a quarius - Schiessl

High efficiency water cooled chillers, heat pumps and evaporating units
with screw compressors and R134a refrigerant gas.
Cooling capacity 380 – 1549 kW
Heating capacity 427 – 1740 kW
Cooling capacity condenserless version 350 – 1434 kW
Conditioning your ambient,
maximising your comfort.
Technical specifications ......................................................................................... 4
Selection guide ..................................................................................................... 11
Performances and technical data ........................................................................ 12
Hydraulic data ....................................................................................................... 23
Working limits ...................................................................................................... 25
Corrections factors ............................................................................................. 26
Overall dimensions .............................................................................................. 28
INDICE
Installation guide .................................................................................................. 34
TECHNICAL SPECIFICATIONS
1 General
2 Acoustic configurations and versions
3 Nameplate
4Testing
5 Compressors
6Evaporator
7Condensers
8 Partial and total heat recovery (optional)
9 Refrigerant circuit
10 Structure and casing
11 Electrical panel
12Control
13 Options, kits and special executions
13.1 Options
13.2 Kits
13.3 Special executions
14 Selection guide
AQUARIUS Plus 2
1. General
The Aquarius Plus 2 series of chillers and heat pumps with reversible
facility on the hydraulic side are high efficiency water cooled
packaged units (Eurovent A Class). The Aquarius Plus 2 series uses a
dry expansion type single pass shell & tube evaporator with a
refrigerant circuit for each compressor and a single water circuit, one
or two semi-hermetic dual screw compressors and continuous
control of cooling capacity serving independent refrigerant circuits,
electronic expansion valves and R134a refrigerant. The condensers
(one for each refrigerant circuit) are shell & tube type and are
suitable to integrate partial or total heat recovery. Installation is
usually indoors, although the units are also suitable for outdoor
installation under a rain shelter (IP54).
The units are managed by a microprocessor controller, through a
simple user interface allows a fully independent control of all the
main functions, including adjustments and alarms. All units are
designed, built and checked in compliance with ISO 9001 and
incorporate components sourced from premium manufacturers.
The combinations of these solutions make it possible to enhance
energy efficiency at partial loads, which account for the largest
proportion of the working life of an air conditioning unit, thereby
maximizing ESEER (*) seasonal performance values.
The standard product, destined for EU and EFTA countries, is subject
to the following directives:
42%
- Electromagnetic Compatibility Directive 2004/108/EC;
- Machinery Directive 2006/42/EC;
- Pressure Equipment Directive 97/23/EC.
- The electrical equipment is constructed in compliance with EN
60204-1.
All data in this catalogue refer to standard units and nominal
operating conditions (unless otherwise specified).
(*) The ESEER (European Seasonal Energy Efficiency Ratio) index
proposed and used in the European design context, characterize the
average weighted efficiency of a chiller for air conditioning
applications. Both indices express, far more accurately than EER, the
ratio between the useful effect (energy removed from interior spaces)
and energy expenditure (electrical energy consumed) of a chiller
during an entire season of operation. In relation to the various
different operating conditions and the frequency with which they
occur, these indicators are calculated by assigning a different energy
weight to the corresponding output values of the unit.
For example ESEER = 6 means that during an entire season of
operation 1 kWh of electrical power is required on average to remove
6 kWh of heat energy from the air conditioned spaces.
41%
ESEER
37%
ESEER
33%
23%
20%
3,0%
1,4%
25%
50%
75%
ESEER operating time percentages
4
100%
25%
50%
75%
ESEER energy weights
100%
2. Acoustic configurations and versions
• CH – cooling only version; suitable for working with evaporator
outlet water temperature from 0 °C up to 20 °C and condenser
outlet water temperature up to 60 °C.
• HP – heat pump version with reversible facility on the hydraulic side
and outlet water temperature up to 60 °C in heating mode; in
comparison with "CH" version, the condenser and discharge pipes
are thermally insulated to prevent heat loss; the units are supplied
with additional probes for temperature control in heating mode; the
reverse cycle valves and installation of the probes are to be
provided by the customer; the reversing cycle valves can be
managed by electronic control through a digital input. Total heat
recovery “R” option is not available with “HP” version.
