 46 40 32 26 51350 V 44 49 49 46 42 36 30 51400 V 44 49 49 47 43 38 33 51500 V 53 51 52 48 44 39 34 53540 V 46 52 52 49 44 39 35 53600 V 45 51 53 48 43 37 33 53700 V 45 51 53 48 43 37 33 53
20 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
Xtrafan Ventilation (optional equipMent)AQUACIAT2 80V to 700V units (*), LD-LDC-LDH versions in cooling only configuration, or ILD-ILDC-ILDH reversible heat pump versions, can be equipped with XTRAFAN ventilation as an option.
This type of fan motor with electronic switching of poles and rotors with permanent magnets differs from standard motors fitted with a classic frequency inverter thanks to its excellent mechanical efficiency and by an exceptionally low sound level, whatever the load on the shaft.
*: other sizes available on request.
FunctionsThe XTRAFAN offers a wide range of functions, making a whole host of flexible installation conditions possible, such as:
n The option of installation in a confined space, for example on a terrace surrounded by walls, where only an air supply with static pressure of between 100 and 200 pascals within a duct enables use without recycling or mixing of air at the condenser intake,
n Installation in an urban area in which noise is a particular issue, where operation is only possible by adapting a sound trap to the supply air,
n The guarantee of continued operation during high temperature peaks for Middle Eastern type climates, thanks to an "overboost" function on the condenser fan,
n A self-adjusting variable speed function which allows "all-season" cooling, fully secured for industrial processes, including during harsh winter conditions with an external temperature of -20°C,
n The freedom to precisely adjust the fan speed on-site to what is "strictly necessary" to obtain the optimum air supply pressure, or the maximum acceptable sound limit for the site on which the unit is located,
n An improvement in the EER and electrical consumption for the unit in cooling mode, in direct proportion to the refrigerant charge required by the installation.
Technical specifications and operating limitsThe XTRAFAN option allows the user to choose any one of three configurations for use:
n increased use of the water chiller, with an "overboost function" on the unimpeded air flow fans, so as to extend the outdoor temperature range under full load from +46 to +50°C,
n obtaining an intermediate available static pressure of 100 to 125 Pa at nominal flow, which allows air to be discharged into a duct at the condenser outlet so as to ensure the fan does not recycle used air,
n obtaining a maximum static pressure for air discharge of 130 to 200 Pa, depending on the model, at minimum flow, recommended for on-site installation with a sound trap at the air discharge.
Size
USEHIGH OUTDOOR TEMPERATURE
NOMINALstatic pressure
MAXIMUMstatic pressure
Operating pressure Air flow rate Usage limit Operating
pressure Air flow rate Usage limit Operating pressure Air flow rate Usage limit
Pa m3/h °C Pa m3/h °C Pa m3/h °C80 V - 90 V
0
16500
Outdoor operating range extended from
+46°C to +50°C
125 10400
Identical to PERFOR-
MANCE mode
160 9000
Identical toLOW NOISE
mode
100 V - 120 V 23800 150 17000 200 12000
150 V 23000 150 16200 200 12000
180 V - 200 V 23500 150 16500 200 12000
240 V - 300 V 26000 100 22100 200 17000
350 V - 400 V 50400 100 42000 200 34000
500 V 52000 100 40000 200 34000
540 V - 600 V 61200 100 48000 130 43000
700 V 58000 100 46000 130 43000
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Precautions for installationOn-site installation of a unit fitted with the XTRAFAN option requires some safety measures to be taken, particularly if it is installed in a machine room.This is the case for the draining of condensates specific to reversible packaged air-to-water units, including during periods of very low outdoor temperatures.During defrosting cycles, reversible units are liable to discharge a large amount of water onto the ground, which must be drained, as well as steam from the fan discharge which can damage the air discharge ducts.The ground upon which the unit is placed must be perfectly watertight and capable of collecting and draining the defrosted water, including during freezing periods. It is recommended that the unit be raised by approximately 300 mm.When installed on a work site with an air discharge duct, the weight of the duct must not, under any circumstances, be supported by the roof of the AQUACIAT2. It is recommended that a flexible air discharge sleeve, supplied as an option, be used to connect it to the unit.
LD - LDC - LDH COOLING ONLY Sound levels, XTRAFAN versionn Unit sound levels, ductless fan(s) with overboost
n Unit sound levels, ducted fan(s) with NOMINAL or MAXIMUM operating pressure
AQUACIAT2 OVERBOOST/POWER LEVEL SPECTRUM (dB) Overall level Lw dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 75 75 75 77 76 74 67 8290 V 75 75 75 77 76 74 67 82100 V 75 75 75 77 76 74 67 82120 V 74 79 76 77 76 75 67 82150 V 84 87 80 77 75 71 66 84180 V 72 77 77 77 75 75 68 82200 V 78 77 77 78 77 77 69 84240 V 82 85 82 81 80 79 71 87300 V 90 93 82 81 80 78 70 89350 V 83 80 85 84 83 81 72 89400 V 83 80 85 84 83 81 73 89500 V 83 80 85 85 83 81 74 90540 V 73 79 83 77 75 76 72 84600 V 74 81 85 78 75 76 72 85700 V 83 81 82 79 78 78 74 86
AQUACIAT2 NOMINAL static pressure/POWER LEVEL SPECTRUM (dB) Overall level Lw dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 77 76 76 78 76 74 68 8390 V 77 76 76 78 76 74 68 83100 V 77 76 76 78 76 74 68 83120 V 76 80 77 78 76 75 68 83150 V 84 87 80 78 76 72 68 84180 V 75 78 78 78 76 75 69 83200 V 79 78 77 79 78 77 70 84240 V 84 85 81 80 79 80 74 87300 V 91 93 82 80 79 79 73 88350 V 85 83 85 83 82 82 76 89400 V 85 83 85 83 82 82 76 89500 V 85 82 84 83 83 83 76 90540 V 77 82 84 79 76 75 72 85600 V 78 83 85 79 77 74 72 86700 V 84 84 83 81 80 77 74 87
AQUACIAT2 MAXIMUM static pressure/POWER LEVEL SPECTRUM (dB) Overall level Lw dB(A)125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 83 82 82 83 80 76 71 8790 V 83 82 82 83 80 76 71 87100 V 83 82 82 83 80 76 71 87120 V 83 84 82 83 80 77 71 87150 V 86 88 83 83 80 74 70 88180 V 83 83 82 83 79 76 71 87200 V 84 83 82 83 80 78 72 87240 V 85 87 84 83 82 81 74 89300 V 91 93 84 83 82 80 74 90350 V 87 87 87 86 84 83 77 91400 V 87 87 87 86 85 83 77 92500 V 87 87 87 86 85 83 77 92540 V 82 86 86 82 78 76 72 87600 V 82 86 87 82 78 75 72 88700 V 87 89 87 84 81 78 74 89
22 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
ILD – ILDC – ILDH REVERSIBLE HEAT PUMPS Sound levels, XTRAFAN versionn Unit sound levels, ductless fan(s) with overboost
n Unit sound levels, ducted fan(s) with NOMINAL or MAXIMUM operating pressure
AQUACIAT2 OVERBOOST/POWER LEVEL SPECTRUM (dB) Overall level Lw dB(A)125 Hz 250 Hz 500 hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 77 77 77 79 78 76 69 8490 V 77 77 77 79 78 76 69 84100 V 77 77 77 79 78 76 69 84120 V 76 81 78 79 78 77 69 84150 V 86 89 82 79 77 73 68 86180 V 74 79 79 79 77 77 70 84200 V 80 79 79 80 79 79 71 86240 V 84 87 84 83 82 81 73 89300 V 92 95 84 83 82 80 72 91350 V 85 82 87 86 85 83 74 91400 V 85 82 87 86 85 83 75 91500 V 85 82 87 87 85 83 76 92540 V 75 81 85 79 77 78 74 86600 V 76 83 87 80 77 78 74 87700 V 85 83 84 81 80 80 76 88
AQUACIAT2 NOMINAL static pressure/POWER LEVEL SPECTRUM (dB) Overall level Lw dB(A)125 Hz 250 Hz 500 hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 79 78 78 80 78 76 70 8590 V 79 78 78 80 78 76 70 85100 V 79 78 78 80 78 76 70 85120 V 78 82 79 80 78 77 70 85150 V 86 89 82 80 78 74 70 86180 V 77 80 80 80 78 77 71 85200 V 81 80 79 81 80 79 72 86240 V 86 87 83 82 81 82 76 89300 V 93 95 84 82 81 81 75 90350 V 87 85 87 85 84 84 78 91400 V 87 85 87 85 84 84 78 91500 V 87 84 86 85 85 85 78 92540 V 79 84 86 81 78 77 74 87600 V 80 85 87 81 79 76 74 88700 V 86 86 85 83 82 79 76 89
AQUACIAT2 MAXIMUM static pressure/POWER LEVEL SPECTRUM (dB) Overall level Lw dB(A)125 Hz 250 Hz 500 hz 1000 Hz 2000 Hz 4000 Hz 8000 Hz
80 V 85 84 84 85 82 78 73 8990 V 85 84 84 85 82 78 73 89100 V 85 84 84 85 82 78 73 89120 V 85 86 84 85 82 79 73 89150 V 88 90 85 85 82 76 72 90180 V 85 85 84 85 81 78 73 89200 V 86 85 84 85 82 80 74 89240 V 87 89 86 85 84 83 76 91300 V 93 95 86 85 84 82 76 92350 V 89 89 89 88 86 85 79 93400 V 89 89 89 88 87 85 79 94500 V 89 89 89 88 87 85 79 94540 V 84 88 88 84 80 78 74 89600 V 84 88 89 84 80 77 74 90700 V 89 91 89 86 83 80 76 91
23
AQU
ACIA
T2EV
OLU
TIO
N
HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
cooling capacitiesCOOLING ONLY units
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power input Hc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
R4
10
AH
IGH
PE
RF
OR
MA
NC
E -
HP
LDLDCLDH
Wateroutlet temperature at evaporator
°C
CONDENSER AIR INLET TEMPERATURE (°C)20 25 30 35 40 46
Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW kW kW
80V
Glycol/water mix
-12 11.6 4.6 11.0 5.0 10.3 5.5 9.6 6.0 8.9 6.6-10 12.3 4.7 11.7 5.0 11.0 5.5 10.4 6.0 9.6 6.6-8 13.3 4.7 12.7 5.1 12.0 5.5 11.3 6.1 10.6 6.7-4 15.6 4.8 14.8 5.2 14.1 5.6 13.2 6.2 12.3 6.80 18.0 4.9 17.2 5.3 16.3 5.7 15.4 6.3 14.4 6.9 13.0 7.8
Pure water
5 22.6 5.1 21.5 5.5 20.5 6.0 19.3 6.5 18.1 7.1 16.6 8.0
7 24.1 5.2 23.0 5.6 21.9 6.1 20.7 6.6 19.4 7.2 17.7 8.1
12 28.1 5.4 26.8 5.8 25.5 6.3 24.1 6.8 22.7 7.4 20.8 8.3
15 30.8 5.6 29.4 6.0 27.9 6.5 26.4 7.0 24.8 7.6 22.8 8.4
18 33.6 5.8 32.0 6.2 30.5 6.6 28.8 7.2 27.1 7.8 24.9 8.6
90V
Glycol/water mix
-12 13.4 5.2 12.7 5.6 11.7 6.2 10.8 6.8 9.8 7.5
-10 14.2 5.2 13.5 5.7 12.6 6.2 11.7 6.9 10.7 7.5
-8 15.4 5.3 14.6 5.7 13.8 6.3 12.9 6.9 11.8 7.6
-4 17.9 5.4 17.1 5.9 16.1 6.4 15.1 7.0 14.0 7.7
0 20.8 5.5 19.9 6.0 18.8 6.6 17.7 7.2 16.5 7.8 14.8 8.8
Pure water
5 25.8 5.8 24.6 6.3 23.4 6.8 22.1 7.5 20.7 8.2 18.9 9.1
7 27.6 5.9 26.3 6.4 25.0 6.9 23.6 7.6 22.0 8.2 20.2 9.2
12 32.1 6.1 30.7 6.6 29.2 7.2 27.5 7.8 25.8 8.5 23.7 9.4
15 35.2 6.2 33.6 6.8 31.9 7.3 30.1 8.0 28.3 8.7 26.0 9.6
18 38.4 6.4 36.6 6.9 34.8 7.5 32.9 8.2 30.9 8.9 28.4 9.8
100V
Glycol/water mix
-12 15.9 5.7 14.8 6.3 13.6 7.0 12.5 7.8 11.3 8.6
-10 17.3 5.7 16.0 6.3 15.0 7.0 13.9 7.8 12.6 8.7
-8 18.5 5.8 17.4 6.4 16.3 7.1 15.1 7.9 13.8 8.7
-4 21.5 5.9 20.4 6.5 19.1 7.2 17.7 8.0 16.3 8.9
0 24.8 6.1 23.6 6.7 22.2 7.4 20.8 8.2 19.3 9.0 17.4 10.2
Pure water
5 30.3 6.4 28.9 7.0 27.4 7.7 25.8 8.4 24.0 9.3 21.8 10.5
7 32.3 6.5 30.8 7.1 29.2 7.8 27.5 8.6 25.7 9.4 23.4 10.6
12 37.6 6.8 35.9 7.4 34.1 8.1 32.1 8.8 30.0 9.7 27.5 10.8
15 41.0 7.0 39.2 7.6 37.2 8.3 35.1 9.0 32.9 9.9 30.1 11.0
18 44.5 7.2 42.6 7.8 40.5 8.5 38.2 9.3 35.9 10.1 32.9 11.2
120V
Glycol/water mix
-12 17.8 6.5 16.6 7.2 15.3 7.9 14.1 8.6 12.5 9.6
-10 19.1 6.6 18.0 7.2 16.8 7.9 15.5 8.7 13.9 9.7
-8 20.7 6.6 19.6 7.3 18.3 8.0 16.9 8.9 15.4 9.8
-4 24.1 6.8 22.9 7.5 21.5 8.3 20.0 9.1 18.3 10.0
0 27.8 7.0 26.4 7.7 24.9 8.5 23.2 9.3 21.4 10.3 19.3 11.5
Pure water
5 34.2 7.4 32.5 8.1 30.7 8.8 28.8 9.7 26.7 10.7 24.3 12.0
7 36.3 7.5 34.6 8.2 32.7 9.0 30.7 9.9 28.5 10.9 25.9 12.2
12 42.3 7.9 40.2 8.6 38.0 9.4 35.7 10.2 33.3 11.2 30.4 12.6
15 46.2 8.1 43.9 8.8 41.5 9.6 39.0 10.5 36.4 11.5 33.2 12.8
18 50.2 8.4 47.7 9.1 45.1 9.9 42.4 10.8 39.6 11.8 36.2 13.1
150V
Glycol/water mix
-12 22.5 8.7 21.2 9.5 20.0 10.4 18.7 11.5 17.1 12.6
-10 24.3 8.9 23.1 9.7 21.8 10.6 20.3 11.6 18.8 12.8
-8 26.3 9.1 25.0 9.8 23.6 10.7 22.1 11.8 20.5 13.0
-4 30.5 9.4 29.1 10.2 27.5 11.1 25.8 12.2 24.0 13.3
0 35.1 9.8 33.4 10.7 31.6 11.6 29.7 12.6 27.6 13.7 24.9 15.4
Pure water
5 42.8 10.5 40.8 11.4 38.5 12.4 36.2 13.4 33.9 14.5 30.9 15.9
7 45.5 10.7 43.4 11.6 41.0 12.6 38.5 13.6 36.0 14.7 32.9 16.2
12 52.8 11.3 50.2 12.3 47.4 13.3 44.6 14.3 41.7 15.5 38.2 16.9
15 57.5 11.7 54.4 12.7 51.5 13.7 48.4 14.8 45.3 15.9 41.7 17.3
18 62.2 12.1 59.4 13.1 55.8 14.2 52.5 15.3 49.1 16.4 45.2 17.8
180V
Glycol/water mix
-12 26.3 9.6 24.9 10.6 23.3 11.7 21.5 12.9 19.4 14.3
-10 28.5 9.7 27.1 10.7 25.4 11.8 23.5 13.0 21.5 14.4
-8 30.8 9.8 29.3 10.8 27.5 11.9 25.7 13.1 23.6 14.5
-4 35.7 10.1 34.2 11.1 32.3 12.1 30.2 13.4 27.9 14.8
0 41.2 10.3 39.5 11.3 37.4 12.4 35.1 13.7 32.6 15.1 29.5 17.0
Pure water
5 51.0 10.9 48.7 11.9 46.2 13.0 43.6 14.3 40.8 15.7 37.3 17.5
7 54.3 11.1 51.9 12.1 49.3 13.2 46.5 14.5 43.6 15.9 39.9 17.7
12 63.3 11.5 60.5 12.6 57.4 13.8 54.2 15.0 50.9 16.4 46.8 18.3
15 69.1 11.9 66.0 12.9 62.7 14.1 59.2 15.4 55.6 16.8 51.3 18.6
18 75.2 12.2 71.8 13.3 68.2 14.5 64.5 15.8 60.6 17.2 55.9 19.0
24 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power input Hc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
cooling capacitiesCOOLING ONLY units
R4
10
AH
IGH
PE
RF
OR
MA
NC
E -
HP
LDLDCLDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporator water outlet
temperature °C
20 25 30 35 40 46Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW kW kW
200V
Glycol/water mix
-12 30.5 11.0 28.9 12.3 26.9 13.6 24.8 15.1 22.4 16.8-10 33.5 11.2 31.5 12.4 29.3 13.8 27.1 15.3 24.7 17.0-8 36.3 11.3 34.2 12.6 31.9 14.0 29.6 15.5 27.2 17.2-4 42.0 11.7 39.8 13.0 37.4 14.4 34.8 15.9 32.1 17.60 48.3 12.1 46.0 13.4 43.3 14.8 40.4 16.3 37.4 18.1
Pure water
5 59.5 12.8 56.7 14.1 53.5 15.5 50.2 17.1 46.8 18.8 42.6 21.17 63.5 13.1 60.4 14.4 57.0 15.8 53.6 17.4 49.9 19.1 45.5 21.4
12 73.6 13.9 70.1 15.2 66.3 16.6 62.3 18.2 58.3 19.9 53.3 22.115 80.1 14.4 76.2 15.7 72.2 17.1 67.9 18.7 63.6 20.4 58.3 22.618 87.0 15.0 82.8 16.3 78.4 17.7 73.8 19.3 69.1 20.9 63.5 23.1
240V
Glycol/water mix
-12 35.3 13.1 33.1 14.4 30.8 15.8 28.3 17.4 25.4 19.1-10 38.1 13.2 36.1 14.6 33.7 16.0 31.1 17.6 28.1 19.4-8 41.3 13.4 39.1 14.8 36.5 16.2 33.8 17.9 30.9 19.7-4 47.4 13.8 45.6 15.2 42.7 16.8 39.8 18.4 36.5 20.20 54.8 14.1 52.2 15.6 49.4 17.2 46.1 18.9 42.9 20.8 38.1 23.3
Pure water
5 67.3 15.0 64.2 16.4 60.6 18.0 56.8 19.8 52.8 21.7 47.9 24.37 71.8 15.2 68.3 16.7 64.5 18.3 60.5 20.1 56.3 22.1 51.2 24.7
12 83.3 16.0 79.3 17.5 74.8 19.1 70.3 20.9 65.5 22.9 59.9 25.515 90.8 16.6 86.3 18.0 81.4 19.6 76.5 21.5 71.4 23.5 65.3 26.018 98.7 17.2 93.7 18.6 88.2 20.3 83.0 22.1 77.6 24.1 71.1 26.6
300V
Glycol/water mix
-12 45.0 17.4 42.5 18.9 40.1 20.7 37.4 22.8 34.4 25.2-10 48.6 17.8 46.1 19.3 43.5 21.1 40.7 23.2 37.6 25.6-8 52.4 18.2 49.9 19.8 47.0 21.5 44.1 23.6 40.9 26.0-4 60.7 19.0 57.8 20.7 54.6 22.5 51.2 24.5 47.8 26.80 69.7 19.9 66.3 21.6 62.8 23.5 58.9 25.5 54.9 27.8 49.9 30.7
Pure water
5 84.5 21.4 80.7 23.2 76.2 25.1 71.6 27.2 67.0 29.4 61.3 32.27 90.1 21.9 85.6 23.8 80.9 25.7 76.0 27.8 71.2 30.0 65.1 32.8
12 104.1 23.3 98.8 25.3 93.3 27.3 87.8 29.4 82.3 31.5 75.5 34.215 113.1 24.2 107.2 26.2 101.3 28.3 95.3 30.4 89.2 32.5 82.2 35.218 122.2 25.2 116.0 27.2 109.5 29.3 103.0 31.4 96.7 33.6 89.4 36.0
350V
Glycol/water mix
-12 51.6 20.4 48.9 22.0 46.2 23.9 43.3 26.1 40.3 28.7-10 56.1 20.6 53.3 22.3 50.4 24.1 47.4 26.3 44.2 28.9-8 60.8 20.9 57.9 22.6 54.8 24.4 51.6 26.6 48.2 29.1-4 70.9 21.5 67.7 23.2 64.1 25.1 60.5 27.3 56.7 29.8 51.9 33.30 82.1 22.1 78.4 23.9 74.3 25.9 70.2 28.0 65.8 30.5 60.4 34.0
Pure water
5 101.2 23.1 97.1 25.0 91.7 27.0 86.6 29.3 81.3 31.9 74.8 35.37 108.2 23.4 102.9 25.4 97.9 27.5 92.4 29.8 86.9 32.3 79.9 35.8
12 126.3 24.4 120.6 26.5 114.3 28.7 108.0 31.0 101.5 33.6 93.5 37.015 138.1 25.0 131.7 27.2 125.1 29.4 118.0 31.8 110.9 34.5 102.4 37.918 150.7 25.7 143.5 27.9 136.2 30.2 128.6 32.7 121.0 35.4 111.8 38.8
400 V
Glycol/water mix
-12 57.0 23.0 54.5 25.0 51.6 27.2 48.5 29.8 45.1 32.7-10 62.1 23.4 59.2 25.4 56.1 27.6 52.9 30.2 49.4 33.1-8 67.2 23.8 64.1 25.8 60.9 28.0 57.4 30.6 53.6 33.5-4 78.3 24.5 74.8 26.6 70.8 29.0 66.9 31.5 62.7 34.40 90.2 25.3 86.4 27.5 81.9 29.8 77.3 32.4 72.6 35.3 66.5 39.1
Pure water
5 110.9 26.6 106.0 28.9 100.6 31.3 95.0 34.0 89.2 36.9 81.9 40.77 118.3 27.1 113.0 29.4 107.3 31.9 101.3 34.6 95.0 37.5 87.3 41.2
12 137.6 28.3 131.8 30.8 124.9 33.3 117.9 36.0 110.7 39.0 101.9 42.715 150.7 29.1 143.6 31.6 136.2 34.2 128.6 37.0 120.9 39.9 111.4 43.718 163.9 30.0 156.4 32.6 148.2 35.2 140.0 38.0 131.4 41.0 121.3 44.7
500V
Glycol/water mix
-12 72.1 28.0 68.7 30.7 65.0 33.5 61.2 36.5 56.8 40.0-10 78.6 28.5 74.4 31.1 70.4 33.9 66.2 37.1 61.9 40.7-8 84.2 28.9 80.2 31.6 76.0 34.5 71.6 37.7 67.3 41.2-4 97.6 29.8 93.1 32.7 88.5 35.6 83.4 38.8 77.9 42.40 112.8 30.9 107.4 33.7 101.7 36.7 95.8 39.9 89.9 43.4 82.4 48.1
Pure water
5 138.3 32.9 132.1 35.7 125.5 38.7 118.6 42.1 111.3 45.7 102.5 50.47 147.3 33.6 140.6 36.4 133.5 39.4 126.2 42.8 118.5 46.4 109.2 51.1
12 171.0 35.4 163.2 38.2 155.0 41.3 146.4 44.7 137.7 48.4 127.1 53.115 186.2 36.5 177.7 39.4 168.9 42.6 159.5 46.0 150.1 49.6 138.6 54.218 202.3 37.8 193.0 40.7 183.3 43.9 173.3 47.3 163.0 50.9 150.9 55.5
540V
Glycol/water mix
-12 80.7 29.8 77.3 32.6 72.8 35.8 67.3 39.5 61.1 43.7-10 88.8 30.2 84.5 33.1 79.5 36.2 73.8 39.9 67.6 44.1-8 96.0 30.7 91.5 33.5 86.2 36.6 80.4 40.3 74.0 44.4-4 110.6 31.7 105.7 34.6 100.2 37.8 94.0 41.4 87.3 45.40 126.7 32.7 121.3 35.7 115.0 39.0 108.3 42.7 101.0 46.7 91.4 52.4
Pure water
5 153.5 34.5 148.6 37.8 141.2 41.2 133.2 44.9 124.6 49.0 113.9 54.47 165.3 35.3 158.1 38.5 150.0 41.9 141.7 45.7 132.6 49.8 121.4 55.2
12 191.5 37.2 182.9 40.5 173.8 44.0 164.1 47.8 154.2 51.9 141.6 57.315 208.3 38.3 199.0 41.7 188.9 45.3 178.5 49.2 167.8 53.3 154.6 58.618 225.9 39.7 215.8 43.1 205.0 46.8 193.8 50.6 182.2 54.7 168.2 60.0
25
AQU
ACIA
T2EV
OLU
TIO
N
HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
cooling capacitiesCOOLING ONLY units
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power input Hc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
R4
10
AH
IGH
PE
RF
OR
MA
NC
E -
HP
LDLDCLDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporatorwater outlet
temperature °C
20 25 30 35 40 46Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW kW kW
600V
Glycol/watermix
-12 91.6 34.0 86.9 36.9 81.5 40.2 76.0 44.1 69.9 48.9
-10 98.2 34.6 93.4 37.5 88.1 40.9 82.3 44.8 76.3 49.4
-8 106.5 35.3 100.7 38.2 95.1 41.6 89.2 45.5 82.8 50.0
-4 121.6 36.6 116.5 39.8 110.2 43.2 103.9 47.1 96.6 51.5
0 139.7 38.2 133.8 41.5 126.7 45.0 119.2 48.9 111.1 53.3
Pure water
5 170.4 40.7 162.8 44.3 154.6 48.0 145.7 52.0 136.6 56.2 125.3 61.9
7 181.2 41.6 173.0 45.2 164.1 49.0 154.9 53.1 145.4 57.2 133.4 62.9
12 209.4 43.8 199.7 47.8 189.6 51.7 178.9 55.9 168.0 60.2 154.7 65.5
15 227.6 45.3 217.0 49.4 205.5 53.5 194.3 57.6 182.6 61.9 168.5 67.2
18 246.1 46.7 234.8 51.0 222.8 55.2 210.6 59.5 198.0 63.8 183.1 69.1
700V
Glycol/water mix
-12 99.6 39.4 94.2 42.7 89.0 46.6 83.5 51.2 77.0 56.3
-10 107.4 40.1 102.4 43.5 96.7 47.5 90.7 52.0 84.5 57.2
-8 116.0 40.8 111.1 44.4 104.7 48.4 98.3 52.9 91.6 58.1
-4 134.1 42.5 128.3 46.2 121.8 50.3 114.6 54.9 106.6 60.0
0 154.5 44.4 148.1 48.3 140.0 52.4 131.4 57.0 123.3 62.3 112.1 69.6
Pure water
5 190.8 47.9 180.6 51.7 171.0 56.1 161.0 61.0 151.1 66.1 139.0 73.0
7 201.7 48.9 191.8 53.0 181.6 57.4 171.2 62.2 160.7 67.5 148.0 74.3
12 233.0 52.1 221.5 56.4 209.7 60.9 197.9 65.8 186.1 71.1 172.1 77.8
15 252.8 54.2 240.4 58.6 227.7 63.2 215.1 68.2 202.3 73.4 187.6 80.1
18 273.6 56.5 260.1 61.0 246.6 65.7 233.0 70.7 219.6 75.9 204.3 82.5
26 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
cooling capacities
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power input Hc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
COOLING ONLY units
R4
10
AL
OW
NO
ISE
- L
N
LDLDCLDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporator water outlet
temperature °C
20 25 30 35 40 46Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW kW kW
80V
Glycol/water mix
-12 11.6 4.4 10.9 4.8 10.3 5.2 9.6 5.8 8.8 6.4
-10 12.2 4.4 11.6 4.8 11.0 5.3 10.3 5.8 9.6 6.4
-8 13.2 4.5 12.6 4.8 11.9 5.3 11.2 5.9 10.5 6.5
-4 15.4 4.5 14.7 4.9 13.9 5.4 13.1 5.9 12.2 6.6
0 17.8 4.7 17.0 5.1 16.2 5.5 15.3 6.1 14.2 6.7 13.0 7.6
Pure water
5 22.3 4.9 21.3 5.3 20.2 5.8 19.1 6.3 17.9 7.0 16.3 7.8
7 23.8 5.0 22.7 5.4 21.5 5.9 20.3 6.4 19.1 7.0 17.4 7.9
12 27.8 5.2 26.5 5.7 25.1 6.2 23.7 6.7 22.3 7.3 20.4 8.2
15 30.3 5.4 28.9 5.9 27.5 6.3 25.9 6.9 24.3 7.5 22.3 8.3
18 33.0 5.6 31.5 6.1 29.9 6.5 28.2 7.1 26.7 7.7 24.4 8.5
90V
Glycol/water mix
-12 13.0 4.9 12.2 5.4 11.4 6.0 10.5 6.6 9.4 7.3
-10 14.1 5.0 13.4 5.5 12.5 6.0 11.6 6.6 10.5 7.4
-8 15.3 5.0 14.5 5.5 13.7 6.1 12.7 6.7 11.7 7.5
-4 17.8 5.2 16.9 5.7 16.0 6.2 14.9 6.9 13.8 7.6
0 20.6 5.3 19.6 5.8 18.6 6.4 17.3 7.0 16.1 7.7 14.6 8.7
Pure water
5 25.5 5.6 24.4 6.1 23.1 6.7 21.7 7.3 20.3 8.0 18.5 9.0
7 27.1 5.7 25.9 6.2 24.6 6.8 23.2 7.4 21.7 8.1 19.8 9.1
12 31.7 5.9 30.2 6.5 28.6 7.1 27.1 7.7 25.3 8.4 23.2 9.4
15 34.6 6.1 33.0 6.7 31.3 7.2 29.6 7.9 27.7 8.6 25.4 9.6
18 37.7 6.3 35.9 6.9 34.1 7.4 32.1 8.1 30.2 8.8 27.8 9.8
100V
Glycol/water mix
-12 15.7 5.5 14.6 6.1 13.5 6.8 12.3 7.6 11.0 8.3
-10 16.9 5.6 16.0 6.2 14.8 6.9 13.7 7.6 12.5 8.4
-8 18.3 5.6 17.3 6.3 16.1 6.9 14.9 7.7 13.6 8.6
-4 21.3 5.8 20.1 6.4 18.8 7.1 17.6 7.9 16.2 8.7
0 24.5 6.0 23.3 6.6 21.9 7.3 20.5 8.1 18.9 9.0 17.1 10.1
Pure water
5 29.9 6.3 28.5 6.9 27.0 7.6 25.3 8.4 23.6 9.3 21.5 10.4
7 31.9 6.4 30.4 7.0 28.7 7.7 27.0 8.5 25.2 9.4 23.0 10.5
12 37.0 6.7 35.3 7.3 33.4 8.0 31.5 8.8 29.4 9.7 26.9 10.8
15 40.3 6.9 38.5 7.6 36.5 8.3 34.4 9.1 32.2 9.9 29.5 11.0
18 43.8 7.2 41.8 7.8 39.7 8.5 37.4 9.3 35.0 10.1 32.2 11.2
120V
Glycol/water mix
-12 17.6 6.3 16.5 7.0 15.2 7.7 14.0 8.5 12.2 9.4
-10 18.9 6.4 17.8 7.1 16.6 7.8 15.3 8.6 13.8 9.6
-8 20.6 6.5 19.3 7.2 18.1 7.9 16.6 8.8 14.9 9.6
-4 23.8 6.7 22.6 7.4 21.2 8.2 19.6 9.0 18.1 10.0
0 27.4 6.9 26.0 7.6 24.5 8.4 22.9 9.3 21.1 10.3
Pure water
5 33.6 7.3 31.9 8.0 30.1 8.8 28.2 9.7 26.2 10.7 23.8 12.0
7 35.8 7.5 34.0 8.2 32.1 9.0 30.0 9.9 27.9 10.9 25.4 12.2
12 41.5 7.9 39.4 8.6 37.2 9.4 35.0 10.3 32.5 11.3 29.7 12.6
15 45.2 8.1 42.9 8.9 40.4 9.7 38.0 10.6 35.5 11.6 32.4 12.9
18 49.1 8.4 46.6 9.2 43.9 10.0 41.3 10.9 38.5 11.9 35.2 13.2
150V
Glycol/water mix
-12 22.3 8.6 21.0 9.4 19.8 10.3 18.4 11.4 16.9 12.6
-10 24.1 8.8 22.8 9.6 21.5 10.5 20.0 11.6 18.4 12.8
-8 26.0 9.0 24.7 9.8 23.3 10.7 21.7 11.8 20.1 13.0
-4 30.1 9.4 28.6 10.2 27.0 11.2 25.3 12.2 23.5 13.3
0 34.5 9.8 32.9 10.7 31.0 11.6 29.1 12.6 27.1 13.8 24.6 15.3
Pure water
5 42.0 10.5 39.9 11.5 37.7 12.4 35.4 13.5 33.0 14.6 30.2 16.1
7 44.7 10.8 42.4 11.7 40.1 12.7 37.6 13.8 35.1 14.9 32.1 16.3
12 51.5 11.5 48.9 12.5 46.1 13.5 43.3 14.6 40.5 15.7 37.3 17.0
15 55.9 11.9 53.0 13.0 50.0 14.0 47.0 15.1 44.0 16.1 40.5 17.418 60.5 12.4 57.3 13.5 53.9 14.6 50.8 15.6 47.6 16.7 44.0 17.7
180V
Glycol/water mix
-12 25.3 9.5 24.6 10.5 22.9 11.6 21.1 12.9 19.1 14.3
-10 28.2 9.7 26.7 10.6 25.0 11.7 23.2 13.0 21.1 14.4
-8 30.5 9.8 29.0 10.8 27.2 11.9 25.2 13.1 23.2 14.5
-4 35.3 10.1 33.7 11.1 31.8 12.2 29.7 13.4 27.4 14.8
0 40.6 10.4 38.8 11.4 36.7 12.6 34.4 13.8 32.0 15.2
Pure water
5 50.0 11.0 47.8 12.0 45.3 13.2 42.6 14.5 39.9 15.9 36.5 17.8
7 53.3 11.2 50.9 12.3 48.2 13.4 45.4 14.7 42.5 16.1 38.9 18.0
12 62.0 11.8 59.1 12.9 56.0 14.1 52.8 15.4 49.6 16.7 45.6 18.6
15 67.5 12.2 64.3 13.3 61.0 14.5 57.5 15.8 54.1 17.2 49.8 19.0
18 73.3 12.6 69.8 13.7 66.2 14.9 62.5 16.2 58.7 17.7 54.2 19.4
27
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
cooling capacitiesCOOLING ONLY units
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power inputHc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
R4
10
AL
OW
NO
ISE
- L
N
LDLDCLDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporatorwater outlet
temperature °C
20 25 30 35 40 46Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW kW kW
200V
Glycol/water mix
-12 30.6 11.1 28.3 12.3 26.4 13.7 24.3 15.2 21.8 16.8-10 32.9 11.2 31.0 12.5 28.8 13.9 26.6 15.4 24.2 17.1-8 35.6 11.4 33.6 12.7 31.3 14.1 29.0 15.6 26.6 17.3-4 41.1 11.8 39.1 13.1 36.6 14.6 34.0 16.1 31.4 17.80 47.2 12.3 45.0 13.6 42.3 15.0 39.5 16.6 36.5 18.3
Pure water
5 58.2 13.1 55.3 14.5 52.1 15.9 48.9 17.6 45.5 19.3 41.4 21.57 61.8 13.4 58.8 14.8 55.4 16.3 52.0 17.9 48.5 19.6 44.2 21.8
12 71.6 14.3 68.0 15.7 64.2 17.2 60.3 18.7 56.4 20.5 51.6 22.615 77.7 14.9 73.9 16.3 69.8 17.7 65.6 19.3 61.4 21.0 56.3 23.218 84.1 15.6 80.0 16.9 75.6 18.4 71.1 20.0 66.6 21.6 61.4 23.7
240V
Glycol/water mix
-12 34.9 12.9 32.7 14.2 30.3 15.6 27.8 17.2 25.0 18.9-10 37.6 13.1 35.5 14.4 33.1 15.9 30.4 17.5 27.4 19.2-8 40.6 13.3 38.5 14.6 36.1 16.1 33.3 17.8 30.1 19.5-4 46.8 13.7 45.0 15.0 42.0 16.6 39.0 18.4 35.8 20.20 54.0 14.2 51.5 15.6 48.3 17.2 45.0 19.0 41.3 20.9
Pure water
5 65.9 15.0 62.8 16.5 59.2 18.2 55.4 20.0 51.5 21.9 46.6 24.57 70.3 15.4 66.7 16.8 62.9 18.5 58.9 20.3 54.9 22.3 49.8 24.9
12 81.4 16.2 77.2 17.7 72.7 19.4 68.3 21.3 63.6 23.3 58.0 25.815 88.4 16.8 83.8 18.3 79.0 20.0 74.2 21.9 69.2 23.9 63.3 26.418 95.8 17.5 90.8 19.0 85.6 20.7 80.4 22.6 75.1 24.6 68.9 27.1
300V
Glycol/water mix
-12 44.4 17.3 41.8 18.9 39.3 20.8 36.7 22.9 33.7 25.3-10 47.8 17.7 45.4 19.4 42.7 21.2 39.9 23.3 36.8 25.7-8 51.6 18.2 49.0 19.8 46.3 21.6 43.2 23.8 40.1 26.2-4 59.5 19.1 56.7 20.8 53.4 22.7 50.1 24.8 46.5 27.10 68.2 20.1 64.8 21.9 61.2 23.8 57.4 25.8 53.4 28.1 48.6 31.1
Pure water
5 82.5 21.8 78.6 23.7 74.0 25.6 69.5 27.7 65.0 29.9 59.4 32.77 87.7 22.4 83.2 24.3 78.5 26.2 73.7 28.3 69.0 30.5 63.2 33.3
12 100.8 24.0 95.6 26.0 90.3 28.0 84.8 30.0 79.4 32.2 73.0 34.615 109.2 25.1 103.5 27.0 97.6 29.1 91.8 31.1 86.0 33.2 81.6 35.518 117.8 26.1 111.6 28.2 105.3 30.2 99.1 32.2 93.1 34.3 88.0 36.0
350V
Glycol/water mix
-12 50.1 19.4 48.5 21.2 45.8 23.1 42.9 25.3 39.9 27.9-10 55.5 19.9 52.6 21.5 49.9 23.4 46.9 25.6 43.7 28.2-8 60.1 20.2 57.2 21.9 54.1 23.8 50.9 26.0 47.7 28.5-4 70.0 20.8 66.7 22.6 63.2 24.5 59.6 26.7 55.8 29.3 51.1 32.80 80.7 21.5 77.1 23.4 73.1 25.3 69.0 27.6 64.7 30.1 59.3 33.6
Pure water
5 99.2 22.8 94.8 24.7 89.9 26.8 84.8 29.1 79.6 31.6 73.3 35.17 105.9 23.2 101.0 25.1 95.8 27.3 90.4 29.6 84.8 32.2 78.0 35.7
12 123.4 24.3 117.6 26.4 111.5 28.6 105.2 31.0 98.9 33.6 91.2 37.115 134.6 25.1 128.3 27.2 121.6 29.5 114.7 31.9 107.9 34.6 99.7 38.018 146.5 25.9 139.6 28.1 132.1 30.4 124.8 32.9 117.4 35.6 108.7 39.0
400V
Glycol/water mix
-12 56.4 22.4 53.8 24.4 51.0 26.7 47.9 29.2 44.6 32.2-10 61.4 22.8 58.5 24.8 55.4 27.1 52.1 29.7 48.6 32.6-8 66.4 23.3 63.3 25.3 59.9 27.6 56.6 30.2 52.8 33.1-4 77.1 24.1 73.6 26.2 69.8 28.5 65.8 31.1 61.6 34.00 88.7 25.0 84.9 27.2 80.4 29.6 75.8 32.2 71.1 35.1 65.1 39.0
Pure water