• LWT – low water temperature version; with this option units are
able to provide water from +5 °C down to -8 °C and condenser
outlet water temperature up to 55 °C; in comparison with "CH"
version this units are fitted with an evaporator optimized for
working with brine; the evaporator is supplied with an additional
thermal insulation in order to avoid potential condensation
problems; each compressor is equipped with liquid injection and
capacity control can work down to 50%. Antifreeze additives must
be used in adequate concentration.
Basic acoustic configuration
• ME – condenserless version: this units are supplied without
condensers and refrigerant charge adding on each refrigerant
circuit a liquid reciever and the shut-off valves on discharge and on
liquid line. The compressor’s capacity control can work down to
50%. Total heat recovery “R” and partial heat recovery “D” options
are not available with “LWT” version.
Heat recovery:
• R – partial heat recovery: this configuration allows the production of
hot water while the unit is on cooling mode by a partial recovery of
the condensation heat; the heat recovery exchanger is fully
integrated in the condenser (see. chapter “Partial and total heat
recovery”).
• D – total heat recovery: this configuration allows the production of
hot water while the unit is on cooling mode by a total recovery of the
condensation heat; the heat recovery exchanger is fully integrated
in the condenser (see. chapter “Partial and total heat recovery”).
Acoustic configurations:
• Basic acoustic configuration: compressors directly accessible from
the outside.
•Silent acoustic configuration: optimised for very low noise
operation, it allows a reduced noise levels by approximately 6 db(A)
compared to “Basic” version; the compressors are housed in a
metal compartment insulated with a sound absorbing layer of
open-cell expanded polyurethane and a sound deadening rubber
sheet; this option is available for all the models and configurations.
Silent acoustic configuration
3. Nameplate
AQP2
XXX Y
ZZZ
Unit version “CH”, “LWT”, “HP", "ME";
Cooling circuits number “1”, “2”;
Compressor nominal power, in HP;
Aquarius Plus 2
4. Testing
All units are tested in a test chamber in order to check correct
operation. The main checks performed are as follows:
•the correct instalment of all components and the lack of refrigerant
leaks;
•electrical safety tests as prescribed by EN60204-1;
•correct operation of the microprocessor and correct values of all the
operating parameters;
•the temperature probes and pressure transducers.
AQUARIUS Plus 2
The Aquarius Plus 2 range, in order to meet different installation
requirements, are available with different versions and accessories:
At the time of installation the units require exclusively electrical and
hydraulic connection, thus maximising reliability levels.
Installation of a filter on the unit inlet is mandatory.
5
5. Compressors
The units of the Aquarius Plus 2 range are equipped with semihermetic dual screw compressors optimized for use with R134a
refrigerant.
The compressors operates on independent refrigerant circuits; this
allows to deliver the exact cooling capacity required by the system
achieving and high energy efficiency special at partial loads, which
account for the largest portion of the working life of the air
conditioning application. The compressors can deliver down to 25% of
the nominal cooling capacity in the single circuit units and down to
12.5% in
​​ the units with two compressors.
The new "Smart Stepless” software algorithm developed by MTA
determines with greater precision the real position of the compressor
capacity slide and therefore its cooling capacity, compared to the
traditional capacity logics; current and average partialization
percentage are also available on the display.
In addition, even in situations of high variability in the thermal load,
the electronic control independently adjusts the capacity speed
according to the needs of the system in a manner that is transparent
to the user, with consequent greater stability of the evaporator outlet
water temperature.
Lubrication of the mechanical parts is ensured by a high-efficiency
separator that is built into the compressor that reduces the outflow of
the oil towards the system and the presence of an appropriate sightglass that enables control of the oil level in the casing. Each
compressor is equipped with two oil level sensors: the upper sensor
has the function of pre-alarm and is activated for necessary and
relevant operational logics for a better return of the oil to the
compressor, while the lower sensor has a function of alarm and
shutdown the unit in the event of intervention.
The electric motor with star-delta starting (soft-starter optional) is
two-pole type cooled by the intake gas; protection from possible
overheating is ensured by an internal module that controls the
temperature of the windings; the same module also controls the
sequence of the phases to avoid the danger of reverse rotation and
the compressor’s discharge temperature.
Each compressor is equipped with a crankcase heater, a delivery
shut-off valve and a check valve in delivery side in order to prevent
liquid return.
The compressors are easily accessible for normal routine
maintenance and are mounted in the upper part of the machine on
rubber vibration dampers. The unloading function allows starting
of the system and the operation of the machine, even under
conditions that are very different from the nominal ones.
Smart Stepless
Thermal load (%)
100%
AQUARIUS Plus 2
75%
6
50%
25%
t (s)
Thermal load
Smart Stepless
Stepless
Inverter
Step
6. Evaporator
The evaporator is of the dry expansion single pass shell and tube type
with one or two independent refrigerant circuits and a single water
circuit. The evaporators in the Aquarius Plus 2 series are specifically
designed for use with R134a and are composed of a bundle of copper
tubes mechanically expanded at the ends into a tube plate and
housed inside a carbon steel shell. The refrigerant flows inside the
copper tubes, which are ribbed to increase the exchange efficiency,
whilst the water, which is oriented by baffles, flows over the outside
of the tubes.
Each evaporator is externally protected with thermal insulation
material and anti-condensation cladding with black embossed finish,
and protected from the risk of freezing potentially caused by low
evaporation temperatures by antifreeze function incorporated in the
electronic controller, which monitors the water outlet temperature.
The “LWT” units are fitted with an evaporator optimized for working
with brine; an additional thermal insulation is provided in order to
avoid potential condensation problems. Each evaporator is equipped
with a water differential pressure switch to protect it in conditions in
which the water flow is absent or insufficient. The water connections
are easily accessible from the exterior of the unit and are “Victaulic”
type, supplied with stub pipe.
All the evaporators comply with the “EC” pressure vessels directive
and can handle antifreeze solutions and, in general, all other liquids
that are compatible with the hydraulic circuit construction materials.
7. Condensers
The condensers, one for each refrigerant circuit, are of the shell and
tube type and are optimised for the use of R134a refrigerant.
The exchangers are composed of a bundle of copper tubes (inside
which water flows), housed inside a carbon steel shell, in which
condensation occurs. The cast iron headers of the shell carry the
threaded connections for the hydraulic pipes and are removable in
order to allow inspection and the internal cleaning of the tubes; the
tubes are finned on the water side to enhance thermal exchange
efficiency.Installers are required to fit a filter on the unit inlet line to
intercept any debris. If the installation involves the use of water at the
inlet to the condensers outside the values specified for the operating
limits, pressure control valves must be fitted. All the condenser
comply with the “EC” pressure vessels directive and can handle
antifreeze solutions and, in general, all other liquids that are
compatible with the hydraulic circuit construction materials. The
user is responsible for interconnection on the water side of dual
circuit units and, when the unit is to be used as a heat pump,
positioning of the winter temperature control probe (always supplied
pre-wired to the controller) in a socket on the condenser outlet pipe.
8. Partial and total heat recovery (optional)
• D - partial heat recovery: by means of a specifically developed
condenser, while the unit is on cooling mode, it is possible to recover
part of the condensing energy for the production of hot water. Heat
recovery takes place simply via activation of the flow of water in the
relevant area of the exchanger. The interconnection, temperature
probes and management of the pumps are at the customer charge.
The use of partial recovery is not permitted in HP mode.
configuration offers significant energy saving whenever the requested
of hot water is high. Total recovery mode is activated by turning on the
hydraulic pumps in the relevant area of the exchanger. With this
solution the condenser and the delivery pipes are supplied thermally
insulated, while the interconnection and the temperature probes are
at customer charge. Management of the pumps and of the alarms is
entrusted to the xDRIVE electronic control. This option is not
compatible with the heat pump configuration (HP).