5 110.4 26.7 103.6 28.8 98.3 31.3 92.7 34.0 87.0 36.9 79.8 40.77 115.8 27.1 110.4 29.4 104.6 31.9 98.7 34.7 92.4 37.6 85.2 41.4
12 134.4 28.6 128.1 31.0 121.3 33.6 114.5 36.3 107.4 39.3 99.0 43.015 146.5 29.5 139.4 32.0 132.2 34.7 124.5 37.4 117.0 40.3 108.0 44.018 158.8 30.5 151.5 33.1 143.4 35.7 135.2 38.6 129.0 41.5 117.5 45.1
500V
Glycol/water mix
-12 70.7 27.8 67.9 30.3 64.3 33.1 60.1 36.4 55.3 40.1-10 77.3 28.3 73.6 30.9 69.4 33.8 65.2 36.9 61.0 40.7-8 85.1 29.0 79.5 31.5 74.9 34.4 70.5 37.5 65.8 41.1-4 95.5 29.8 91.7 32.6 86.6 35.5 81.7 38.8 76.5 42.60 109.9 31.1 105.1 33.8 99.5 36.8 94.5 40.3 87.3 43.9 82.4 48.3
Pure water
5 135.2 33.3 128.9 36.1 122.3 39.2 115.2 42.7 108.2 46.3 102.5 50.97 143.8 34.0 136.8 36.8 129.9 40.0 122.6 43.4 115.1 47.1 109.2 51.7
12 166.3 36.1 158.4 39.0 150.1 42.2 141.8 45.6 133.3 49.2 127.1 53.815 180.6 37.4 172.0 40.4 163.1 43.6 154.2 47.0 144.9 50.7 138.6 55.218 195.6 38.8 186.2 41.8 176.7 45.1 167.0 48.5 159.4 52.7 150.4 56.5
540V
Glycol/water mix
-12 80.6 29.3 77.0 32.2 72.1 35.3 66.6 39.0 61.5 43.3-10 87.5 29.8 83.1 32.8 78.3 35.9 72.8 39.5 66.7 43.7-8 94.7 30.5 90.0 33.4 84.7 36.5 79.1 40.2 72.9 44.2-4 108.8 31.6 104.0 34.6 98.3 37.9 91.7 41.5 85.5 45.60 124.6 32.9 119.0 36.0 112.6 39.3 105.8 43.0 98.7 47.1 91.4 52.5
Pure water
5 151.8 35.1 145.2 38.3 137.6 41.8 129.7 45.6 120.6 49.8 113.9 55.07 161.6 35.9 154.2 39.2 146.1 42.7 137.7 46.5 128.9 50.5 121.4 55.9
12 186.4 38.1 177.9 41.4 168.7 45.0 159.0 48.9 149.3 52.9 141.6 58.115 202.5 39.5 192.9 42.9 183.0 46.5 172.7 50.4 162.3 54.5 154.6 59.618 219.1 41.1 208.6 44.5 198.0 48.2 187.0 52.0 179.6 56.3 168.2 61.1
28 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
cooling capacitiesCOOLING ONLY units
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power inputHc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
R4
10
AL
OW
NO
ISE
- L
N
LDLDCLDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporator water outlet
temperature °C
20 25 30 35 40 46Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW kW kW
600V
Glycol/water mix
-12 89.9 33.7 84.9 36.7 79.6 40.3 74.4 44.2 69.9 48.8
-10 96.4 34.4 91.8 37.5 86.4 40.9 80.8 44.9 74.8 49.5
-8 103.7 35.2 98.9 38.3 93.4 41.7 87.4 45.8 81.0 50.3
-4 119.5 36.8 114.2 40.0 107.9 43.6 101.2 47.5 94.2 52.0
0 136.9 38.6 130.7 42.0 123.6 45.5 116.1 49.5 108.2 53.9
Pure water
5 166.0 41.5 158.6 45.2 150.2 49.0 141.6 52.9 132.7 57.2 124.7 62.7
7 176.6 42.6 168.0 46.4 159.2 50.1 150.1 54.1 140.8 58.3 133.3 63.9
12 203.1 45.4 193.3 49.2 183.3 53.2 172.8 57.2 162.3 61.4 154.5 66.7
15 220.1 47.2 209.5 51.1 198.5 55.1 187.4 59.2 176.0 63.4 168.6 68.5
18 237.8 49.0 226.4 53.1 214.5 57.1 202.4 61.3 193.8 65.8 183.1 70.4
700V
Glycol/water mix
-12 98.7 39.3 92.1 42.8 87.2 46.9 81.8 51.5 75.5 56.7
-10 107.7 40.2 100.6 43.8 94.9 47.9 88.9 52.5 82.6 57.7
-8 115.4 41.1 107.6 44.6 102.5 48.9 96.3 53.6 89.5 58.8
-4 131.3 43.0 125.9 46.9 118.8 51.0 111.4 55.7 104.0 60.9
0 150.7 45.2 144.2 49.2 136.2 53.5 127.9 58.2 119.4 63.3 112.1 70.4
Pure water
5 183.7 49.1 175.0 53.2 165.7 57.7 156.0 62.5 146.3 67.8 139.0 74.6
7 195.5 50.5 185.6 54.7 175.7 59.2 165.5 64.0 155.3 69.3 148.0 76.0
12 224.6 54.1 213.5 58.5 202.1 63.1 190.6 68.1 179.3 73.3 172.1 79.9
15 243.3 56.6 231.2 61.0 218.9 65.7 206.7 70.6 194.8 75.8 183.0 81.1
18 262.6 59.2 249.4 63.7 236.3 68.4 223.5 73.4 213.9 78.1 202.2 83.3
29
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
Degipac Defrosting systeM ilD-ilDc-ilDhDEGIPAC defrosting principleThis system, available as standard on CIAT CONNECT PLCs, allows an air-to-water heat pump coil to be defrosted at the most appropriate moment.By regularly scanning several reference parameters to assess the level of freezing, such as the fluid evaporation temperature and that of the outdoor air, DEGIPAC only triggers defrosting when it is deemed necessary, and precisely determines the time required to defrost the fins of the heat exchanger completely.Compared to a traditional defrosting cycle with a timer, DEGIPAC can offer on average a 5% improvement of the seasonal COP and halves the season's number of defrosting sequences.This improves the reliability of the heat pumps and ensures the frequency of the cycles is fully optimised, giving priority to cold and humid periods.
ManageMent of auXiliary heating DeVicesAn auxiliary heating system may be used in addition to a reversible AQUACIAT2 depending on the change in the outdoor temperature and the heating requirements in winter.Three functions are therefore possible in heating mode:- Thermodynamic heating alone (heat pump),- Thermodynamic heating with extra heaters,- Electric water heating with all heaters.These extra heaters can be supplied externally, or supplied by CIAT, such as the loop heater or the ME extra heater modules, up to a maximum limit of 4 power stages.
eXtra heater ManageMent boarD (80V to 700V)The extra heater management board is an option which allows a reversible AQUACIAT2 unit to manage 4 additional power stages in heating mode.Depending on the size or version of the units, this board is either a kit which is supplied separately or a factory fitted option made to order (please contact us).
15 kw loop heater (80V to 150V)For the 80V to 150V versions, reversible AQUACIAT2 units can be equipped with an optional 15 kW loop heater to be installed inside.
Nominal heating capacity 15 kW (5 kW + 10 kW)
Resistor composition (3 x 1.66 kW) + (6 x 1.66 kW)
Power supply 3ph~50Hz 400V + Earth
Maximum rated current * 24.0A
Control circuit voltage 1ph~50Hz 230V + Earth
Machine protection rating IP 44
Number of stages possible 2
kW power stages 5 + 10
Maximum temperature setpoint +60°C
Maximum water fl ow rate 4.0 m3/h
Maximum service pressure 7 bars
Water connections G 1"1/4
Dimensions HxLxD 252 x 631 x 155 mm
Weight (empty) 15 kg
* Warning: The current shown in the table above is to be added to the maximum nominal current of the ILDC-ILDH unit. This value is essential for calculating the sizing of the power supply cable for the "ILDC-ILDH+ME" assembly* max. concentration of monopropylene glycol = 40% MPG
Standard
Gai
n in
CO
P
06-F
eb.
13-F
eb.
20-F
eb.
27-F
eb.
06-M
arch
13-M
arch
20-M
arch
Boiler operating
Heat pump operating
Heat pump
+
boilerHeat pump
Heating season
(different values according to region)
Climate zone H1 (Lyon)
Days
5 26 66 112 21
Out. temp.
Losses from the building
Hea
ting
capa
city
in k
W
Boi
ler
only
30 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
15, 30, 45 or 60 kw eXtra heater MoDule (180V to 300V)General descriptionOn 180V to 300V versions, the CIAT extra heater module is a simple and economic way of providing safe additional heating on a water loop being heated, particularly in heat pump mode during very low outdoor temperatures.
This additional heating is especially designed for heating by heat pump, for the hotel and collective housing sectors, for example, or for some tertiary sector applications.
Technical characteristicsSpecially designed for AQUACIAT2 180V to 300VILDC and ILDH reversible units, the extra heater module is supplied separately as an option.
It is ready to be assembled and fitted on-site as an extension of the reversible unit's casing. This allows power to be supplied from a single power socket and ensures that it is visually in keeping with the location.
It is fully managed by the heat pump when operating in heating mode, thanks to the auxiliary electric unit management board (mandatory option) up to a maximum of 4 power stages.
Electrical characteristics
ME 15 ME 30 ME 45 ME 60Nominal heating capacity 15 kW 30 kW 45 kW 60 kW
kW power stages 5 + 10 10 + 20 15 + 30 20 + 40
Power supply 3-ph 50Hz 400V + Earth
Max. rated current * 24.0A 48.0A 72.0A 96.0A
Control circuit voltage 1-ph 50Hz 230V + Earth
Machine protection rating IP 44
Number of stages possible 2 4 4 4
Max. temperature setpoint +60°C
Max. water flow rate 4.0 m3/h 8.0 m3/h 12.0 m3/h 16.0 m3/h
Max. service pressure 4 bar
Water connections G 1"1/4 Male
Dimensions HxLxD 1671 x 681 x 1055 mm
Weight (empty) 145 kg 160 kg 175 kg 191 kg
Weight (loaded) 169 kg 182 kg 195 kg 208 kg
* Warning: The current shown in the table above is to be added to the maximum nominal current of the ILDC-ILDH unit. This value is essential for calculating the sizing of the power supply cable for the "ILDC-ILDH+ME" assembly.
Composition of the extra heater moduleFactory fitted with self-regulating frost protection, the extra heater module is supplied within a single-unit housing similar to that of the reversible unit, which allows it to be installed and used outside during adverse weather conditions.It is available with 4 electrical power ratings: 15 kW, 30 kW, 45 kW or 60 kW.n Equipment supplied as standard:- Safety switch, connection strip,- Switches, thermal-magnetic circuit breakers,- Electric loop heater(s),- Safety valve, automatic bleed device,- Flow bypass valves,- Electric frost protection with thermostat,- Painted casing for outdoor installation,- Electrical power cable (3 phase-400V-50Hz) between heater and ILDC-ILDH unit,- Auxiliary heater control cables,- Water pipe thermal insulation.
Note:- the Connect "extra heater board" option is required for controlling the electric power stages,- It is essential that a filter be fitted on the water inlet.
31
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
Hydraulic heat loss from ME module
Water flow rate m3/h
Pre
ssur
e dr
op (m
WC
)
Note: the pressure drop on the ME extra heater module must be added to that of the basic unit, ILD - ILDC - ILDH.
ILDC 180 to 300V models (without storage tank)Example of unit:- 180-300V ILDC standard basic unit- 45kW extra heater module (3 x 15kW)
ILDH 180 to 300V models (with storage tank)Example of unit:- 180-300V ILDC standard basic unit- HM 180-300 standard buffer tank module- 45kW extra heater module (3 x 15kW)
Note: these schematic diagrams are provided for information only and must not be construed as detailed execution diagrams.
EX
TR
A H
EAT
ER
ELE
CT
RIC
S B
OX
EX
TR
A H
EAT
ER
ELE
CT
RIC
S B
OX
32 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
cooling capacitiesREVERSIBLE units
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power inputHc: Gross acceptable heating capacity for temperature difference, based on operating limits
Glycol/water mix mandatoryCalculated fouling 0.00005 m2 °C/W
Standard conditions
R4
10
AH
IGH
PE
RF
OR
MA
NC
E -
HP
ILDILDCILDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporator water outlet
temperature °C
25 30 35 40 46
Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW
350V
Glycol/water mix
-10 52.9 23.6 50.0 25.7 46.9 28.1 43.3 30.8
-8 57.7 23.8 54.7 25.9 51.3 28.4 47.7 31.1
-4 68.0 24.3 64.4 26.5 60.6 29.0 56.6 31.8 51.4 35.6
0 79.2 25.0 75.0 27.2 70.7 29.7 66.2 32.6 60.5 36.3
Pure water
5 94.7 25.9 89.8 28.2 84.8 30.8 79.5 33.7 73.1 37.5
7 103.7 26.6 98.3 28.8 92.8 31.4 87.2 34.3 80.3 38.2
12 121.2 27.7 115.0 30.1 108.6 32.7 102.1 35.7 94.4 39.6
15 132.5 28.5 125.7 30.9 118.7 33.6 111.8 36.6 103.7 40.5
18 144.0 29.5 136.7 32.0 121.0 34.6 121.8 37.7
400V
Glycol/water mix
-10 59.6 26.4 56.3 28.9 52.7 31.6 48.3 34.7
-8 65.1 26.6 61.7 29.2 57.9 31.9 53.6 34.9
-4 76.9 27.2 73.0 29.8 68.7 32.6 64.1 35.7 57.8 39.7
0 89.3 27.9 84.9 30.5 80.2 33.4 75.1 36.5 68.3 40.6
Pure water
5 108.7 29.1 103.5 31.7 97.9 34.7 91.9 37.9 84.1 42.0
7 117.0 29.6 111.2 32.3 105.2 35.2 98.8 38.4 90.7 42.6
12 136.4 30.9 129.8 33.6 122.9 36.6 115.6 39.8 106.5 44.0
15 149.1 31.9 141.8 34.5 134.2 37.5 126.3 40.7 116.7 45.0
18 161.7 32.9 154.2 35.6 145.7 38.5 137.2 41.8
500V
Glycol/water mix
-10 73.3 32.6 69.1 35.7 64.3 39.1 58.8 42.8
-8 80.1 33.0 75.3 36.1 70.0 39.6 65.3 43.3
-4 94.4 33.8 89.2 37.0 84.5 40.5 78.1 44.4 70.1 49.5
0 109.5 34.9 104.1 38.1 98.1 41.7 91.3 45.6 83.3 50.7
Pure water
5 132.7 36.7 125.8 40.0 118.4 43.6 110.8 47.5 102.4 52.6
7 141.7 37.4 135.5 40.7 128.1 44.4 119.5 48.4 109.8 53.5
12 165.9 39.3 158.7 42.6 148.8 46.3 139.8 50.3 129.2 55.4
15 180.8 40.5 171.9 43.9 161.5 47.6 151.7 51.6 141.1 56.6
18 197.0 42.0 187.0 45.4 176.4 49.1 165.9 53.0
33
AQU
ACIA
T2EV
OLU
TIO
N
HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
cooling capacitiesREVERSIBLE units
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power inputHc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
R4
10
AH
IGH
PE
RF
OR
MA
NC
E -
HP
ILDILDCILDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporatorwater outlet
temperature °C
25 30 35 40 46Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW
540V
Glycol/water mix
-10 81.4 34.9 76.6 38.4 71.4 42.2 65.4 46.4
-8 89.6 35.2 83.5 38.7 78.1 42.5 72.0 46.8
-4 103.7 35.7 98.1 39.3 92.1 43.2 85.8 47.5 76.9 53.4
0 120.0 36.5 113.9 40.1 107.2 44.0 100.2 48.3 91.0 54.2
Pure water
5 145.3 37.8 138.2 41.5 130.4 45.5 122.2 49.9 111.9 55.7
7 155.9 38.5 148.2 42.1 139.9 46.1 131.3 50.6 120.4 56.3
12 181.4 40.1 172.6 43.8 163.2 47.8 153.4 52.2 141.3 58.0
15 198.0 41.3 188.3 44.9 178.2 48.9 167.7 53.3 154.9 59.1
18 206.9 44.5 196.3 48.2 184.9 52.1 173.8 56.4 160.6 61.8
600V
Glycol/water mix
-10 91.2 38.5 86.3 42.2 81.2 46.1 74.9 50.6
-8 99.2 39.0 94.1 42.7 88.6 46.7 82.3 51.1
-4 115.1 40.0 109.5 43.9 103.5 48.1 96.9 52.5 88.0 58.5
0 132.8 41.1 126.5 45.1 119.6 49.5 112.4 54.1 103.0 60.2
Pure water
5 160.5 42.9 153.1 47.2 144.9 51.6 136.1 56.6 125.3 62.8
7 172.1 43.7 164.0 47.9 155.3 52.5 146.0 57.4 134.6 63.8
12 200.2 45.8 190.5 50.1 180.4 54.7 170.0 59.7 157.4 66.1
15 218.3 47.3 207.6 51.5 196.7 56.1 185.4 61.1 172.1 67.5
18 237.4 48.8 225.7 52.9 213.9 57.5 202.2 62.5
700V
Glycol/water mix
-10 95.7 42.8 90.6 46.7 84.1 51.1
-8 105.1 43.6 99.5 47.6 93.6 52.1
-4 121.4 45.0 114.6 49.2 108.2 53.7 101.3 58.5
0 139.2 46.4 132.5 50.8 124.4 55.5 117.3 60.6 108.1 67.7
Pure water
5 171.2 49.3 162.3 53.7 152.9 58.7 145.1 64.1 132.9 71.1
7 181.8 50.2 172.1 54.7 163.1 59.5 152.1 65.0 139.4 72.1
10 195.3 51.5 185.4 56.0 174.5 61.0 164.7 66.5 150.7 73.8
12 210.1 52.8 199.6 57.4 187.8 62.4 175.8 67.9
18 246.1 56.4 231.5 61.0 220.4 66.4 208.5 72.0
34 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
cooling capacitiesREVERSIBLE units
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power inputHc: Gross acceptable heating capacity for temperature difference, based on operating limits
Glycol/water mix mandatoryCalculated fouling 0.00005 m2 °C/W
Standard conditions
R4
10
AL
OW
NO
ISE
- L
N
ILDILDCILDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporator water outlet
temperature °C
25 30 35 40 46Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW
80V
Glycol/water mix
-10 11.8 5.0 11.0 5.5 10.1 6.2 9.1 6.9
-8 12.9 5.1 11.9 5.6 11.0 6.3 10.1 7.0
-4 15.0 5.2 14.0 5.8 13.0 6.4 12.0 7.1
0 17.3 5.4 16.3 6.0 15.2 6.6 14.0 7.3 12.6 8.3
Pure water
5 20.9 5.7 19.7 6.3 18.4 6.9 17.1 7.6 15.5 8.6
7 22.4 5.8 21.1 6.4 19.8 7.0 18.4 7.7 16.7 8.7
12 25.9 6.1 24.5 6.7 23.0 7.3 21.4 8.0 19.6 9.0
15 28.2 6.3 26.6 6.9 25.1 7.5 23.5 8.3 21.4 9.2
18 30.5 6.5 28.7 7.1 27.2 7.7 25.6 8.5 23.2 9.4
90V
Glycol/water mix
-10 13.4 5.8 12.6 6.4 11.6 7.1 10.4 7.9
-8 14.6 5.9 13.7 6.5 12.7 7.2 11.5 8.0
-4 16.9 6.0 16.0 6.7 14.9 7.4 13.7 8.2
0 20.9 6.4 19.8 7.0 18.5 7.7 17.2 8.6 15.6 9.7
Pure water
5 23.5 6.6 22.2 7.3 20.8 8.0 19.4 8.8 17.7 9.9
7 25.0 6.8 23.8 7.4 22.3 8.2 20.8 9.0 19.0 10.0
12 28.9 7.2 27.3 7.9 25.7 8.6 24.2 9.4 22.3 10.4
15 31.3 7.5 29.6 8.2 27.9 8.9 26.2 9.7 24.3 10.7
18 33.7 7.8 31.9 8.5 30.1 9.2 28.2 10.0 26.3 11.0
100V
Glycol/water mix
-10 15.9 6.6 14.8 7.4 13.7 8.2 12.4 9.1
-8 17.2 6.7 16.1 7.5 14.9 8.3 13.7 9.2
-4 20.0 6.9 18.8 7.7 17.5 8.5 16.2 9.4 14.3 10.7
0 23.0 7.1 21.7 7.9 20.2 8.7 18.7 9.7 16.9 10.9
Pure water
5 27.8 7.5 26.2 8.2 24.5 9.1 22.8 10.1 20.7 11.3
7 29.6 7.6 28.0 8.4 26.2 9.3 24.4 10.2 22.1 11.4
12 34.3 8.0 32.4 8.8 30.4 9.7 28.4 10.6 26.0 11.8
15 37.2 8.3 35.2 9.1 33.0 10.0 30.9 10.9 28.3 12.1
18 40.1 8.6 38.0 9.4 35.6 10.3 33.4 11.2 30.6 12.4
120V
Glycol/water mix
-10 17.7 7.8 16.5 8.6 15.3 9.5 13.9 10.6
-8 19.2 8.0 18.0 8.8 16.6 9.7 15.2 10.7
-4 22.3 8.2 20.9 9.0 19.5 10.0 17.9 11.0
0 25.6 8.5 24.0 9.3 22.4 10.3 20.8 11.3 18.7 12.6
Pure water
5 30.7 8.9 28.9 9.8 27.1 10.7 25.2 11.7 22.9 13.0
7 32.8 9.1 30.9 10.0 28.9 10.9 26.9 11.9 24.5 13.2
12 37.8 9.6 35.7 10.5 33.5 11.4 31.2 12.4 28.6 13.7
15 41.0 9.9 38.7 10.8 36.3 11.7 34.0 12.7 31.2 13.9
18 44.2 10.2 41.7 11.2 39.1 12.0 36.8 13.0 33.8 14.1
150V
Glycol/water mix
-10 23.6 9.6 22.3 10.5 21.0 11.5 19.5 12.6
-8 25.4 9.7 24.1 10.7 22.7 11.7 21.1 12.8
-4 29.4 10.1 27.9 11.1 26.3 12.1 24.6 13.3 22.3 14.7
0 33.6 10.5 31.9 11.5 30.1 12.6 28.2 13.8 25.8 15.3
Pure water
5 40.3 11.1 38.2 12.2 36.0 13.3 33.9 14.6 31.1 16.1
7 42.9 11.4 40.7 12.5 38.5 13.6 36.1 14.9 33.4 16.4
12 49.4 12.0 46.9 13.1 44.3 14.3 41.7 15.6 38.8 17.1
15 53.6 12.5 50.8 13.5 48.1 14.7 45.4 16.0 42.3 17.6
18 57.8 13.1 54.7 13.9 51.9 15.1 49.1 16.4 45.8 18.0
180V
Glycol/water mix
-10 27.1 11.2 25.4 12.4 23.4 13.9 21.1 15.5
-8 29.3 11.4 27.6 12.6 25.6 14.0 23.3 15.6
-4 34.1 11.7 32.2 13.0 30.0 14.4 27.7 16.0 24.6 18.2
0 39.2 12.1 37.1 13.4 34.8 14.8 32.3 16.4 29.1 18.6
Pure water
5 47.1 12.9 44.6 14.2 42.0 15.6 39.3 17.2 35.9 19.2
7 50.2 13.2 47.6 14.5 44.9 15.9 42.0 17.5 38.6 19.5
12 57.9 14.1 54.9 15.4 51.8 16.8 48.7 18.3 45.0 20.3
15 62.7 14.6 59.4 16.0 56.2 17.4 53.0 18.9 49.1 20.9
18 67.5 15.2 63.9 16.7 60.6 18.1 57.3 19.6 53.2 21.6
35
AQU
ACIA
T2EV
OLU
TIO
N
HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
Glycol/water mix mandatoryCalculated fouling 0.00005 m2 °C/W
Standard conditions
cooling capacities
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power input Hc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
REVERSIBLE units
R4
10
AL
OW
NO
ISE
- L
N
ILDILDCILDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporatorwater outlet
temperature °C
25 30 35 40 46Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW
200V
Glycol/water mix
-10 30.8 13.4 28.7 14.9 26.5 16.6 24.0 18.3
-8 33.4 13.6 31.2 15.1 29.0 16.8 26.5 18.6
-4 38.8 14.2 36.4 15.7 33.9 17.4 31.3 19.2
0 44.6 14.8 41.9 16.4 39.1 18.1 36.2 19.9 32.6 22.3
Pure water
5 53.4 15.8 50.2 17.4 47.0 19.1 43.7 21.0 39.8 23.3
7 56.9 16.2 53.6 17.8 50.2 19.6 46.8 21.4 42.7 23.7
12 65.5 17.3 61.7 18.9 58.0 20.6 54.2 22.4 48.8 24.3
15 70.8 18.0 66.9 19.6 62.9 21.3 58.9 23.1 52.7 24.8
18 76.1 18.8 72.1 20.4 67.8 22.1 63.6 23.9 56.6 25.4
240V
Glycol/water mix
-10 35.7 15.4 33.2 17.0 30.7 18.8 27.8 20.8
-8 38.7 15.6 36.2 17.2 33.6 19.0 30.8 21.0
-4 45.3 16.0 42.6 17.6 39.7 19.4 36.7 21.4 32.6 24.1
0 52.3 16.4 49.3 18.1 46.0 19.9 42.8 21.9 38.5 24.6
Pure water
5 63.1 17.2 59.5 18.9 55.8 20.7 52.0 22.7 47.3 25.3
7 67.5 17.6 63.8 19.2 59.9 21.1 55.8 23.0 50.9 25.6
12 78.1 18.5 73.9 20.1 69.5 21.9 64.9 23.9 59.6 26.4
15 84.9 19.1 80.4 20.7 75.7 22.5 70.9 24.5 65.1 27.0
18 91.7 19.8 86.9 21.4 81.9 23.2 76.9 25.2 70.6 27.7
300V
Glycol/water mix
-10 44.6 19.9 42.2 21.7 39.6 23.7 36.4 25.8
-8 48.1 20.3 45.5 22.2 42.8 24.2 39.7 26.4
-4 55.5 21.2 52.6 23.2 49.6 25.4 46.2 27.6 41.9 30.4
0 63.6 22.1 60.3 24.3 56.8 26.5 53.2 28.8 48.5 31.7
Pure water
5 76.3 23.4 72.3 25.7 68.2 28.0 63.9 30.5 58.8 33.4
7 81.4 24.0 77.1 26.3 72.8 28.7 68.2 31.1 63.0 34.1
12 93.7 25.5 88.8 27.8 83.7 30.2 78.8 32.7 72.8 35.1
15 101.5 26.5 96.1 28.8 90.8 31.2 85.6 33.7 79.6 35.9
18 109.3 27.6 103.4 29.9 97.9 32.3 92.4 34.8 86.4 36.8
350V
Glycol/water mix
-10 52.4 22.9 49.5 25.0 46.4 27.3 42.9 30.1
-8 57.1 23.1 54.1 25.3 50.8 27.7 47.2 30.5
-4 67.1 23.9 63.5 26.1 59.8 28.6 55.8 31.3 50.6 35.0
0 77.7 24.7 73.7 26.9 69.5 29.5 65.0 32.3 59.5 36.1
Pure water
5 94.6 25.9 89.5 28.3 84.4 30.9 79.2 33.8 72.8 37.6
7 101.4 26.5 96.0 28.8 90.5 31.5 85.0 34.4 78.5 38.3
12 118.0 27.8 111.9 30.3 105.6 33.0 99.3 36.0 92.1 39.8
15 128.6 28.8 122.0 31.3 115.2 34.1 108.6 37.0 101.1 40.9
18 139.6 30.0 132.2 32.5 124.9 35.3 118.1 38.3
400V
Glycol/water mix
-10 59.0 25.9 55.8 28.3 52.2 31.0 48.0 33.9
-8 64.3 26.2 60.9 28.8 57.1 31.5 52.9 34.4
-4 75.5 27.1 71.6 29.7 67.4 32.5 62.8 35.5 56.7 39.4
0 87.3 28.0 83.0 30.7 78.3 33.6 73.2 36.7 66.8 40.7
Pure water
5 105.8 29.5 100.6 32.3 94.9 35.3 89.0 38.5 81.5 42.5
7 113.3 30.2 107.8 33.0 101.7 36.0 95.5 39.2 87.7 43.2
12 131.7 31.8 125.1 34.6 118.2 37.7 111.1 40.9 102.5 44.9
15 143.3 32.9 136.2 35.7 128.7 38.7 121.1 42.0 112.1 46.0
18 155.2 34.3 147.3 37.1 139.3 40.1 131.3 43.1
500V
Glycol/water mix
-10 72.6 33.1 68.3 36.2 63.7 39.6 58.3 43.3
-8 79.2 33.6 74.7 36.8 69.8 40.2 64.5 43.9
-4 92.8 34.8 87.9 38.0 82.5 41.5 76.7 45.3 68.8 50.2
0 107.5 36.0 101.9 39.3 95.9 42.9 89.4 46.8 81.1 51.8
Pure water
5 130.1 38.1 123.3 41.5 116.2 45.1 108.8 49.1 99.4 54.1
7 139.4 39.0 132.1 42.4 124.6 46.1 116.7 50.0 106.9 55.0
12 161.7 41.2 153.2 44.6 144.5 48.3 135.6 52.3 124.7 57.2
15 175.8 42.6 166.7 46.1 157.3 49.8 147.8 53.7 136.3 58.6
18 190.6 44.1 180.6 47.6 170.6 51.3 160.5 55.2
36 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
cooling capacitiesREVERSIBLE units
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limitsPi: Gross power inputHc: Gross acceptable heating capacity for temperature difference, based on operating limits
Standard conditions Glycol/water mix mandatory
Calculated fouling 0.00005 m2 °C/W
R4
10
AL
OW
NO
ISE
- L
N
ILDILDCILDH
CONDENSER AIR INLET TEMPERATURE (°C)
Evaporator water outlet
temperature °C
25 30 35 40 46
Cc Pi Cc Pi Cc Pi Cc Pi Cc Pi
kW kW kW kW kW kW kW kW kW kW
540V
Glycol/water mix
-10 82.6 33.9 76.3 37.4 71.2 41.2 65.1 45.5
-8 88.1 34.3 83.1 37.8 77.7 41.6 71.8 45.9
-4 102.7 35.2 97.2 38.7 91.3 42.6 85.0 47.0
0 118.4 36.2 112.3 39.8 105.7 43.7 98.8 48.0 89.9 53.6
Pure water
5 142.7 37.8 135.5 41.5 127.8 45.5 119.8 49.9 109.8 55.6
7 153.1 38.6 145.4 42.3 137.2 46.3 128.7 50.7 118.1 56.4
12 177.8 40.5 168.8 44.2 159.5 48.3 149.9 52.7 138.2 58.4
15 193.4 41.8 183.7 45.5 173.8 49.6 163.5 54.0 151.2 59.7
18 199.4 45.8 188.9 49.6 178.0 53.9 167.3 58.2 153.8 61.4
600V
Glycol/water mix
-10 90.5 37.7 85.8 41.4 80.7 45.2 74.5 49.6
-8 98.4 38.4 93.3 42.1 87.9 46.1 81.7 50.4
-4 113.8 39.7 108.2 43.6 102.1 47.8 95.6 52.3 86.9 58.1
0 131.0 41.1 124.6 45.1 117.7 49.5 110.5 54.2 101.2 60.1
Pure water
5 157.8 43.3 150.1 47.5 142.0 52.1 133.4 56.9 122.8 63.1
7 168.8 44.2 160.7 48.5 151.9 53.1 142.9 58.0 131.8 64.2
12 195.7 46.6 186.1 50.9 176.1 55.6 165.9 60.5 153.6 66.9
15 212.7 48.2 202.3 52.5 191.5 57.2 180.6 62.2 167.8 68.6
18 228.1 49.6 218.1 54.1 206.8 58.6 195.8 63.8
700V
Glycol/water mix
-8 103.7 43.4 98.2 47.4 92.2 52.0
-4 118.9 44.9 113.2 49.2 106.6 53.9 99.6 58.8
0 137.8 47.0 129.3 51.4 121.0 55.7 113.3 60.9
2 146.0 47.8 137.1 52.1 129.9 57.1 121.6 62.4 112.2 69.5
Pure water
5 167.5 49.9 158.1 54.4 149.0 59.4 139.8 64.7 127.8 71.7
7 177.6 51.0 167.9 55.6 158.5 60.6 148.3 66.0 136.6 73.2
10 193.2 52.6 183.4 57.4 172.7 62.4 161.2 67.9
12 205.0 53.7 193.5 58.6 183.2 63.7
18 238.8 58.0 226.5 63.0 214.4 67.9
37
AQU
ACIA
T2EV
OLU
TIO
N
HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
heating capacitiesREVERSIBLE units
Hc: Gross acceptable heating capacity for delta T, based on operating limitsPi: Gross power input of compressors and fans Calculated fouling 0.00005 m2 °C/W
Standard air conditioning conditions
Standard underfloor heating system conditions(1) Relative humidity variation for calculations:-20°C/95% RH/+7°C 85% RH/+27°C 50% RH
R4
10
AH
IGH
PE
RF
OR
MA
NC
E -
HP
ILDILDCILDH
CONDENSER WATER OUTLET TEMPERATURE (°C)
Outdoor airtemperature in °C DB (1)
30 35 40 45 50
Hc Pi Hc Pi Hc Pi Hc Pi Hc Pi
kW kW kW kW kW kW kW kW kW kW
350V Pure water
-12 63.0 23.1 62.1 25.2
-10 64.7 23.2 64.2 25.3 63.6 27.7
-5 74.2 23.4 73.4 25.5 72.4 28.0 71.6 30.8
0 84.8 23.6 83.6 25.7 82.3 28.2 81.0 31.0 79.8 34.2
5 95.9 23.8 94.3 25.9 92.6 28.4 90.9 31.3 89.1 34.5
7 100.6 23.9 98.7 26.0 96.8 28.5 95.0 31.4 93.1 34.6
10 108.1 24.0 106.2 26.2 103.9 28.7 101.6 31.5 99.5 34.8
15 121.1 24.3 118.6 26.5 115.9 28.9 113.0 31.8 110.4 35.0
20 134.2 24.6 130.9 26.7 127.9 29.2 124.7 32.0 121.6 35.3
400V Pure water
-12 69.3 26.3 68.5 28.8 68.0 31.5
-10 73.5 26.4 73.1 28.9 72.2 31.6 71.1 34.7
-5 84.5 26.7 83.8 29.2 82.7 32.0 81.5 35.1
0 96.6 26.9 95.4 29.5 94.3 32.4 92.7 35.5 90.9 39.0
5 109.0 27.2 107.7 29.8 105.9 32.7 104.0 35.9 101.9 39.5
7 114.3 27.3 112.6 29.9 110.7 32.8 108.8 36.0 106.4 39.6
10 122.7 27.5 120.9 30.1 118.8 33.0 116.4 36.2 113.8 39.8
15 137.3 27.8 135.0 30.3 132.2 33.2 129.3 36.5 126.3 40.1
20 152.3 28.2 149.5 30.7 145.9 33.5 142.4 36.7 138.8 40.4
500V Pure water
-12 84.4 31.5 83.4 34.6 82.4 37.9
-10 89.7 31.6 88.8 34.7 87.7 38.1 86.2 42.0
-5 103.1 31.8 101.9 34.9 100.6 38.4 99.1 42.3 97.0 46.7
0 117.6 32.1 116.3 35.2 114.7 38.7 112.9 42.6 110.7 47.1
5 132.9 32.4 131.2 35.5 129.1 39.0 126.9 43.0 124.3 47.4
7 139.2 32.6 137.3 35.6 135.1 39.2 132.6 43.1 129.8 47.6
10 149.5 32.8 147.3 35.9 144.7 39.4 142.1 43.4 139.0 47.7
15 167.7 33.2 164.8 36.3 161.5 39.8 157.9 43.7 153.9 48.1
20 186.0 33.7 182.1 36.7 177.8 40.1 173.6 44.0 169.2 48.4
38 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
heating capacitiesREVERSIBLE units
Hc: Gross acceptable heating capacity for delta T, based on operating limitsPi: Gross power input of compressors and fans
Calculated fouling 0.00005 m2 °C/W Standard air conditioning conditions
Standard underfloor heating system conditions(1) Relative humidity variation for calculations:-20°C/95% RH/+7°C 85% RH/+27°C 50% RH
R4
10
AH
IGH
PE
RF
OR
MA
NC
E -
HP
ILDILDCILDH
CONDENSER WATER OUTLET TEMPERATURE (°C)
Outdoor air temperature
in °C DB (1)
30 35 40 45 50Hc Pi Hc Pi Hc Pi Hc Pi Hc Pi
kW kW kW kW kW kW kW kW kW kW
540V Pure water
-12 95.4 34.5 94.8 38.0 94.0 42.0
-10 99.3 34.6 98.9 38.1 98.3 42.1
-5 114.8 35.0 113.7 38.5 113.0 42.4 111.0 46.8 108.6 52.0
0 128.7 35.1 127.1 38.7 125.3 42.7 123.5 47.2 121.6 52.2
5 147.8 35.4 145.8 39.0 143.5 43.1 140.8 47.6 137.9 52.6
7 155.2 35.5 152.8 39.1 150.0 43.2 147.1 47.7 144.0 52.7
10 166.2 35.7 163.7 39.3 160.6 43.3 157.3 47.9 153.7 52.9
15 185.7 36.0 182.6 39.6 178.8 43.6 174.5 48.1 170.1 53.2
20 205.7 36.5 201.5 39.9 196.8 43.9 191.9 48.4 186.7 53.4
600V Pure water
-12 105.7 38.4 104.8 42.2 103.6 46.4
-10 110.5 38.5 109.3 42.3 107.9 46.6 106.2 51.0
-5 127.0 38.8 125.5 42.7 124.0 47.0 122.1 51.4 119.7 57.2
0 146.0 39.0 144.3 43.0 142.5 47.5 140.4 52.1 137.8 57.7