• R - total heat recovery: by means of a specifically developed
condenser, while the unit is on cooling mode, it is possible to fully
recover the condensing energy for the production of hot water. This
Each cooling circuit in the standard configuration is completed in the
following manner:
•electronic expansion valve that allows the improvement of cooling
performance in a context that is much wider than mechanical
thermostatic valve, a reduction of the fluctuations of the temperature
of the water and a great precision during operation at partial loads;
•filter-dryer;
•sight-glass;
•shut-off valve and check valve on the compressor delivery;
•shut-off valve on the liquid line;
•pressure switches for control of the maximum condensation
pressure as provided by the European standards (EN378);
•safety valves on the low and high pressure line (as envisaged by
EN378);
•low pressure transducer: for alarm management, read and display
the evaporating pressure;
•high pressure transducer: read and display the condensing
pressure; alarms management; unloading function; for adjustment
of the condensing pressure through servo-driven modulating valve
(optional);
•antifreeze oil and refrigerant charge.
The refrigeration circuit of the LWT version includes a liquid injection
system on the compressor; this consists of bleeding from the main
liquid line of a small amount of refrigerant that is directly expanded
within the compressor thus allowing control and limitation of the
discharge temperature of the compressors.
The entire brazing for connection of the various components is made
with silver alloy and the cold pipes are coated with heat-insulation
material to prevent the formation of condensation.
10. Structure and casing
The Aquarius Plus 2 units are characterised by a self-supporting
structure developed in order to allow the maximum accessibility to all
the components for ordinary maintenance. The heat exchangers are
painted and rigidly assembled and form an integral part of the
structure and support the compressors and the electrical panel. The
base, heat exchangers and the support structure of the compressors
are black RAL 9005, while the electrical panel and the panelling of the
silenced acoustic version (optional) are light grey RAL 7035 with
orange-peel finish made from galvanised carbon steel plating.
All of the components are subjected to a treatment of phosphor
degreasing treatment and oven painting at 180 °C with polyester
powder coating to provide a durable weatherproof finish.
The units are equipped with eyebolts for lifting and movement via the
4-point sling bar.
AQUARIUS Plus 2
9. Refrigerant circuit
7
11. Electrical panel
The unit and the electrical cabinet are made in compliance with CEI
EN60204-1 (Safety of machinery – Electrical equipment of machines
– Safety Part 1: General rules); in particular, protection against the
weather is ensured such as to allow outdoor installation of the
chillers protected by a rain shelter.
The IP54 protection is assured thanks to a seal and a fully welded
cabinet, where the electrical devices are placed on a base plate; an
easy access to all the device is ensured by a double door where there
is the display of the electronic control which is protected by a
transparent polycarbonate door.
The electrical cabinet, with forced ventilation, is equipped with a main
breaker with door lock device and contains the circuit breakers to
protect the compressors and contactors for star-delta starting; the
control section includes a transformer for the control circuits and the
microprocessor board.
The protection from the phase loss and from the phase reversal is
assured by the phase monitor device.
The units are also electrically prearranged for connection of a flow
switch and the pump’s management is available for all the
configurations.
Available Volt-free contacts:
•general alarm;
•remote ON/OFF;
•remote CH/HP;
•flow-switch;
•double set-point;
•evaporator pump;
•condensers and heat recovery (optional) pumps.
12. Control
AQUARIUS Plus 2
Control and management of the unit are provided by a MTA's control
system "xDRIVE" composed by microprocessor electronic controller
connected to the semi graphic backlit user terminal; the latter has a
240x96 pixel screen, 8 unit programming buttons and buzzer. Thanks
to the icons, multi-function keys with dynamic description and
moving images, the displays and information are easy to interpret, by
both trained personnel and the system operator even if not specifically
trained on the use of the controller.
The terminal is located on the door of the electrical cabinet and is
protected by an openable polycarbonate cover. An USB port placed
near the display allows the software update and the download of the
alarms history.