5 163.9 39.3 162.2 43.4 159.7 47.9 157.1 52.8 154.0 58.1
7 171.7 39.5 169.3 43.5 166.9 48.0 164.0 53.0 160.8 58.4
10 183.9 39.7 181.3 43.7 178.6 48.3 175.3 53.3 171.5 58.8
15 205.6 40.1 202.2 44.1 198.6 48.6 194.4 53.7 189.8 59.3
20 227.7 40.7 223.4 44.5 218.6 49.0 213.5 54.1 208.1 59.7
700V Pure water
-10 122.6 41.2 122.9 45.1
-5 140.6 41.9 141.0 46.0 138.9 50.1
0 158.7 42.5 159.1 46.8 158.0 51.1 156.2 56.4 154.5 62.0
2 169.6 42.9 167.5 46.9 165.3 51.4 163.4 56.5 161.4 62.2
5 181.6 43.2 178.7 47.2 176.4 51.7 174.2 56.8 172.0 62.5
7 190.0 43.6 186.8 47.4 184.0 52.0 181.5 57.1 178.8 62.6
10 203.1 43.9 199.6 47.9 196.5 52.4 193.6 57.5 190.6 63.2
15 226.9 44.7 222.1 48.9 218.2 53.3 214.0 58.5 209.8 64.0
20 251.0 45.7 245.3 49.5 240.2 54.1 235.1 59.1 229.9 64.8
39
AQU
ACIA
T2EV
OLU
TIO
N
HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
heating capacitiesREVERSIBLE units
Hc: Gross acceptable heating capacity for delta T, based on operating limitsPi: Gross power input of compressors and fans
Calculated fouling 0.00005 m2 °C/W Standard air conditioning conditions
Standard underfloor heating system conditions(1) Relative humidity variation for calculations:-20°C/95% RH/+7°C 85% RH/+27°C 50% RH
R4
10
AL
OW
NO
ISE
- L
N
ILDILDCILDH
CONDENSER WATER OUTLET TEMPERATURE (°C)
Outdoor airtemperature in °C DB (1)
30 35 40 45 50Hc Pi Hc Pi Hc Pi Hc Pi Hc Pi
kW kW kW kW kW kW kW kW kW kW
80V Pure water
-12 12.9 4.9 12.8 5.5 12.7 6.1-10 13.8 4.9 13.6 5.5 13.5 6.1-5 15.8 4.9 15.6 5.5 15.4 6.1 15.3 6.90 18.1 4.9 17.8 5.5 17.6 6.1 17.3 6.9 17.1 7.75 20.5 4.9 20.2 5.5 19.8 6.1 19.4 6.9 19.1 7.77 21.5 4.9 21.1 5.5 20.7 6.1 20.3 6.9 20.0 7.7
10 23.1 5.0 22.7 5.5 22.3 6.1 21.8 6.9 21.3 7.715 25.9 5.0 25.4 5.6 24.8 6.2 24.3 6.9 24.0 7.720 28.8 5.0 28.2 5.6 27.5 6.2 26.8 6.9 26.1 7.7
90V Pure water
-12 14.4 5.5 14.3 6.1-10 15.4 5.5 15.3 6.1 15.1 6.9-5 17.6 5.5 17.5 6.1 17.3 6.9 17.1 7.70 20.1 5.5 19.9 6.2 19.7 6.9 19.4 7.7 19.1 8.75 22.6 5.6 22.4 6.2 22.1 6.9 21.8 7.7 21.5 8.77 23.8 5.6 23.5 6.2 23.2 6.9 22.8 7.7 22.4 8.7
10 25.5 5.6 25.2 6.2 24.8 6.9 24.4 7.7 24.0 8.715 28.7 5.6 28.2 6.2 27.6 7.0 27.1 7.7 26.6 8.620 31.9 5.7 31.2 6.3 30.5 7.0 29.9 7.8 29.2 8.7
100V Pure water
-12 17.3 6.4 17.2 7.2-10 18.5 6.4 18.4 7.2 18.2 8.0-5 21.2 6.4 21.0 7.3 20.7 8.1 20.5 9.10 24.2 6.5 23.9 7.3 23.5 8.2 23.2 9.2 22.9 10.35 27.3 6.5 26.9 7.3 26.5 8.2 26.0 9.2 25.6 10.37 28.7 6.5 28.2 7.4 27.7 8.2 27.2 9.2 26.7 10.3
10 30.7 6.6 30.2 7.4 29.6 8.2 29.1 9.2 28.5 10.315 34.4 6.6 33.8 7.4 33.1 8.2 32.4 9.2 31.6 10.320 38.2 6.6 37.4 7.4 36.6 8.3 35.7 9.2 34.8 10.3
120V Pure water
-12 19.6 7.4 19.4 8.2 19.3 9.1-10 21.0 7.4 20.8 8.2 20.6 9.1-5 24.0 7.4 23.7 8.2 23.4 9.2 23.1 10.20 27.3 7.4 26.9 8.3 26.5 9.2 26.1 10.2 25.7 11.45 30.8 7.5 30.3 8.3 29.8 9.3 29.2 10.3 28.7 11.47 32.2 7.5 31.7 8.3 31.1 9.3 30.5 10.3 29.9 11.4
10 34.5 7.5 33.9 8.4 33.2 9.3 32.6 10.3 31.9 11.415 38.6 7.6 37.9 8.4 37.1 9.3 36.3 10.3 35.4 11.520 42.8 7.7 41.9 8.4 41.0 9.3 39.9 10.3 38.9 11.5
150V Pure water
-12 25.5 9.0 25.3 9.9-10 27.2 9.1 26.9 10.0 26.7 11.0-5 30.9 9.3 30.7 10.3 30.4 11.3 30.0 12.40 35.1 9.5 34.8 10.5 34.4 11.6 34.0 12.8 33.5 14.15 39.4 9.6 39.1 10.6 38.6 11.7 38.1 13.0 37.4 14.37 41.3 9.7 40.9 10.7 40.3 11.8 39.8 13.1 39.1 14.4
10 44.1 9.7 43.6 10.7 43.1 11.9 42.4 13.2 41.6 14.515 49.4 9.8 48.7 10.8 47.9 12.0 47.1 13.3 46.1 14.720 54.8 9.9 53.7 10.9 52.8 12.0 51.8 13.4 50.6 14.8
180V Pure water
-12 29.3 10.7 29.0 12.0-10 30.7 10.7 30.4 12.0 30.2 13.4-5 34.6 10.7 34.4 12.0 34.0 13.4 33.8 15.10 38.9 10.7 38.5 12.0 38.2 13.4 37.7 15.1 37.4 16.85 46.0 10.7 45.5 12.0 44.9 13.4 44.3 15.0 43.7 16.87 48.4 10.8 47.7 12.0 47.1 13.4 46.3 15.0 45.7 16.8
10 51.7 10.8 51.0 12.0 50.3 13.4 49.5 15.0 48.8 16.815 58.0 10.9 57.1 12.1 56.2 13.4 55.1 15.0 54.1 16.920 64.5 11.0 63.3 12.2 62.1 13.5 60.8 15.1 59.6 16.9
40 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
heating capacitiesREVERSIBLE units
Hc: Gross acceptable heating capacity for delta T, based on operating limitsPi: Gross power input of compressors and fans
Calculated fouling 0.00005 m2 °C/W Standard air conditioning conditions Standard underfloor heating system conditions
(1) Relative humidity variation for calculations:-20°C/95% RH/+7°C 85% RH/+27°C 50% RH
R4
10
AL
OW
NO
ISE
- L
N
ILDILDCILDH
CONDENSER WATER OUTLET TEMPERATURE (°C)
Outdoor air temperature
in °C DB (1)
30 35 40 45 50Hc Pi Hc Pi Pi Hc Pi Hc Pi Hc Pi
kW kW kW kW kW kW kW kW kW kW
200V Pure water
-12 32.9 12.3 32.8 13.9 32.6 15.6-10 35.5 12.3 35.2 13.8 35.0 15.6 34.6 17.6-5 40.4 12.3 40.1 13.8 39.9 15.6 39.6 17.60 46.1 12.3 45.6 13.8 45.2 15.5 44.8 17.5 44.3 19.75 52.0 12.3 51.4 13.8 50.8 15.5 50.1 17.5 49.5 19.77 54.5 12.4 53.8 13.8 53.1 15.5 52.4 17.5 51.6 19.7
10 58.4 12.4 57.6 13.9 56.7 15.6 55.8 17.5 55.0 19.715 65.2 12.4 64.3 13.9 63.3 15.6 62.1 17.5 61.0 19.620 72.4 12.5 71.2 14.0 69.9 15.6 68.6 17.5 67.1 19.6
240V Pure water
-12 40.0 15.0 39.7 16.7-10 42.8 15.0 42.3 16.7 41.8 18.6-5 48.9 15.0 48.3 16.7 47.7 18.5 47.0 20.60 55.8 15.0 55.0 16.6 54.1 18.5 53.2 20.6 52.3 22.95 62.9 15.0 61.8 16.6 60.8 18.4 59.6 20.5 58.5 22.87 65.9 15.1 64.7 16.6 63.5 18.4 62.3 20.5 61.0 22.8
10 70.6 15.1 69.3 16.6 68.0 18.4 66.6 20.5 65.1 22.815 78.9 15.2 77.6 16.7 75.8 18.5 74.1 20.5 72.2 22.720 87.5 15.3 85.7 16.8 83.8 18.5 81.7 20.5 79.4 22.7
300V Pure water
-12 50.4 18.2 49.9 19.8 49.2 21.9-10 53.9 18.4 53.6 20.1 53.1 22.1-5 61.4 18.6 61.1 20.5 60.5 22.5 59.8 24.8 58.6 27.40 69.6 18.8 69.1 20.8 68.5 23.0 67.7 25.3 66.7 27.95 78.3 18.9 77.5 21.0 76.8 23.2 75.7 25.7 74.6 28.37 82.0 19.0 81.1 21.0 80.1 23.3 79.1 25.8 77.8 28.4
10 87.6 19.1 86.5 21.1 85.5 23.4 84.2 25.9 82.8 28.715 97.7 19.2 96.5 21.3 95.1 23.5 93.4 26.1 91.7 28.920 108.3 19.5 106.6 21.4 104.9 23.7 102.7 26.3 100.5 29.1
350V Pure water
-12 59.5 22.1 59.0 24.2-10 63.5 22.1 62.9 24.2 62.3 26.6-5 72.4 22.3 71.7 24.4 70.9 26.8 70.2 29.6 68.9 32.80 82.6 22.4 81.5 24.6 80.5 27.1 79.4 29.9 78.3 33.15 93.6 22.6 91.8 24.8 90.5 27.3 88.9 30.1 87.4 33.47 97.9 22.7 96.2 24.9 94.5 27.4 92.9 30.2 91.2 33.5
10 104.8 22.9 103.0 25.0 101.2 27.5 99.4 30.4 97.5 33.615 117.6 23.1 115.3 25.3 112.9 27.8 110.5 30.6 108.1 33.920 130.5 23.4 127.7 25.5 124.8 28.0 121.9 30.9 118.8 34.1
400V Pure water
-12 67.8 25.0 66.9 27.4 66.3 30.1-10 72.1 25.1 71.6 27.6 70.8 30.3-5 82.5 25.3 81.8 27.9 80.9 30.7 79.9 33.7 78.4 37.20 94.0 25.6 93.2 28.2 92.1 31.0 90.8 34.2 89.2 37.75 106.1 25.8 105.0 28.4 103.4 31.3 101.8 34.6 99.9 38.17 111.5 25.9 109.9 28.5 108.0 31.4 106.4 34.7 104.3 38.3
10 119.1 26.1 117.5 28.7 115.7 31.6 113.9 34.9 111.4 38.415 133.3 26.4 131.3 29.0 129.0 31.9 126.4 35.1 123.6 38.720 148.0 26.8 145.4 29.3 142.7 32.2 139.2 35.4 135.8 39.0
500V Pure water
-12 81.4 33.0 80.8 36.1 80.0 39.5-10 87.2 33.1 86.3 36.2 85.5 39.7-5 99.9 33.3 98.9 36.5 98.0 40.0 96.7 43.8 95.0 48.30 113.7 33.6 112.8 36.7 111.5 40.3 110.1 44.2 108.2 48.65 128.3 33.9 127.0 37.0 125.4 40.5 123.5 44.5 121.3 49.07 134.6 34.0 133.0 37.1 131.2 40.6 129.0 44.7 126.7 49.1
10 144.2 34.2 142.1 37.3 140.1 40.8 137.8 44.9 135.4 49.315 161.6 34.6 159.1 37.7 156.5 41.1 153.4 45.2 150.1 49.620 179.4 35.1 176.3 38.1 172.6 41.6 169.0 45.5 165.0 49.9
41
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T2EV
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
heating capacitiesREVERSIBLE units
Hc: Gross acceptable heating capacity for delta T, based on operating limitsPi: Gross power input of compressors and fans
Calculated fouling 0.00005 m2 °C/W Standard air conditioning conditions
Standard underfloor heating system conditions(1) Relative humidity variation for calculations:-20°C/95% RH/+7°C 85% RH/+27°C 50% RH
R4
10
AL
OW
NO
ISE
- L
N
ILDILDCILDH
CONDENSER WATER OUTLET TEMPERATURE (°C)
Outdoor airtemperature in °C DB (1)
30 35 40 45 50Hc Pi Hc Pi Hc Pi Hc Pi Hc Pi
kW kW kW kW kW kW kW kW kW kW
540V Pure water
-12 92.0 33.2 91.3 36.6
-10 96.7 33.3 95.8 36.7 95.3 41.0
-5 111.2 33.6 110.6 37.1 110.0 41.2 108.4 45.7
0 127.8 33.9 126.6 37.5 125.1 41.5 123.1 46.0 120.9 51.1
5 143.6 34.2 142.1 37.8 140.1 41.8 137.9 46.4 135.3 51.4
7 151.3 34.3 149.1 37.9 146.5 41.9 143.9 46.5 141.2 51.5
10 161.1 34.4 159.1 38.0 156.4 42.1 153.6 46.6 150.7 51.7
15 179.9 34.7 177.3 38.3 173.9 42.3 170.4 46.9 166.6 51.9
20 199.2 35.1 195.7 38.6 191.8 42.6 187.4 47.1 182.8 52.1
600V Pure water
-12 101.3 36.7 100.0 40.5 99.1 45.0
-10 110.8 37.0 109.5 40.9 108.6 45.3
-5 124.6 37.3 123.9 41.2 122.8 45.6 120.9 50.1
0 141.5 37.7 140.1 41.6 138.5 46.0 136.6 50.7 134.4 55.8
5 159.1 38.0 157.6 42.1 155.8 46.6 153.3 51.5 150.3 56.7
7 167.1 38.2 164.9 42.2 162.6 46.7 160.2 51.7 157.1 57.1
10 178.1 38.4 176.2 42.4 173.6 47.0 170.9 52.0 167.9 57.5
15 198.9 38.8 196.2 42.8 193.0 47.3 189.5 52.4 185.7 58.0
20 220.3 39.3 216.9 43.2 213.0 47.7 208.3 52.8 203.6 58.4
700V Pure water
-10 121.6 40.1
-5 138.9 40.6 136.1 44.6 135.7 48.6
0 156.2 41.1 154.7 45.3 152.4 49.5 151.5 55.0
2 164.3 41.4 162.4 45.4 160.0 49.7 158.5 55.2 156.7 61.0
5 175.4 41.8 173.7 45.8 171.8 50.2 169.8 55.5 167.3 61.2
7 184.0 42.2 181.4 46.1 179.2 50.5 177.0 55.8 174.3 61.4
10 196.7 42.6 193.8 46.3 191.2 50.9 188.5 56.1 185.9 61.8
15 219.7 43.4 215.8 47.3 212.2 51.9 208.6 57.0 205.2 62.7
20 243.1 44.2 238.0 48.1 233.8 52.5 229.3 57.7 224.8 63.4
42 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
shell anD tube eVaporator
LD 350V to LD 700V seriesThe LD 350V to LD 700V versions of the water chillers without hydraulic equipment can be equipped on request with a dry-ex SHELL AND TUBE evaporator.This type of configuration is particularly suited to industrial or specific applications requiring a more powerful "evaporator" circuit.
AQUACIAT2 shell and tube dimensions1: Evaporator chilled water inlet2: Evaporator chilled water outlet
AQUACIAT2 shell and tube technical characteristics
(*) the maximum water flow rate is given for a standard baffle spacing
Shell and tube evaporator pressure drops
LD 350V 400V 500V 540V 600V 700V
Number of cooling circuits 1 1 2 2 2 2
Water connections VICTAULIC DN 100
Min. water flow rate (m3/h) 10,7 11,8 17,3 18,1 20,8 20,8
Max. water flow rate (m3/h) * 32,5 34 43,6 48,7 53 59
H - standard fan (mm) 2113 2117
L (mm) 2190 2745
P (mm) 2129 2243
A (mm) 1640
B (mm) 337,5 566
C (mm) 74 75
D (mm) 431 432
Weight when empty (kg) 1180 1266 1520 1786 1918 2035
Weight in operation (kg) 1225 1306 1627 1875 2008 2137
0
20
40
60
80
100
120
10 15 20 25 30 35 40 45 50 55 60
Pert
e de
cha
rge
(kPa
)
Débit d'eau (m3/h)Water flow rate (m3/h)
Wat
er p
ress
ure
drop
(kP
a)
LD 350-400V
LD 700V
LD 500V-540V-600V
LD 700VLD 550V-540V-600VLD 350V-400V
C
PL
H
D
B A
631
LD 350V à LD 700V
B AA
630.5
125
431
Z fo
lio 2
/3
2129
2242.5HT
43
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
LD 350V à LD 700V
lD - ilD (stD, c or h) series Desuperheater heat eXchangern Principles
Heat from gases released by the compressors can be recovered directly by a desuperheater heat exchanger on the unit to produce free, additional hot water
On reversible units, the desuperheater option can be used in both heating and cooling modes.
This optional configuration requires assembly in our factories and is by order only.
Heat recovery is only possible when the unit is operating in either cooling or heating mode.
For the same cooling or heating capacity, the desuperheater provides a source of free hot water and lowers the unit's electrical power consumption.
n Example of recovery with a desuperheater
SizeRecovery Water fl ow rate Pressure drop Number of Cooling capacity Power inputCr (kW) qv (m3/h) Pd (mWC) Desuperheaters Cc (kW) Pi (kW)
80V 5.9 1 1.3 1 20.2 6.990V 6.6 1.1 1.4 1 22.9 8.0
100V 7.9 1.4 1.2 1 27.4 9.1120V 8.8 1.5 1.4 1 30.5 10.6150V 11.7 2 1.4 1 37 13.9180V 13.7 2.3 0.8 1 47.1 15.2200V 15.5 2.7 1 1 47 18240V 16 3.1 0.7 1 61.9 20.7300V 21.9 3.8 1 1 75.6 27.6350V 23.2 4 1.1 1 92.8 31.4400V 26.3 4.5 1.4 1 105.2 35.2500V 32 5.5 0.6 2 128.1 44.4540V 35 6 0.7 2 139.9 46.1600V 38.8 6.7 0.8 2 155.3 52.5700V 40.8 7 0.9 2 163.1 59.5
Note: recovery performances based on ILD reversible models, High Performance version: Unit under full load in cooling mode and under nominal conditions (chilled water: +12°C/+7°C; outdoor air: +35°C) Recovery hot water temperatures of +55/+60°C
n Hydraulic connections: configuration and precautionsTo ensure that the unit is commissioned and operates under the right conditions, the desuperheater water loop must be as short as possible. This will ensure that warm-up is gradual with a water flow rate of 10% of its nominal value, and that the nominal flow rate of the return water at the desuperheater inlet is +50°C.
A hydraulic circuit which allows superheated water in the desuperheater to be produced very quickly (three-way valve + thermostat + sensor on desuperheater water inlet) is therefore recommended
The thermostat setpoint must be at least +50°C.
Note: Special attention should be paid when selecting the expansion vessel as the temperature of the recovery water circuit can reach 120°C if the accelerator pump is off or if no hot water is consumed.
Desuperheater option
50°C min.