8
The controller manages the following main functions independently:
• “Smart Stepless”: Intelligent management of the speed of the
compressor capacity control with self-adaptive logic depending on
thermal load;
• step capacity control (CH-HP versions: 4 steps for each compressor
25%÷50%÷75%÷100%; LWT and ME versions: 3 steps for each
compressor 50%÷75%÷100%);
• control of the 25% partialization step depending on the oil level, on
the compressor’s operating range and on the compressor discharge
temperature;
• temperature control of water at the evaporator outlet, with neutral
zone logic;
• set-point management:
- “ fixed” (standard);
- “ dual” set by a digital signal;
- “ variable in accordance with time bands” (4 time bands)
programmable on the internal timer;
- “ variable by analogue signal” 4÷20 mA;
• unloading function that allows system starting and unit operation
also with parameters that differ significantly from nominal
conditions (by deactivating one or more steps);
• modulating valves management;
• display of the main working parameters of the electronic expansion
valves;
• automatic rotation of compressors start sequence to minimise the
working time of each compressor;
• on/off by daily and/or weekly time bands;
• antifreeze control in accordance with the evaporator outlet
temperature;
• count of operating hours of the unit and individual compressors
with notification when the programmed operating hours before
maintenance are exceeded;
• management of alarm messages, including:
- low evaporating pressure;
- high condensing pressure;
- compressor thermal protection trip alarm;
- pump failure alarm;
- compressor oil level;
- evaporator low flow rate alarm;
- high and low temperature water inlet and outlet alarms;
- antifreeze alarm;
- phase sequence alarm;
- low difference between condensing and evaporating pressure.
In addition to alarms, the display can also present the following main
information:
• compressors partialization values;
• current and average partialization values;
• condensing and evaporation pressure values of each circuit;
• inlet and outlet water temperature;
• status of digital inputs and outputs of the electronic controller;
• alarms history;
• language selection (Italian, English, French, German, Spanish,
Russian);
• the main operating parameters of the machine can be change
through a password-protected menu.
In addition, the unit features a 24 Vac powered remote general alarm.
The controller has a RS485 serial output with ModBUS communication
protocol for the connection to applications developed by third party
System Integrators, for local and remote control and an Ethernet port
for connecting to a LAN network through which you can access to the
internal site controller to display/modify the operating parameters of
the machine.
Several units (up to 10) can be connected in parallel via Ethernet
connection with its dedicated kit (one unit as a "master" and the other
as "slave"). The user can manage the group of units by means of the
master unit terminal or by means of the replicated remote terminal
(optional).
N.B.: Expansions may be present to increase the number of inputs/ outputs available, depending on the plant configuration.
13.1 Options
The options must be specified at the time of the order because they
are factory fitted:
Compressors
• soft starter: these devices reduces inrush current during startup of the compressors; the soft starter allows to preserve the
compressors by mechanical stress, with a reduction of
maintenance and downtime; units equipped with soft starter can
operate up to a maximum ambient temperature of 40 °C, after
which, the unit will enter in a safety mode, in order to preserving
the operation of the machine; soft starter aren’t suitable
combined with capacitive elements and power factor correction
systems must not be operated simultaneously with them. For
models 3301 and 6602, this option is available on request only
(special execution);
• capacitors for compressor power factor correction at cosϕ > 0.9
located in an electrical box installed on the rear side of the
electrical panel; this option is not compatible with the soft starter
devices.
Heat recovery:
• D - partial heat recovery (see relevant chapter);
•R
- total heat recovery (see relevant chapter);
Acoustic configurations :
• Silent acoustic configuration: optimised for very low noise
operation, it allows a reduced noise levels by approximately 6
db(A) compared to “Basic” version.
AQUARIUS Plus 2
13. Options, kits and special executions
Soft Starter
• compressor shut-off valves on suction line to help service task;
for models 3001, 3301, 5602, 6002 and 6602, this option is available
on request only (special execution);
9
13.2. Kits
The kits are supplied separately, generally at the same time of the
unit, and installed by the user. They can be supplied later as spare
parts, modification kits, completion kits, etc.:
• anti-vibration mounts;
• Victaulic to flanges evaporator conversion kit;
• threaded to flanges condenser/total heat recovery conversion kit;
• threaded to Victaulic condenser/total heat recovery conversion kit;
• condensing pressure control with:
- 2-way pressostatic valve;
- 2-way and 3-way modulating servo-controlled valves driven by a
0-10V signal supplied by the unit controller.