Domestic hot water
44 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limits Pi: Gross power input of compressors + fans
Pde: Heating capacity recovered with the desuperheater Qde: Desuperheater water flow rate
Standard conditions
Desuperheater partial recoVery
R4
10
A
LD / ILD
Desuperheater water
temperature (°C)
Evaporator water outlet temperature
°C
CONDENSER AIR INLET TEMPERATURE IN °C
25 30 35 40 46Cc Pi Pde Qde Cc Pi Pde Qde Cc Pi Pde Qde Cc Pi Pde Qde Cc Pi Pde QdekW kW kW m3/h kW kW kW m3/h kW kW kW m3/h kW kW kW m3/h kW kW kW m3/h
80V
50°C / 55°C
5 21.3 5.6 3.6 0.6 20.1 6.2 4.8 0.8 18.8 6.8 6.4 1.1 17.5 7.5 8.8 1.5 15.8 8.5 11.4 2.07 22.8 5.7 3.9 0.7 21.5 6.3 5.2 0.9 20.2 6.9 6.9 1.2 18.8 7.6 9.4 1.6 17.1 8.6 12.3 2.112 26.5 6.0 4.5 0.8 25.1 6.6 6.0 1.0 23.6 7.2 8.0 1.4 22.0 7.9 11.0 1.9 20.1 8.8 14.5 2.515 28.9 6.2 4.9 0.8 27.4 6.8 6.6 1.1 25.8 7.4 8.8 1.5 24.1 8.1 12.1 2.1 22.0 9.0 15.8 2.7
55°C / 60°C
5 21.3 5.6 3.0 0.5 20.1 6.2 4.0 0.7 18.8 6.8 5.5 0.9 17.5 7.5 7.2 1.2 15.8 8.5 9.5 1.67 22.8 5.7 3.2 0.5 21.5 6.3 4.3 0.7 20.2 6.9 5.9 1.0 18.8 7.6 7.7 1.3 17.1 8.6 10.3 1.812 26.5 6.0 3.7 0.6 25.1 6.6 5.0 0.9 23.6 7.2 6.8 1.2 22.0 7.9 9.0 1.6 20.1 8.8 12.1 2.115 28.9 6.2 4.0 0.7 27.4 6.8 5.5 0.9 25.8 7.4 7.5 1.3 24.1 8.1 9.9 1.7 22.0 9.0 13.2 2.3
90V
50°C / 55°C
5 23.8 6.5 4.0 0.7 22.7 7.1 5.4 0.9 21.3 7.8 7.2 1.2 19.9 8.6 10.0 1.7 18.2 9.7 13.1 2.37 25.6 6.6 4.4 0.7 24.3 7.3 5.8 1.0 22.9 8.0 7.8 1.3 21.4 8.8 10.7 1.8 19.6 9.8 14.1 2.412 29.6 7.0 5.0 0.9 28.1 7.7 6.7 1.2 26.5 8.4 9.0 1.5 24.9 9.2 12.5 2.1 22.9 10.2 16.5 2.815 32.2 7.3 5.5 0.9 30.5 8.0 7.3 1.3 28.8 8.7 9.8 1.7 27.1 9.5 13.6 2.3 25.0 10.5 18.0 3.1
55°C / 60°C
5 23.8 6.5 3.3 0.6 22.7 7.1 4.5 0.8 21.3 7.8 6.2 1.1 19.9 8.6 8.2 1.4 18.2 9.7 10.9 1.97 25.6 6.6 3.6 0.6 24.3 7.3 4.9 0.8 22.9 8.0 6.6 1.1 21.4 8.8 8.8 1.5 19.6 9.8 11.8 2.012 29.6 7.0 4.1 0.7 28.1 7.7 5.6 1.0 26.5 8.4 7.7 1.3 24.9 9.2 10.2 1.8 22.9 10.2 13.7 2.415 32.2 7.3 4.5 0.8 30.5 8.0 6.1 1.0 28.8 8.7 8.4 1.4 27.1 9.5 11.1 1.9 25.0 10.5 15.0 2.6
100V
50°C / 55°C
5 28.8 7.4 4.9 0.8 27.2 8.2 6.5 1.1 25.6 9.0 8.7 1.5 23.8 9.9 11.9 2.0 21.6 11.2 15.6 2.77 30.8 7.5 5.2 0.9 29.2 8.3 7.0 1.2 27.4 9.1 9.3 1.6 25.6 10.0 12.8 2.2 23.3 11.3 16.8 2.912 35.9 7.8 6.1 1.0 34.0 8.6 8.2 1.4 32.0 9.4 10.9 1.9 29.9 10.3 15.0 2.6 27.4 11.6 19.7 3.415 39.1 8.0 6.6 1.1 37.0 8.8 8.9 1.5 34.9 9.6 11.9 2.0 32.7 10.6 16.4 2.8 30.0 11.8 21.6 3.7
55°C / 60°C
5 28.8 7.4 4.0 0.7 27.2 8.2 5.4 0.9 25.6 9.0 7.4 1.3 23.8 9.9 9.8 1.7 21.6 11.2 13.0 2.27 30.8 7.5 4.3 0.7 29.2 8.3 5.8 1.0 27.4 9.1 7.9 1.4 25.6 10.0 10.5 1.8 23.3 11.3 14.0 2.412 35.9 7.8 5.0 0.9 34.0 8.6 6.8 1.2 32.0 9.4 9.3 1.6 29.9 10.3 12.3 2.1 27.4 11.6 16.4 2.815 39.1 8.0 5.5 0.9 37.0 8.8 7.4 1.3 34.9 9.6 10.1 1.7 32.7 10.6 13.4 2.3 30.0 11.8 18.0 3.1
120V
50°C / 55°C
5 32.1 8.7 5.5 0.9 30.3 9.5 7.3 1.3 28.5 10.4 9.7 1.7 26.5 11.4 13.3 2.3 24.0 12.8 17.3 3.07 34.4 8.9 5.8 1.0 32.5 9.7 7.8 1.3 30.5 10.6 10.4 1.8 28.4 11.6 14.2 2.4 25.9 12.9 18.6 3.212 39.8 9.2 6.8 1.2 37.7 10.1 9.0 1.6 35.5 11.0 12.1 2.1 33.2 12.0 16.6 2.9 30.3 13.3 21.8 3.815 43.3 9.5 7.4 1.3 41.1 10.3 9.9 1.7 38.7 11.2 13.2 2.3 36.2 12.2 18.1 3.1 33.2 13.5 23.9 4.1
55°C / 60°C
5 32.1 8.7 4.5 0.8 30.3 9.5 6.1 1.0 28.5 10.4 8.3 1.4 26.5 11.4 10.9 1.9 24.0 12.8 14.4 2.57 34.4 8.9 4.8 0.8 32.5 9.7 6.5 1.1 30.5 10.6 8.8 1.5 28.4 11.6 11.6 2.0 25.9 12.9 15.5 2.712 39.8 9.2 5.6 1.0 37.7 10.1 7.5 1.3 35.5 11.0 10.3 1.8 33.2 12.0 13.6 2.3 30.3 13.3 18.2 3.115 43.3 9.5 6.1 1.0 41.1 10.3 8.2 1.4 38.7 11.2 11.2 1.9 36.2 12.2 14.8 2.6 33.2 13.5 19.9 3.4
150V
50°C / 55°C
5 42.0 10.6 7.1 1.2 40.0 11.7 9.6 1.7 37.9 12.8 12.9 2.2 35.6 14.0 17.8 3.1 32.7 15.6 23.5 4.07 44.9 10.8 7.6 1.3 42.8 11.8 10.3 1.8 40.5 13.0 13.8 2.4 38.2 14.2 19.1 3.3 35.1 15.8 25.3 4.312 52.3 11.2 8.9 1.5 49.7 12.3 11.9 2.1 47.1 13.5 16.0 2.8 44.4 14.7 22.2 3.8 41.0 16.4 29.5 5.115 56.8 11.6 9.7 1.7 54.1 12.7 13.0 2.2 51.3 13.8 17.4 3.0 48.3 15.1 24.2 4.2 44.8 16.8 32.3 5.5
55°C / 60°C
5 42.0 10.6 5.9 1.0 40.0 11.7 8.0 1.4 37.9 12.8 11.0 1.9 35.6 14.0 14.6 2.5 32.7 15.6 19.6 3.47 44.9 10.8 6.3 1.1 42.8 11.8 8.6 1.5 40.5 13.0 11.7 2.0 38.2 14.2 15.7 2.7 35.1 15.8 21.1 3.612 52.3 11.2 7.3 1.3 49.7 12.3 9.9 1.7 47.1 13.5 13.7 2.3 44.4 14.7 18.2 3.1 41.0 16.4 24.6 4.215 56.8 11.6 8.0 1.4 54.1 12.7 10.8 1.9 51.3 13.8 14.9 2.6 48.3 15.1 19.8 3.4 44.8 16.8 26.9 4.6
180V
50°C / 55°C
5 49.2 12.3 8.4 1.4 46.7 13.5 11.2 1.9 44.0 14.9 15.0 2.6 41.3 16.4 20.7 3.6 37.7 18.5 27.1 4.77 52.6 12.5 8.9 1.5 50.0 13.8 12.0 2.1 47.1 15.2 16.0 2.8 44.3 16.7 22.2 3.8 40.6 18.8 29.2 5.012 61.1 13.2 10.4 1.8 57.9 14.5 13.9 2.4 54.8 15.8 18.6 3.2 51.6 17.3 25.8 4.4 47.6 19.4 34.3 5.915 66.4 13.7 11.3 1.9 63.1 15.0 15.1 2.6 59.6 16.3 20.3 3.5 56.2 17.8 28.1 4.8 52.0 19.8 37.4 6.4
55°C / 60°C
5 49.2 12.3 6.9 1.2 46.7 13.5 9.3 1.6 44.0 14.9 12.8 2.2 41.3 16.4 16.9 2.9 37.7 18.5 22.6 3.97 52.6 12.5 7.4 1.3 50.0 13.8 10.0 1.7 47.1 15.2 13.7 2.3 44.3 16.7 18.2 3.1 40.6 18.8 24.4 4.212 61.1 13.2 8.6 1.5 57.9 14.5 11.6 2.0 54.8 15.8 15.9 2.7 51.6 17.3 21.2 3.6 47.6 19.4 28.6 4.915 66.4 13.7 9.3 1.6 63.1 15.0 12.6 2.2 59.6 16.3 17.3 3.0 56.2 17.8 23.0 4.0 52.0 19.8 31.2 5.4
200V
50°C / 55°C
5 56.0 14.8 9.5 1.6 52.8 16.3 12.7 2.2 49.5 18.1 16.8 2.9 46.4 19.9 23.2 4.0 42.1 22.2 30.3 5.27 60.3 15.1 10.3 1.8 57.0 16.6 13.7 2.4 53.5 18.3 18.2 3.1 49.9 20.2 25.0 4.3 45.5 22.5 32.8 5.612 69.9 15.9 11.9 2.0 66.1 17.5 15.9 2.7 62.2 19.1 21.1 3.6 58.2 21.0 29.1 5.0 53.3 23.3 38.4 6.615 75.9 16.5 12.9 2.2 71.9 18.0 17.3 3.0 67.8 19.7 23.1 4.0 63.4 21.5 31.7 5.5 58.1 23.9 41.8 7.2
55°C / 60°C
5 56.0 14.8 7.8 1.3 52.8 16.3 10.6 1.8 49.5 18.1 14.4 2.5 46.4 19.9 19.0 3.3 42.1 22.2 25.3 4.37 60.3 15.1 8.4 1.5 57.0 16.6 11.4 2.0 53.5 18.3 15.5 2.7 49.9 20.2 20.5 3.5 45.5 22.5 27.3 4.712 69.9 15.9 9.8 1.7 66.1 17.5 13.2 2.3 62.2 19.1 18.0 3.1 58.2 21.0 23.9 4.1 53.3 23.3 32.0 5.515 75.9 16.5 10.6 1.8 71.9 18.0 14.4 2.5 67.8 19.7 19.7 3.4 63.4 21.5 26.0 4.5 58.1 23.9 34.9 6.0
240V
50°C / 55°C
5 64.9 17.0 11.0 1.9 61.3 18.6 14.7 2.5 57.7 20.4 19.6 3.4 53.7 22.4 26.9 4.6 48.8 25.0 35.1 6.07 69.6 17.3 11.8 2.0 65.8 18.9 15.8 2.7 61.9 20.7 21.0 3.6 57.7 22.7 28.9 5.0 52.6 25.3 37.9 6.512 80.8 18.1 13.7 2.4 76.6 19.7 18.4 3.2 72.2 21.5 24.5 4.2 67.6 23.4 33.8 5.8 61.9 26.0 44.6 7.715 88.1 18.6 15.0 2.6 83.6 20.2 20.1 3.5 78.8 21.9 26.8 4.6 73.8 23.9 36.9 6.3 67.8 26.4 48.8 8.4
55°C / 60°C
5 64.9 17.0 9.1 1.6 61.3 18.6 12.3 2.1 57.7 20.4 16.7 2.9 53.7 22.4 22.0 3.8 48.8 25.0 29.3 5.07 69.6 17.3 9.7 1.7 65.8 18.9 13.2 2.3 61.9 20.7 18.0 3.1 57.7 22.7 23.7 4.1 52.6 25.3 31.6 5.412 80.8 18.1 11.3 1.9 76.6 19.7 15.3 2.6 72.2 21.5 20.9 3.6 67.6 23.4 27.7 4.8 61.9 26.0 37.1 6.415 88.1 18.6 12.3 2.1 83.6 20.2 16.7 2.9 78.8 21.9 22.9 3.9 73.8 23.9 30.3 5.2 67.8 26.4 40.7 7.0
45
AQU
ACIA
T2EV
OLU
TIO
N
HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
Cc: Gross acceptable cooling capacity for temperature difference, based on operating limits Pi: Gross power input of compressors + fans
Pde: Heating capacity recovered with the desuperheaterQde: Desuperheater water flow rate Standard conditions
Desuperheater partial recoVery
R4
10
A
LD / ILD
Desuperheater water tempera-
ture (°C)
Evaporatorwater outlettemperature
°C
CONDENSER AIR INLET TEMPERATURE IN °C25 30 35 40 46
Cc Pi Pde Qde Cc Pi Pde Qde Cc Pi Pde Qde Cc Pi Pde Qde Cc Pi Pde QdekW kW kW m3/h kW kW kW m3/h kW kW kW m3/h kW kW kW m3/h kW kW kW m3/h
300V
50°C / 55°C
5 78.8 22.5 13.4 2.3 74.9 24.7 18.0 3.1 70.7 27.1 24.0 4.1 66.3 29.6 33.2 5.7 61.0 32.6 43.9 7.67 84.5 23.1 14.4 2.5 80.1 25.2 19.2 3.3 75.6 27.6 25.7 4.4 71.0 30.1 35.5 6.1 65.4 33.2 47.1 8.112 97.6 24.2 16.6 2.9 92.6 26.5 22.2 3.8 87.5 28.9 29.8 5.1 82.3 31.4 41.2 7.1 76.2 34.6 54.9 9.415 106.0 25.1 18.0 3.1 100.6 27.3 24.1 4.2 95.0 29.7 32.3 5.6 89.4 32.3 44.7 7.7 83.2 35.5 59.9 10.3
55°C / 60°C
5 78.8 22.5 11.0 1.9 74.9 24.7 15.0 2.6 70.7 27.1 20.5 3.5 66.3 29.6 27.2 4.7 61.0 32.6 36.6 6.37 84.5 23.1 11.8 2.0 80.1 25.2 16.0 2.8 75.6 27.6 21.9 3.8 71.0 30.1 29.1 5.0 65.4 33.2 39.2 6.712 97.6 24.2 13.7 2.4 92.6 26.5 18.5 3.2 87.5 28.9 25.4 4.4 82.3 31.4 33.7 5.8 76.2 34.6 45.7 7.915 106.0 25.1 14.8 2.6 100.6 27.3 20.1 3.5 95.0 29.7 27.6 4.7 89.4 32.3 36.7 6.3 83.2 35.5 49.9 8.6
350V
50°C / 55°C
5 95 25.9 13.3 2.3 90 28.2 18.9 3.2 85 30.8 24.6 4.2 80 33.7 34.2 5.9 73 37.5 48.2 8.37 104 26.6 14.5 2.5 98 28.8 20.6 3.6 93 31.4 26.9 4.6 87 34.3 37.5 6.4 80 38.2 53.0 9.112 121 27.7 17.0 2.9 115 30.1 24.2 4.2 109 32.7 31.5 5.4 102 35.7 43.9 7.6 94 39.6 62.3 10.715 133 28.5 18.6 3.2 126 30.9 26.4 4.5 119 33.6 34.4 5.9 112 36.6 48.1 8.3 104 40.5 68.4 11.818 144 29.5 20.2 3.5 137 32.0 28.7 4.9 129 34.6 37.4 6.4 122 37.7 52.4 9.0
55°C / 60°C
5 95 25.9 10.4 1.8 90 28.2 15.3 2.6 85 30.8 21.2 3.6 80 33.7 27.8 4.8 73 37.5 39.5 6.87 104 26.6 11.4 2.0 98 28.8 16.7 2.9 93 31.4 23.2 4.0 87 34.3 30.5 5.2 80 38.2 43.4 7.5
12 121 27.7 13.3 2.3 115 30.1 19.6 3.4 109 32.7 27.2 4.7 102 35.7 35.7 6.1 94 39.6 51.0 8.815 133 28.5 14.6 2.5 126 30.9 21.4 3.7 119 33.6 29.7 5.1 112 36.6 39.1 6.7 104 40.5 56.0 9.618 144 29.5 15.8 2.7 137 32.0 23.2 4.0 129 34.6 32.3 5.5 122 37.7 42.6 7.3
400V
50°C / 55°C
5 109 29.1 15.2 2.6 104 31.7 21.7 3.7 98 34.7 28.4 4.9 92 37.9 39.5 6.8 84 42.0 55.5 9.57 117 29.6 16.4 2.8 111 32.3 23.4 4.0 105 35.2 30.5 5.2 99 38.4 42.5 7.3 91 42.6 59.9 10.312 136 30.9 19.1 3.3 130 33.6 27.3 4.7 123 36.6 35.6 6.1 116 39.8 49.7 8.5 107 44.0 70.3 12.115 149 31.9 20.9 3.6 142 34.5 29.8 5.1 134 37.5 38.9 6.7 126 40.7 54.3 9.3 117 45.0 77.0 13.218 162 32.9 22.6 3.9 154 35.6 32.4 5.6 146 38.5 42.3 7.3 137 41.8 59.0 10.1
55°C / 60°C
5 109 29.1 12.0 2.1 104 31.7 17.6 3.0 98 34.7 24.5 4.2 92 37.9 32.2 5.5 84 42.0 45.4 7.87 117 29.6 12.9 2.2 111 32.3 18.9 3.3 105 35.2 26.3 4.5 99 38.4 34.6 5.9 91 42.6 49.0 8.412 136 30.9 15.0 2.6 130 33.6 22.1 3.8 123 36.6 30.7 5.3 116 39.8 40.5 7.0 107 44.0 57.5 9.915 149 31.9 16.4 2.8 142 34.5 24.1 4.1 134 37.5 33.6 5.8 126 40.7 44.2 7.6 117 45.0 63.0 10.818 162 32.9 17.8 3.1 154 35.6 26.2 4.5 146 38.5 36.4 6.3 137 41.8 48.0 8.3
500V
50°C / 55°C
5 133 36.7 18.6 3.2 126 40.0 26.4 4.5 118 43.6 34.3 5.9 111 47.5 47.6 8.2 102 52.6 67.6 11.67 142 37.4 19.8 3.4 136 40.7 28.5 4.9 128 44.4 37.1 6.4 120 48.4 51.4 8.8 110 53.5 72.5 12.512 166 39.3 23.2 4.0 159 42.6 33.3 5.7 149 46.3 43.2 7.4 140 50.3 60.1 10.3 129 55.4 85.3 14.715 181 40.5 25.3 4.4 172 43.9 36.1 6.2 162 47.6 46.8 8.1 152 51.6 65.2 11.2 141 56.6 93.1 16.018 197 42.0 27.6 4.7 187 45.4 39.3 6.8 176 49.1 51.2 8.8 166 53.0 71.3 12.3
55°C / 60°C
5 133 36.7 14.6 2.5 126 40.0 21.4 3.7 118 43.6 29.6 5.1 111 47.5 38.8 6.7 102 52.6 55.3 9.57 142 37.4 15.6 2.7 136 40.7 23.0 4.0 128 44.4 32.0 5.5 120 48.4 41.8 7.2 110 53.5 59.3 10.212 166 39.3 18.2 3.1 159 42.6 27.0 4.6 149 46.3 37.2 6.4 140 50.3 48.9 8.4 129 55.4 69.8 12.015 181 40.5 19.9 3.4 172 43.9 29.2 5.0 162 47.6 40.4 6.9 152 51.6 53.1 9.1 141 56.6 76.2 13.118 197 42.0 21.7 3.7 187 45.4 31.8 5.5 176 49.1 44.1 7.6 166 53.0 58.1 10.0
540V
50°C / 55°C
5 145 37.8 20.3 3.5 138 41.5 29.0 5.0 130 45.5 37.8 6.5 122 49.9 52.5 9.0 112 55.7 73.9 12.77 156 38.5 21.8 3.8 148 42.1 31.1 5.4 140 46.1 40.6 7.0 131 50.6 56.5 9.7 120 56.3 79.5 13.712 181 40.1 25.4 4.4 173 43.8 36.2 6.2 163 47.8 47.3 8.1 153 52.2 66.0 11.3 141 58.0 93.3 16.015 198 41.3 27.7 4.8 188 44.9 39.5 6.8 178 48.9 51.7 8.9 168 53.3 72.1 12.4 155 59.1 102 17.6
55°C / 60°C
5 145 37.8 16.0 2.7 138 41.5 23.5 4.0 130 45.5 32.6 5.6 122 49.9 42.8 7.4 112 55.7 60.4 10.47 156 38.5 17.1 2.9 148 42.1 25.2 4.3 140 46.1 35.0 6.0 131 50.6 46.0 7.9 120 56.3 65.0 11.212 181 40.1 20.0 3.4 173 43.8 29.3 5.0 163 47.8 40.8 7.0 153 52.2 53.7 9.2 141 58.0 76.3 13.115 198 41.3 21.8 3.7 188 44.9 32.0 5.5 178 48.9 44.6 7.7 168 53.3 58.7 10.1 155 59.1 83.6 14.4
600V
50°C / 55°C
5 161 42.9 22.5 3.9 153 47.2 32.2 5.5 145 51.6 42.0 7.2 136 56.6 58.5 10.1 125 62.8 82.7 14.27 172 43.7 24.1 4.1 164 47.9 34.4 5.9 155 52.5 45.0 7.7 146 57.4 62.8 10.8 135 63.8 88.8 15.312 200 45.8 28.0 4.8 191 50.1 40.0 6.9 180 54.7 52.3 9.0 170 59.7 73.1 12.6 157 66.1 103 17.915 218 47.3 30.6 5.3 208 51.5 43.6 7.5 197 56.1 57.0 9.8 185 61.1 79.7 13.7 172 67.5 113 19.518 237 48.8 33.2 5.7 226 52.9 47.4 8.2 214 57.5 62.0 10.7 202 62.5 86.9 15.0
55°C / 60°C
5 161 42.9 17.7 3.0 153 47.2 26.0 4.5 145 51.6 36.2 6.2 136 56.6 47.6 8.2 125 62.8 67.7 11.67 172 43.7 18.9 3.3 164 47.9 27.9 4.8 155 52.5 38.8 6.7 146 57.4 51.1 8.8 135 63.8 72.7 12.512 200 45.8 22.0 3.8 191 50.1 32.4 5.6 180 54.7 45.1 7.8 170 59.7 59.5 10.2 157 66.1 85.0 14.615 218 47.3 24.0 4.1 208 51.5 35.3 6.1 197 56.1 49.2 8.5 185 61.1 64.9 11.2 172 67.5 92.9 16.018 237 48.8 26.1 4.5 226 52.9 38.4 6.6 214 57.5 53.5 9.2 202 62.5 70.8 12.2
700V
50°C / 55°C
5 171 49.3 24.0 4.1 162 53.7 34.1 5.9 153 58.7 44.3 7.6 145 64.1 62.4 10.7 133 71.1 87.7 15.17 182 50.2 25.5 4.4 172 54.7 36.1 6.2 163 59.5 47.3 8.1 152 65.0 65.4 11.2 139 72.1 92.0 15.812 195 51.5 27.3 4.7 185 56.0 38.9 6.7 175 61.0 50.6 8.7 165 66.5 70.8 12.2 151 73.8 99.5 17.115 210 52.8 29.4 5.1 200 57.4 41.9 7.2 188 62.4 54.5 9.4 176 67.9 75.6 13.0 163 75.5 107 18.518 246 56.4 34.5 5.9 232 61.0 48.6 8.4 220 66.4 63.9 11.0 209 72.0 89.7 15.4 193 80.3 127 21.9
55°C / 60°C
5 171 49.3 18.8 3.2 162 53.7 27.6 4.7 153 58.7 38.2 6.6 145 64.1 50.8 8.7 133 71.1 71.8 12.37 182 50.2 20.0 3.4 172 54.7 29.3 5.0 163 59.5 40.8 7.0 152 65.0 53.2 9.2 139 72.1 75.3 12.912 195 51.5 21.5 3.7 185 56.0 31.5 5.4 175 61.0 43.6 7.5 165 66.5 57.6 9.9 151 73.8 81.4 14.015 210 52.8 23.1 4.0 200 57.4 33.9 5.8 188 62.4 47.0 8.1 176 67.9 61.5 10.6 163 75.5 88.1 15.118 246 56.4 27.1 4.7 232 61.0 39.4 6.8 220 66.4 55.1 9.5 209 72.0 73.0 12.6 193 80.3 104 17.9
46 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
total recoVeryLD-C-H 350V-600V seriesThe LD-C-H 350V to 600V cooling only versions of the water chillers can be equipped on request with one or more water condensers to ensure total recovery of the discharged heat.