The choice of valve is made on the basis of the water flow rate in each
condenser and the maximum closing and adjustment pressure
differentials, exclusively for modulating valves, using the "Pressure
control valves" and "Modulating valves" tables. Each kit has a single
valve for each condenser and includes threaded counter-flanges
complete with seals. The user is responsible for installing the valves:
installation of support brackets, connections and hydraulic unions
(the diameter of the threaded connections may not correspond to the
diameter of the condenser connections), refrigerant (pressure control
valves) and electrical (modulating valves) connections.
• simple remote control: composed of an ON/OFF switch, green run
LED and red general alarm LED, mounted on a plastic wallmounting enclosure, plus 3 metres of cable for connection to the
unit;
• remote display: can be installed at a distance of up to 200 metres, it
works as on board display and it shows the same information. It is
equipped with special support for external fixation;
• kit modularity: allows the connection of multiple units in parallel by
means Ethernet connection to create a modular system;
• supervision system xWEB300D, with the possibility of recording the
operating parameters, graphics, alarms notification and remote
control;
• Gateway Trend: allows the connection of the unit and its supervision
by a Trend network controls;
13.3 Special executions
AQUARIUS Plus 2
This is a selection of the most popular special features, normally not
described in detail in our catalogues; the feasibility of special designs
must be assessed, confirmed, and priced on a case by case basis in
communication with our sales offices before placing the order:
10
• very high energy efficiency versions;
• 460 V / 3 ph / 60 Hz power supply;
• condensers suitable for sea water.
Selection guide
1) Observe the operational limits as indicated in the chart “Working
limits”;
2) Verify that the cool water flow is between the minim and maximum
values of water flow, which are described in the “Hydraulic data”
table. A very low flow can cause laminar flow and thus danger of
ice formation and poor unit control; a very high flow can cause
great pressure drops and the possibility of tube failure inside the
evaporator;
3) For working temperatures under 6 °C outlet water it is necessary
to add ethylene glycol or any other antifreeze additives. Consult the
chart “Solutions of water and glycol” to determine the necessary
quantity of ethylene glycol, the reduction of cooling capacity, the
increase of power absorbed by the compressors, the increase of
evaporator pressure drop due to the presence of the ethylene
glycol;
4) When the difference in temperature between water inlet and outlet
is different from 5 °C, the cooling/heating capacity and the
absorbed power must be corrected using the table “Corrective
coefficients ΔT ≠ 5 °C”.
AQUARIUS Plus 2
For a correct chiller selection it is necessary to:
11
PERFORMANCE AND TECHNICAL DATA
GENERAL DATA
Chiller (CH) - Heat Pump (HP) - Partial heat recovery (D) - Total heat recovery (R)
CH - Cooling mode (1)