This provides an economical means of producing hot water (+30°C and +50°C max) while the machine is operating in cooling mode.
This technical configuration is particularly suited to industrial or special applications requiring large amounts of heat during the production of chilled water.
Depending on the season and the signal sent via remote control to the unit, chilled water is produced either economically by means of air-cooled condensation, or by means of water-cooled condensation with the highest possible hot water production temperature
n Operating principle and precautions for the hydraulic connectionsTwo conditions are necessary to operate a device in total recovery mode: firstly two dry contacts (to be supplied) must be installed on-site and secondly these must be wired in series:A first potential-free (dry) contact (to be wired on the electronic board) must send a signal to the unit to tell it which operating mode is being requested:- Standard operation using the air-cooled condenser,- Operation in recovery mode on the hot water circuit.A second contact, installed in series with the first, must send a signal to the device to indicate that the maximum temperature has been reached by the recovery condenser hot water outlet (max. +50°C), and that the device must therefore stop recovery mode and switch to standard operation using the air-cooled condenser.In total recovery mode on the hot water circuit, the air-cooled condenser merely rejects the non-recovered heating capacity from the water-cooled condenser to the outdoor air.
On the 540V and higher models, two separate hydraulic circuits must be connected to the hot water supply (one per recovery condenser).A water filtration system must be installed on the inlet to each heat exchanger. It is also recommended that flexible connectors (optional) be used for the hydraulic connections.
In order to ensure that the unit can start and operate under the proper conditions, the recovery condenser water loop must be as short as possible.
The system must warm up gradually so as to always ensure a water temperature of at least +30°C at the condenser outlet.
We therefore recommend a hydraulic circuit configuration that enables hot water at this temperature to be obtained in the recovery condenser (three-way valve + controller + sensor on recovery condenser water outlet).The thermostat setpoint must be at least +30°C.
n Refrigeration circuit diagramThe attached refrigerating diagram illustrates a 350V to 500V size cooling-only unit equipped with a recovery water cooled condenser on the refrigerating circuit.
For heat recovery to be possible, the unit must be powered on following a request for chilled water production.
With equal cooling capacity, the recovery condenser can be used to produce hot water for free..
Temperature threshold +50°C
MAX.
RECOVERY control
TERMINAL BLOCK J6
Example: contacts on CONNECT2 board
Discharge
Water
Water-cooled condenser
Air-cooled condenser
Oil BP
BP
HP
HP
Compressor 1
Compressor 2
Evaporator Water
Example: LD 350V to 700V
Total Recovery
option
Condenser
Condenser
Max Heating
47
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
LD-LDC-LDH 350V 400V 500V 540V 600V
Condenser recovery (Hc in kW) * 114.5 129.9 164.1 175.9 197.5
No. of recovery circuits 1 1 2 2 2
Refrigerant charge (kg) 55 55 49+49 52+52 50+50
Water connections G 2"1/2 M G 2"1/2 M
Maximum water fl ow rate (m3/h) 33.2 33.2 49.5 49.5 49.5
H - Standard fan (mm) 2117 2117 2117 2117 2117
L (mm) 2190 2190 2190 2740 2740
P (mm) 2129 2129 2129 2129 2129
LDWeight when empty (kg) 1205 1305 1442 1739 1875
Weight in operation (kg) 1225 1325 1462 1762 1900
LDCWeight when empty (kg) 1305 1408 1513 1933 2054
Weight in operation (kg) 1325 1438 1534 1968 2089
LDHWeight when empty (kg) 1366 1473 1577 1997 2277
Weight in operation (kg) 1636 1743 1847 2277 2397
(*) Note: recovery performance (gross) based on:- Machine running at full load, chilled water +12°C/+7°C- Recovery hot water temperature +40°C/+45°C
Total Recovery water condenser pressure drops
Note: refer to the unit dimensions to determine the exact position of the hydraulic connections.
Total Recovery technical data
Position of Total Recovery exchangers5: Condenser hot water inlet6: Condenser hot water outlet
(*) Note: the hydraulic pressure drops do not take into account the filter that must be installed at the exchanger inlets.
LD-C-H 350V-400V LD-C-H 500V-600V
Water flow rate (m3/h)
Wat
er p
ress
ure
drop
(k
Pa)
48 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
total recoVery
R4
10
AT
OTA
L R
EC
OV
ER
Y
LDLDCLDH
Water outlet tempera-ture at evaporator °C
RECOVERY CONDENSER WATER OUTLET TEMPERATURE °C
30 35 40 45 50
CckW
PikW
HckW
CckW
PikW
HckWs
CckW
PikW
HckW
Pf-CckW
PikW
HckW
CckW
PikW
HckW
350V
Glycol/water mix
-12 43.8 18.1 62.0 41.5 20.0 61.5 38.4 22.0 60.4
-10 52.0 18.5 70.6 49.8 20.4 70.2 46.5 22.4 68.9 43.8 24.8 68.6 40.1 27.3 67.4
-8 56.6 18.7 75.4 53.8 20.6 74.4 50.9 22.7 73.6 47.7 25.1 72.8 44.0 27.6 71.6
-4 66.3 19.1 85.3 63.6 21.1 84.7 59.8 23.2 83.0 55.7 25.6 81.3 51.9 28.3 80.2
0 78.4 19.4 97.8 74.8 21.4 96.2 70.3 23.6 93.9 65.8 26.1 91.9 61.4 28.9 90.3
Pure water
5 95.5 19.9 115.4 91.4 21.9 113.3 86.9 24.2 111.0 81.7 26.7 108.4 76.4 29.6 106.0
7 104.3 20.1 124.5 98.6 22.1 120.6 93.8 24.3 118.1 87.6 26.9 114.5 81.6 29.7 111.3
12 123.2 20.7 143.9 117.3 22.6 139.9 111.2 24.8 136.0 103.7 27.4 131.1 97.2 30.2 127.4
15 135.9 21.1 157.1 129.5 23.0 152.4 122.0 25.2 147.1 114.5 27.7 142.2 107.0 30.5 137.5
18 149.7 21.6 171.3 142.5 23.4 165.9 134.6 25.5 160.1 126.7 28.1 154.7 118.1 30.9 148.9
400V
Glycol/water mix
-12 55.3 21.2 76.5 52.2 23.4 75.6 49.2 25.7 74.9 45.9 28.3 74.2
-10 60.6 21.5 82.1 56.6 23.6 80.3 53.8 26.1 79.9 50.1 28.7 78.8 46.0 31.6 77.6
-8 65.3 21.7 87.0 61.5 23.9 85.4 58.1 26.4 84.5 54.2 29.1 83.3 50.6 32.1 82.7
-4 75.6 22.0 97.7 72.0 24.4 96.4 67.9 27.0 94.9 63.7 29.8 93.5 59.0 32.8 91.8
0 88.9 22.5 111.4 84.4 24.8 109.2 79.6 27.4 107.0 75.2 30.3 105.5 69.9 33.5 103.4
Pure water
5 109.7 23.0 132.7 104.7 25.3 130.0 99.0 28.0 127.0 92.7 30.9 123.7 85.9 34.1 120.0
7 117.4 23.2 140.6 111.8 25.5 137.3 105.7 28.2 133.9 98.8 31.1 129.9 92.4 34.3 126.7
12 138.9 23.8 162.6 132.3 26.0 158.3 124.9 28.7 153.5 117.0 31.6 148.6 109.2 34.8 143.9
15 153.2 24.2 177.4 146.7 26.4 173.1 137.7 29.0 166.7 129.4 31.9 161.2 120.6 35.1 155.6
18 168.4 24.7 193.1 160.8 26.8 187.6 152.3 29.3 181.6 142.2 32.2 174.3 132.8 35.3 168.1
500V
Glycol/water mix
-12 70.0 26.2 96.2 66.3 28.9 95.2 62.9 31.7 94.6 58.6 35.2 93.8
-10 76.4 26.5 102.9 71.9 29.2 101.2 68.1 32.1 100.2 63.1 35.5 98.6 58.9 39.3 98.2
-8 82.6 26.8 109.4 77.7 29.5 107.3 73.1 32.5 105.6 68.9 36.0 104.9 63.8 39.7 103.5
-4 95.9 27.4 123.3 90.6 30.2 120.7 85.3 33.2 118.5 80.2 36.6 116.8 74.7 40.5 115.3
0 113.7 28.0 141.7 108.0 30.8 138.8 101.5 33.9 135.5 94.4 37.5 131.9 88.3 41.3 129.5
Pure water
5 140.0 28.8 168.8 132.9 31.6 164.5 125.2 34.7 160.0 117.2 38.3 155.5 108.7 42.1 150.8
7 150.0 29.0 179.0 142.4 31.8 174.2 134.3 35.0 169.3 125.5 38.5 164.1 117.0 42.4 159.4
12 176.0 29.7 205.8 168.1 32.4 200.5 159.0 35.7 194.7 148.7 39.2 187.9 138.6 43.1 181.7
15 195.6 30.1 225.7 186.3 32.9 219.1 175.3 36.1 211.3 164.5 39.6 204.1 153.3 43.5 196.8
18 214.9 30.6 245.4 205.0 33.4 238.3 193.4 36.5 229.9 181.6 40.0 221.6 171.2 44.0 215.2
540V
Glycol/water mix
-12 70.5 28.0 98.5 67.7 30.9 98.6 62.8 34.1 96.9
-10 82.2 28.4 110.7 77.8 31.6 109.3 72.4 34.9 107.3 67.3 38.5 105.8 60.8 42.6 103.4
-8 88.8 28.6 117.4 84.5 31.9 116.3 79.0 35.3 114.3 73.3 39.1 112.4 65.8 43.1 108.9
-4 103.0 29.1 132.0 99.1 32.3 131.5 92.9 36.0 128.8 86.4 39.9 126.3 79.4 44.2 123.6
0 119.4 29.4 148.8 116.0 32.7 148.8 109.3 36.5 145.8 101.9 40.6 142.5 94.1 45.0 139.1
Pure water
5 147.1 29.9 177.0 141.9 33.2 175.1 133.8 37.0 170.8 125.5 41.2 166.7 116.4 45.8 162.1
7 159.8 30.2 190.0 152.5 33.4 185.9 143.8 37.2 180.9 134.5 41.4 175.9 125.2 46.0 171.1
12 189.1 31.0 220.0 179.3 34.0 213.2 169.6 37.6 207.2 158.7 41.8 200.5 147.8 46.4 194.1
15 204.8 31.5 236.3 196.9 34.4 231.3 186.7 38.0 224.7 174.5 42.0 216.6 162.1 46.6 208.7
18 225.9 32.3 258.3 216.3 35.0 251.3 204.3 38.4 242.7 191.8 42.4 234.2 178.9 46.9 225.8
600V
Glycol/water mix
-12 84.2 32.2 116.5 78.8 35.3 114.1 74.7 39.0 113.6 70.3 42.8 113.1
-10 92.0 32.6 124.5 86.7 36.0 122.7 81.7 39.7 121.4 76.3 43.5 119.8 69.6 47.6 117.2
-8 99.1 32.8 131.9 93.8 36.4 130.2 89.2 40.2 129.4 83.3 44.3 127.6 75.9 48.4 124.3
-4 115.0 33.3 148.3 109.4 37.0 146.4 104.0 41.0 145.0 97.2 45.3 142.5 89.5 49.8 139.3
0 135.1 33.7 168.8 128.6 37.4 166.0 121.7 41.6 163.4 113.8 46.1 160.0 105.9 50.9 156.8
Pure water
5 164.9 34.3 199.2 157.6 38.0 195.6 148.4 42.3 190.7 140.7 46.9 187.6 131.0 51.9 182.9
7 176.4 34.6 211.0 168.6 38.2 206.8 160.3 42.5 202.8 150.4 47.1 197.5 139.9 52.1 192.1
12 208.8 35.6 244.5 199.1 39.0 238.1 188.3 43.0 231.3 177.2 47.6 224.8 165.2 52.7 217.9
15 229.7 36.4 266.1 217.5 39.5 257.0 207.8 43.5 251.3 195.4 48.0 243.4 181.9 52.9 234.9
18 250.6 37.4 288.0 240.3 40.3 280.7 228.0 44.0 272.1 213.9 48.4 262.3 200.3 53.4 253.6
49
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
lD - ilD eXchanger pressure DropsEvaporator(do not extrapolate)
4 5 6 7 8 9 10 15 20 30 40 50 60 70 8031
8
7
910
15
20
6
5
4
3
2.5
1.5
2
-700
→ W
ater
pre
ssur
e dr
op (m
WC
)→
Wat
er p
ress
ure
drop
(mW
C)
→ Water flow rate in m3/h
→ Water flow rate in m3/h
8
6
4
4 5 6 7 8 9 10 15 20 30 40 50 60 70 803
2
10.8
0.6
0.4
0.2
0.1
350-400-500-540-600-700
Filter(compulsory)
50 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
15080-9
0
100-120
pressure Drop for lDc - lDh - ilDc - ilDh eXchangersAQUACIAT2 / sizes 80 to 150Evaporator and hydraulic circuits(do not extrapolate)
Single pumps
51
→ W
ater
pre
ssur
e dr
op (m
WC
)
→ Water flow rate in m3/h
→ P
ump
head
for t
he p
ump
(mW
C)
→ Water flow rate in m3/h
51
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
pressure Drop for lDc - lDh - ilDc - ilDh eXchangersAQUACIAT2 / sizes 180 to 300Evaporator and hydraulic circuits(do not extrapolate)
Single pumps or 2 single pumps in parallel
300
→ W
ater
pre
ssur
e dr
op (m
WC
)
→ Water flow rate in m3/h
52
51
→ P
ump
head
for t
he p
ump
(mW
C)
→ Water flow rate in m3/h
52 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
pressure Drop for lDc - lDh - ilDc - ilDh eXchangersAQUACIAT2 / sizes 350 to 700Evaporator and hydraulic circuits(do not extrapolate)
20
25
4
56
2
1
8
1.5
10
15
3
20 25 30 35 40 45 5010 15
500-540
600
700
Single pumps 140-138-139-117-118-119 or dual pumps (240-238-239-217-218-219)
139
138
140
239
240
238
151251
152
252
→ W
ater
pre
ssur
e dr
op (m
WC
)
→ Water flow rate in m3/h
→ P
ump
head
for t
he p
ump
(mW
C)
→ Water flow rate in m3/h
53
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
Desuperheater pressure DropsAQUACIAT2 EVOLUTION
→ W
ater
pre
ssur
e dr
op (m
WC
)
→ Water flow rate in m3/h
54 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
DiMensionsAQUACIAT2 sizes 80 - 90
4 removable lifting lugs
holes Ø 20.5 Wooden handling blocks to be removed when installing
Outdoor air discharge
Outdoor air intake
5: G 1/2" M hot water inlet6: G 1/2" M hot water outlet1: G 1"1/4 M chilled water inlet2: G 1"1/4 M chilled water outletE: Power supply Ø 80
AQUACIAT2Position of mounts Anti-vibration
mounts Weight (kg)
A B C D empty in operation
LD 80
250 1284 250 P25 50 x 100
347 352
90 350 355
LDC 80 365 370
90 368 373
LDH 80
140 1114 490 P25 50 x 120390 495
90 393 498
ILD 80
250 1284 250 P25 50 x 100
328 333
90 331 336
ILDC 80 346 351
90 349 354
ILDH 80
140 1114 490 P25 50 x 120371 476
90 374 479
Leave a space of 1 metre around the unit for maintenance
974 x 957 (int) connection sleeve (option)
Connection frame (option)
XTRAFAN OPTION
55
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
DiMensionsAQUACIAT2 sizes 100 to 150
Outdoor air discharge
Outdoor air intake
5: G 1/2" M hot water inlet6: G 1/2" M hot water outlet1: G 1"1/2 M chilled water inlet2: G 1"1/2 M chilled water outletE: Power supply Ø 80
4 removable lifting lugs
holes Ø 20.5 Wooden handlingblocks to be removedwhen installing
Leave a space of 1 metre around the unit for maintenance
AQUACIAT2Position of mounts Anti-vibration
mounts Weight (kg)
A B C D empty in operation
LD 100
250 1284 250 P25 50 x 100365 370
120 367 372
150 240 1264 240 P25 50 x 120 449 454
LDC 100
250 1284 250 P25 50 x 100383 388
120 385 390
150 240 1264 240 P25 50 x 120 467 472
LDH 100
125 1084 475 P25 50 x 150
407 562
120 409 564
150 492 647
ILD 100
250 1284 250 P25 50 x 100366 371
120 368 373
150 240 1264 240 P25 50 x 120 452 457
ILDC 100
250 1284 250 P25 50 x 100384 389
120 386 391
150 240 1264 240 P25 50 x 120 470 475
ILDH 100
125 1084 475 P25 50 x 150
409 564
120 411 566
150 495 650
974 x 957 (int) connection sleeve (option)
Connection frame (option)
XTRAFAN OPTION
56 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
DiMensionsAQUACIAT2 LD - LDC - ILD - ILDC sizes 180 to 300
AQUACIAT2Position of mounts Anti-vibration mounts Weight (kg)
A B C D E empty in operation
LD
180
100
1260 328 P25 50 x 150P25 50 x 150
569 575
200 575 579
240 581 585
300 1138
400 P25 50 x 200
711 717
LDC
1801168 P25 50 x 120
616 621
200 619 623
240 625 629
300 1088 P25 50 x 200 756 760
ILD
180150 1218 300
P25 50 x 200
P25 50 x 120
611 615
200 614 618
240 620 624
300
100
1088 400 P25 50 x 200 756 760
ILDC
1801188 350 P25 50 x 150
648 652
200 651 655
240 656 660
300 1088 400 P25 50 x 200 789 793
Outdoor air discharge
Outdoor air intake
5: G1" M hot water inlet6: G1" M hot water outlet1: G 2" M chilled water inlet2: G 2" M chilled water outletE: Power supply Ø 80
4 removable lifting lugs
holes Ø 20.5 Wooden handling blocks to be removed when installing
Leave a space of 1 metre around the unit for maintenance
974 x 957 (int) connection sleeve (option)Connection frame (option)
XTRAFAN OPTION
57
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
DiMensionsAQUACIAT2 LDH - ILDH sizes 180 to 300
AQUACIAT2Position of mounts Anti-vibration mounts Weight (kg)
A B C D E F G empty in operationLDH 180
196 600 1156 196 P25 50 x 200 P25 50 x 200 P25 50 x 120
813 1017
ILDH 180 845 1049
LDH 200 816 1020
ILDH 200 848 1052
LDH 240 822 1026
ILDH 240 853 1057
LDH 300196 600 1076 196 P25 50 x 200 P25 50 x 200 P25 50 x 200
953 1157
ILDH 300 986 1190
Outdoor air discharge
Outdoor air intake
4 removable lifting lugs
holes Ø 20.5 Wooden handlingblocks to be removedwhen installing
5: G1" M hot water inlet6: G1" M hot water outlet1: G 2" M chilled water inlet2: G 2" M chilled water outletE: Power supply Ø 80Leave a space of 1 metre around
the unit for maintenance
HM
HM = Hydraulic module supplied separately.
974 x 957 (int) connection sleeve (option)
Connection frame (option)
XTRAFAN OPTION
58 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
DiMensionsAQUACIAT2 sizes 350 to 500
385
330330
663
500350 - 400
1b
1b
903
278
Outdoor air discharge
Outdoor air intake
4 removable lifting lugs
holes Ø 20.5
Wooden handling blocks to be removed when installing
5: G1"1/2 M hot water inlet6: G1"1/2 M hot water outlet
E: Power supply Ø 60Leave a space of 1 metre around the unit for maintenance
1a-1b: DN 80 chilled water inlet2a -2b: DN 80 chilled water outlet
XTRAFAN OPTION with connection sleeve
Position of hydraulic connections
Size K Pump Chilled water inlet Chilled water outletLD - ILD 1a 2a
LDC - ILDC 330No.140-240-138-238-139-239
1b 2aNo.117-217-118-218-119-219
LDH - ILDH 330No.140-240-138-238-139-239
1b 2bNo.117-217-118-218-119-219
AQUACIAT2Position of mounts Anti-vibration mounts Hydraulic connection position Weight (kg)
A B C D Qty F G H empty in operationLD 350
150 422.5 P25 50 x700 4 311
411
1064 1084ILD 350 1096 1116LD 400 1163 1183ILD 400 1195 1215LD 500 1245 1265ILD 500 1283 1303LDC 350 1162 1182ILDC 350 1194 1224LDC 400 1268 1298ILDC 400 1292 1322LDC 500 1315 1336ILDC 500 1355 1385LDH 350
150 422.5 742,25 P25 50 x700 6 549
1233 1503ILDH 350 1257 1527LDH 400 1332 1602ILDH 400 1356 1626LDH 500 1380 1650ILDH 500 1418 1688
59
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
DiMensionsAQUACIAT2 sizes 540 to - 700
423385
1b
423
2040
278
Outdoor air discharge
Outdoor air intake
5: G1"1/2 M hot water inlet6: G1"1/2 M hot water outlet
E: Power supply Ø 60
Wooden handling blocks to be removed when installing
4 removable lifting lugs
holes Ø 20.5
Leave a space of 1 metre around the unit for maintenance
Size K Pump Chilled water inlet Chilled water outletLD - ILD 1a 2a
LDC - ILDC 330No.140-240-138-238-139-239
1b 2aNo.117-217-118-218-119-219
LDH - ILDH 330No.140-240-138-238-139-239
1b 2bNo.117-217-118-218-119-219
1a-1b: DN80 chilled water inlet2a -2b: DN80 chilled water outlet
XTRAFAN OPTIONwith connection sleeve
Position of hydraulic connections
AQUACIAT2Position of mounts Anti-vibration mounts Hydraulic connection position Weight (kg)
A B C D Qty F G H empty in operationLD 540
150 422.5 1017,5 P25 50 x700 6
271
661
1530 1553ILD 540 1570 1593LD 600 1666 1691ILD 600 1706 1731LD 700 1732 1757ILD 700 1878 1903LDC 540
150 422.5 445 P25 50 x700 8
1725 1760ILDC 540 1675 1710LDC 600 1845 1880ILDC 600 1804 1839LDC 700 1911 1946ILDC 700 1976 2011LDH 540
550
1790 2070ILDH 540 1748 2028LDH 600 1908 2188ILDH 600 1868 2148LDH 700 1974 2254ILDH 700 2040 2320
60 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
Water chillersHeat pumps
AQUACIAT2EVOLUTION
fiXing of fraMes to grounDAQUACIAT LD - LDC - LDH - ILD - ILDC - ILDH sizes 80 V to 300 V
fiXing of fraMes to grounDAQUACIAT LD - LDC - LDH - ILD - ILDC - ILDH sizes 350 V to 700 V
350V 400V 500V 540V 600V 700VL1 281 281
L2 281 281
L3 2122,5 2122,5
L4 2184,5 2734,5
LD - LDC - LDH - ILD - ILDC - ILDH LD - LDC - ILD - ILDC LDH - ILDH80V 90V 100V 120V 150V 180V 200V 240V 300V 180V 200V 240V 300V
L1 316 316 316
L2 316 316 316
L3 - - 336
L4 1045 1044 1044
L5 1984 1988 -
L6 - - 2668
The frame may be affixed to the ground.
(mounts with bolts NOT supplied by CIAT).
The hardness is defined by the unit’s weight and
centre of gravity.
The frame may be affixed to the ground.
(mounts with bolts NOT supplied by CIAT).
The hardness is defined by the unit’s weight and
centre of gravity.
Coi
l sid
e
Coil side
Top view of FRAME
L6L5
L2 L1
∅20,5
L3
3030
L4
Coil side Electrical box side
MH
Hyd
raul
ic m
odul
e si
de
(ver
sion
H)
Top view of FRAME
Ele
ctric
al b
ox s
ide
L3L2
L2
L1
L1
3030
L4
Hyd
raul
ic m
odul
e si
de
(ver
sion
C -
H)∅20,5
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HEAT PUMPS - AIR CONDITIONING - REFRIGERATION - AIR HANDLING - HEAT EXCHANGE - NA 15.590 B
Water chillersHeat pumps
eXaMples of hyDraulic connection DiagraMsChilled water - hot water hydraulic circuit
Hot water circuit during partial recovery (desuperheater)
Domestic hot waterpre-heating
Direct domestichot water production
DHW loop
Cold water
Chilled water - hot water circuit
DESUPERHEATEROPTION
Note: the schematic installation diagrams are provided for information only. Under no circumstances do they constitute actual installation diagrams.
62 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
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AQUACIAT2EVOLUTION
eXaMples of hyDraulic connection DiagraMsHot water circuit with total recovery (water-cooled condenser)
AquaCiat2 : air-to-water reversible unit vr : control valvepsl : zero pump water pressure switch s : safety valvev3v : three-way valve pe : circulating pumpv2v : two-way valve t : temperature sensor pockete : expansion vessel rb : extra heaterc : retaining valve FS : water flow regulatorm : pressure gauge ds : desuperheatera : water top-up STL : latent cold storage tankb : mixing tank ev : solenoid valver : shut-off valve cd : water-cooled condenser
Parallel type diagram
chilledwater circuit
Note: the schematic installation diagrams are provided for information only. Under no circumstances do they constitute actual installation diagrams.
Chilled water circuit with cool energy storage (parallel diagram)
Functional analysis depending on the operating mode StatusHydraulic circuit components Pd Pch ev1 ev2 ev3 v3v GF Chiller setpoint
Storage only 0 1 1 0 1 0 1 Night
Direct production 1 1 0 1 1 R 1 Day
Discharge only 1 0 0 0 0 R 0 -
Direct production + Discharge 1 1 0 1 1 R 1 Day
Direct production + Storage 1 1 1 0 1 R 1 Night
R -> Control active 0 -> Closed 1 -> Open
General comments:p: air vents at pipe high points v: drain nozzles at pipe low points
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Water chillersHeat pumps
aquaciat2EVOLUTION
Installation recommendationsn Water quality criteria to be respectedWarning: it is essential that an 800-micron water filter be placed on the unit's water inlet during installation.The quality of the water used has a direct impact on the correct operation of the unit and its service life. This is particularly true if the water used clogs or corrodes components or promotes the growth of algae or microorganisms.The water must be tested to determine whether it is suitable for the unit and whether chemical treatment will suffice to make it of acceptable quality and if a water softening/demineralising system should be installed.The results of the analysis must confirm whether the site's water is compatible with the various materials used on the CIAT unit's circuit:- 99.9% copper tubes brazed with copper and silver,- threaded bronze couplings or flat steel flanges, depending
on the unit model,- plate heat exchangers and connections made of AISI 316/
DIN 1.4401 stainless steel brazed with copper and silver.Warning: the warranty will be voided if these instructions are not followed.
n Lifting and handlingThe utmost safety precautions must be taken when lifting and handling the unit.Always follow the lifting diagram affixed to the unit and the installation, operation, system start-up and maintenance manual.Before attempting to lift the unit, make sure the path leading to its intended location is free from obstacles.Always keep the unit vertical when moving it. Never tip it or lie it on its side.
n Choosing a location for the unitThe standard version of AQUACIAT2 is designed for outdoor installation.Precautions should be taken to protect it from freezing temperatures.Special attention should be paid to ensure sufficient free space (including at the top) to allow maintenance.The unit must be placed on a perfectly level, fireproof surface strong enough to support it once charged.Noise pollution from auxiliary equipment such as pumps should be studied thoroughly.Depending on the room and its structure, potential noise transmission routes should be studied, with assistance from an acoustical engineer if necessary, before installing the unit.Flexible couplings must be placed over pipes (available as options).Reversible units installed in areas of snowfall or heavy frost should be raised approx. 300 mm off the floor or ground.On reversible units, the steam and defrosted water must be properly evacuated during defrosting cycles.
n Installation in a machine roomInstallation in a machine room, if required, gives rise to special technical precautions, such as:- the draining of defrosted water, including during periods of
very low outdoor temperatures,- the management of water vapour created at the fan discharge
during defrosting- ground which can support the weight of the unit and which
must be perfectly watertight and capable of collecting and draining the defrosted water, including during freezing periods,
- under no circumstances should the weight of an air discharge sleeve be supported by the roof of the unit.
In accordance with the regulations in force in the place in which the machine is to be installed, installation within a machine room must comply with certain ventilation rules for fresh air to ensure there is no risk of discomfort or hazard in the event of a refrigerant leak.
n Assembly of separately supplied accessoriesA number of optional accessories may be supplied separately and installed on the unit on site.Always follow the instructions in the installation, operation, system start-up and maintenance manual
n Electrical connectionsAlways follow the instructions in the installation, operation, system start-up and maintenance manual.All information concerning electrical connections is stated on the wiring diagrams provided with the unit. Always follow this information to the letter.Electrical connections must be made in accordance with best current practices and applicable standards and regulations.Electrical connections to be made on site:. unit's power supply,. outdoor operation authorisation (optional). information feedback (option)It should be noted that the unit's electrical system is not protected against lightning strikes.Therefore components to protect against transient voltage surges must be installed on the system and inside the power supply unit.The frame of the unit must be earthed.
64 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
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n Pipe connectionsAlways follow the instructions in the installation, operation, system start-up and maintenance manual.All pipes must be correctly aligned and slope toward the system’s drain valve.Pipes must be installed to allow sufficient access to the panels and fitted with heat insulation.Pipe mountings and clamps must be separate to avoid vibrations and placing pressure on the unit.Water shut-off and control valves must be fitted when the unit is installed.- Pipe connections to be made on site:
. System water supply with pressure-reducing valve,
. Evaporator, condenser and drain,- Accessories essential to any hydraulic system must also be
installed, such as:. A thermostatic valve on the condenser water inlet or outlet
to regulate the flow of cooling water (heat pump in heating mode).
. A water expansion vessel,
. Drain nozzles at pipe low points,
. Exchanger shut-off valves equipped with filter,
. Air vents at pipe high points,
. Check the system's water capacity (install a buffer water tank if necessary),
. Flexible couplings on exchanger inlets and outlets,
. Manual water flow rate control valves,
. Thermometers on each water inlet and outlet to allow all the necessary checks during start-up and maintenance.
Warning:- Pressure in the water circuits below 4.0 bar.- Place the expansion vessel before the pump.- Do not place any valves on the expansion vessel.- Make sure the water circulation pumps are placed directly at
the exchanger inlets.- Make sure the pressure of the water drawn in by the circulation
pumps is greater than or equal to the required minimum NPSH, particularly if the hydraulic circuits are "open".
- Test the water quality in accordance with the relevant technical requirements.
- Take the necessary precautions to protect the unit and hydraulic system from freezing temperatures (e.g. allow for the possibility of draining the unit). If glycol is added to prevent freezing, check its type and concentration beforehand.
- Before making any final hydraulic connections, flush the pipes with clean water to remove any debris.
n System start-upAQUACIAT2 units must be commissioned by CIAT or a CIAT-approved firm.Always follow the instructions in the installation, operation, system start-up and maintenance manual.Partial list of precommissioning checks:- Correct positioning of unit,- Power supply protections,- Phases and direction of rotation,- Wiring connections on unit,- Direction of water flow in unit,- Cleanliness of water circuit,- Adjusting water flow rate to specified value,- Pressure in the refrigeration circuit,- Direction of rotation of compressors,- Water pressure drops and flow rates,- Operating readings.
n Maintenance operationsSpecific preventive maintenance operations must be carried out regularly on the unit by CIAT-approved firms.The operating parameters are read and noted on a "CHECK LIST" form to be returned to CIAT.For this, it is essential to comply with the Instructions, Installation, Operation, System Start-up and Maintenance Manual.You must take out a maintenance contract with a CIAT-approved refrigeration equipment specialist. Such a contract is required even during the warranty period.
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USER-FRIENDLY INTERFACE CONSOLE- LCD display (4 lines of 24 characters each)- Pressure and temperature readings- Diagnosis of operation and fault states- Master/slave control of two machines in parallel- Fault memory management - Pump management- Time schedules- Remote control
Smart CIATControl
MULTICONNECT MULTI-UNIT MANAGEMENT (option) Main functions available:- Management of up to 8 units on a single water loop- Management in cooling mode (water chiller) or heating
mode (heat pump)- Management of chilled-water or hot-water pumps- Centralised management of a back-up unit- Machine load shedding- System time programming- Energy storage mode management- Unit running time balancing
Communication with Hysys system (generator, transmitter, air handling unit), controlled by an Easy CIATcontrol or Smart CIATcontrol touch tablet.
• Logging of consumption data and temperatures• Optimal Water®: optimisation of producer performance
based on building requirements• Optimal Stop and Start: optimisation of the building
restart time
Communication with CIAT Energy pool controlled by Power’Control.
Integrated Power’Control:• Energy optimisation of refrigeration and heating using several
generators, • Manages free cooling capacity • Uses heat recovery to supply domestic hot water.
POTENTIAL-FREE (DRY) CONTACTS AVAILABLE AS STANDARD Inlets: - Automatic operation control - Selection of setpoints 1 / 2 - Setpoint adjustable by 4-20 mA signal - Heating/cooling mode selection - Compressor load shedding
Outlets: - General fault reporting - Pump control
Additional outlets available as options: - Water flow fault - Frost protection fault - Pump fault - Fan fault (air-to-water machine) - Low and high pressure fault - Compressor safety fault - Discharge temperature fault - Compressor operating status
OUTLET AS STANDARD- Open MODBUS-JBUS RS 485 protocol (standard)- MODBUS-ETHERNET TC/IP protocol (standard)- LONWORKS protocol (option)- BACNETprotocol (option)
PRODUCT FUNCTIONALITY
CIAT SYSTEM FUNCTIONALITY
Via dry contact
Via BUS communication
COMMUNICATIONCustomer CMS
Power’Control
connect 2 control
66 heat pumps - aIR CONDItIONING - RefRIGeRatION - aIR haNDlING - heat exChaNGe - Na 15.590 B
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TàP FRANCAIS ou plusieurs langues
TàP ANGLAIS
TàP ALLEMAND
TàP ESPAGNOL
TàP ITALIEN
Document non contractuel. Dans le souci constant d’améliorer son matériel, CIAT se réserve le droit de procéder sans préavis à toutes modifi cations techniques.
Siège social 700 Avenue Jean Falconnier - B.P. 1401350 - Culoz - FranceTel. : +33(0)4 79 42 42 42Fax : +33(0)4 79 42 42 [email protected] - www.ciat.com
Compagnie Industrielle d’Applications Thermiques - S.A. au capital de 26 728 480 € - R.C.S. Bourg-en-Bresse B 545 620 114
CIAT ServiceAssistance technique : 0 892 05 93 93 (0,34 € / mn)Pièces de rechange : 0 826 96 95 94 (0,15 € / mn)
[email protected] - [email protected]
Système de Management certifié
This document is non-contractual. As part of its policy of continual product improvement, CIAT reserves the right to make any technical modifi cation it feels appropriate without prior notifi cation.
Head offi ce 700 Avenue Jean Falconnier - B.P. 1401350 - Culoz - FranceTel.: +33 (0)4 79 42 42 42Fax: +33 (0)4 79 42 42 [email protected] - www.ciat.com
Compagnie Industrielle d’Applications Thermiques - S.A. with a registered capital of 26 728 480 € - R.C.S. Bourg-en-Bresse B 545 620 114
Certified Management System
Documento non contrattuale. Nella preoccupazione costante di migliorare il suo materiale, CIAT si riserva il diritto di procedere senza preavviso ad ogni modifica tecnica.
Sede sociale 700 Avenue Jean Falconnier - B.P. 1401350 - Culoz - FranceTel. : +33 (0)4 79 42 42 42Fax : +33 (0)4 79 42 42 [email protected] - www.ciat.com
Compagnie Industrielle d’Applications Thermiques - S.A. al capitale di 26 728 480 € - R.C.S. Bourg-en-Bresse B 545 620 114
I T A L I A
CIAT ITALIA S.R.L.Via Nassar, 46 - 37026 Pescantina (VR) Italia
Tel. : 045 6750065 - Fax : 045 [email protected] - www.ciat-italia.it
Sistema di Gestione certificato
Documento no contractual. Con el fi n de mejorar su material, CIAT se reserva el derecho de realizar modifi caciones técnicas sin previo aviso.
Sede social 700 Avenue Jean Falconnier - B.P. 1401350 - Culoz - FranceTel.: +33 (0)4 79 42 42 42Fax: +33 (0)4 79 42 42 [email protected] - www.ciat.com
Compagnie Industrielle d’Applications Thermiques - S.A. con un capital de 26 728 480 € - Reg. Mercantil Bourg-en-Bresse B 545 620 114
CIAT ESPAÑA Polígono Industrial Llanos de Jarata14550 - Montilla (Córdoba) - España
Tel.: +34 957 652 311Fax: +34 957 652 212
[email protected] - www.grupociat.esSistema de
gestión certificado
Compagnie Industrielle d’Applications Thermiques AG nach franz. Recht mit einem Kapital von 26 728 480 € - Handelsregister Bourg-en-Bresse Nr. B545 620 114
Dieses Dokument ist keine Vertragsunterlage. Da wir ständig bemüht sind, unser Material noch weiter zu verbessern, behält sich CIAT das Recht vor, technische Änderungen ohne vorherige Ankündigung vorzunehmen.
Firmensitz 700 Avenue Jean Falconnier - BP1401350 Culoz - FrankreichTel.: +33 (0)4 79 42 42 42Fax: +33 (0)4 79 42 42 [email protected] - www.ciat.com
Luxemburg CIAT Luxembourg2 route de Remich
L5650 Mondorf les BainsTel. : +352(49) 28 49
Deutschland CIAT Kälte- und Klimatechnik GmbHWendenweg 19, D-44149 Dortmund
Tel. : +49 (0) 231 96 97 55 0Fax : +49 (0) 231 96 97 55 15
[email protected] - www.ciat.de
Schweiz KalithermRoute de Denges 28 G, CH-1027 LonayTel : +41 (21) 863 60 60Fax : +41 (21) 862 12 [email protected] - www.kalitherm.ch
ZertifiziertesManagementsystem
CIAT [email protected]