Cooling capacity
Total absorbed power
EER
Energy efficiency class
ESEER
Evaporator water flow rate
Evaporator pressur drops
Condenser water flow rate
Condenser pressure drops
HP - Heating mode (2)
AQUARIUS Plus 2
Heating capacity
Total absorbed power
COP
Energy efficiency class
Condenser water flow rate
Condenser pressure drops
D - Partial heat recovery (3)
Heating capacity
Water flow rate
Pressure drops
R - Total heat recovery (4)
Heating capacity
Water flow rate
Pressure drops
12
Power supply (5)
Power
Compressors
Type
Compressors / Cooling circuits
Cooling capacity regulation
Capacity control
Refrigerant
Sound levels
Basic acoustic configuration (6)
Silent acoustic configuration (6)
Dimensions and weights (7)
Width
Depth
Height
Weight
1401
1601
1801
2001
2301
2601
3001
3301
kW
kW
m 3 /h
kPa
m 3 /h
kPa
380
74
5,12
A
5,84
65
43
78
53
422
82
5,15
A
5,84
72
48
87
47
482
94
5,13
A
5,89
83
32
99
57
531
103
5,17
A
5,89
91
43
109
53
594
115
5,17
A
5,89
102
45
122
52
654
126
5,20
A
5,96
112
41
134
53
714
137
5,20
A
5,99
122
33
147
53
768
147
5,23
A
6,04
132
27
158
53
kW
kW
m 3 /h
kPa
427
88
4,85
A
74
45
473
97
4,88
A
82
40
540
111
4,85
A
93
49
593
121
4,89
A
103
45
665
136
4,89
A
115
44
732
149
4,91
A
127
45
799
163
4,91
A
138
45
858
174
4,92
A
148
45
kW
m 3 /h
kPa
21,2
3,6
10
21,8
3,8
11
23,3
4,0
10
23,6
4,1
12
32,0
5,5
11
33,5
5,8
10
34,5
5,9
10
42,8
7,4
11
kW
m 3 /h
kPa
427
74
45
473
82
40
540
93
49
593
103
45
665
115
44
732
127
45
799
138
45
858
148
45
V/Ph/Hz
400 ± 10% / 3 - PE / 50
n°
-
Screw
1/1
Smart Stepless
25 ÷ 100
R134a
dB(A)
dB(A)
95
90
96
91
97
91
97
92
97
92
97
92
98
92
98
92
mm
mm
mm
kg
1460
4344
1640
1993
1460
4344
1645
2137
1460
4326
1725
2472
1485
4326
1725
2513
1485
4326
1645
2554
1460
4326
1770
2791
1460
4335
1770
2936
1460
4335
1770
2987
Data declared according to UNI EN 14511:2013
(1) CH - Cooling only: evaporator IN/OUT: 12/7 °C; condenser IN/OUT: 30/35 °C;
(2) HP - Heat pump: evaporator IN/OUT: 12/7 °C; condenser IN/OUT: 40/45 °C;
(3) D - Partial heat recovery: evaporator IN/OUT: 12/7 °C; condenser IN/OUT: 30/35 °C; partial heat recovery IN/OUT: 40/45 °C;
(4) R - Total heat recovery: evaporator IN/OUT: 12/7 °C; total heat recovery IN/OUT: 40/45 °C;
(5) IP54 protection class;
(6) Sound power: determined on the basis of measurements taken in accordance with the standard ISO 3744;
(7) Dimensions and weights are referred to AQP2, without options and water content.
CH - Cooling mode (1)
Cooling capacity
Total absorbed power
EER
Energy efficiency class
ESEER
Evaporator water flow rate
Evaporator pressur drops
Condenser water flow rate
Condenser pressure drops
HP - Heating mode (2)
Heating capacity
Total absorbed power
COP
Energy efficiency class
Condenser water flow rate
Condenser pressure drops
D - Partial heat recovery (3)
Heating capacity
Water flow rate
Pressure drops
R - Total heat recovery (4)
Heating capacity
Water flow rate
Pressure drops
Power supply (5)
Power
Compressors
Type
Compressors / Cooling circuits
Cooling capacity regulation
Capacity control
Refrigerant
Sound levels
Basic acoustic configuration (6)
Silent acoustic configuration (6)
Dimensions and weights (7)
Width
Depth
Height
Weight
2802
3202
3402
3602
4002
4302
4602
4902
5202
5602
6002
6602
kW
kW
m 3 /h
kPa
m 3 /h
kPa
753
147
5,12
A
5,98
129
40
155
51
848
163
5,21
A
5,98
145
40
174
48
907
175
5,18
A
5,97
156
37
187
53
967
188
5,15
A
5,97
166
41
199
57
1061
204
5,21
A
5,99
182
37
218
53
1121
215
5,21
A
6,05
192
26
230
52
1195
229
5,22
A
6,01
205
32
245
53
1256
240
5,24
A
6,05
215
35
258
53
1305
250
5,21
A
6,05
224
37
268
53
1373
263
5,21
A
5,99
235
45
282
54
1440
275
5,24
A
6,04
247
48
296
53
1549
296
5,23
A
6,00
265
58
318
53
kW
kW
m 3 /h
kPa
852
175
4,87
A
147
45
953
193
4,93
A
165
41
1019
208
4,90
A
176
45
1089
223
4,89
A
188
49
1188
242
4,91
A
205
45
1255
256
4,91
A
217
45
1337
272
4,92
A
231
45
1407
285
4,94
A
243
46
1466
298
4,93
A
253
46
1540
312
4,93
A
266
46
1618
326
4,96
A
280
45
1740
351
4,96
A
301
46
kW
m 3 /h
kPa
42,4
7,3
10
43,7
7,5
12
45,1
7,8
11
46,5
8,0
10
47,2
8,1
10
55,7
9,6
11
64,1
11,0
10
65,5
11,3
12
66,9
11,5
11
67,9
11,7
10
69,0
11,9
13
85,6
14,7
12
kW
m 3 /h
kPa
852
147
45
953
165
41
1019
176
45
1089
188
49
1188
205
45
1255
217
45
1337
231
45
1407
243
46
1466
253
46
1540
266
46
1618
280
45
1740
301
46
V/Ph/Hz
400 ± 10% / 3 - PE / 50
n°
-
Screw
2/2
Smart Stepless
12,5 ÷ 100
R134a
dB(A)
dB(A)
98
93
98
93
99
93
99
93
99
93
99
94
99
94
100
94
100
94
100
95
101
95
101
95
mm
mm
mm
1390
4920
1390
4920
1390
4920
1390
4920
1390
4920
1390
4920
1390
4920
1390
4920
1390
4920
1390
4970
1390
4970
1390
4970
2132
3873
2132
4153
2165
4465
2165
4769
2278
5090
2278
5124
2278
5160
2278
5232
2278
5305
2278
5490
2278
5634
2278
5737
kg
Data declared according to UNI EN 14511:2013
(1) CH - Cooling only: evaporator IN/OUT: 12/7 °C; condenser IN/OUT: 30/35 °C;
(2) HP - Heat pump: evaporator IN/OUT: 12/7 °C; condenser IN/OUT: 40/45 °C;
(3) D - Partial heat recovery: evaporator IN/OUT: 12/7 °C; condenser IN/OUT: 30/35 °C; partial heat recovery IN/OUT: 40/45 °C;
(4) R - Total heat recovery: evaporator IN/OUT: 12/7 °C; total heat recovery IN/OUT: 40/45 °C;
(5) IP54 protection class;
(6) Sound power: determined on the basis of measurements taken in accordance with the standard ISO 3744;
(7) Dimensions and weights are referred to AQP2, without options and water content.
AQUARIUS Plus 2
GENERAL DATA
Chiller (CH) - Heat Pump (HP) - Partial heat recovery (D) - Total heat recovery (R)
13
SOUND LEVELS
Basic acoustic configuration
Octave bands (Hz)
Model
1401
1601
1801
2001
2301
2601
3001
3301
2802
3202
3402
3602
4002
4302
4602
4902
5202
5602
6002
6602
63
125
250
500
1000
2000
4000
8000
86
88
89
88
89
90
91
91
92
92
93
94
93
93
94
94
95
94
96
96
72
69
72
73
73
75
75
76
76
75
76
77
79
79
78
79
78
80
81
81
57
61
60
62
61
64
66
67
66
67
67
68
69
70
72
74
73
74
75
76
Sound power level dB (A)
40
41
42
43
43
44
44
45
44
46
45
46
46
47
47
49
49
48
49
50
49
50
51
51
52
52
54
54
54
56
56
56
57
58
57
59
60
61
62
61
72
72
73
74
74
73
75
76
77
78
78
79
79
79
79
81
82
83
82
82
82
83
83
85
86
86
86
85
85
85
85
86
86
87
88
88
88
87
88
89
94
95
96
96
96
96
97
97
97
96
97
97
97
97
97
98
98
98
99
99
Sound
power (1)
Sound
pressure (2)
dB (A)
dB (A)10m
95
96
97
97
97
97
98
98
98
98
99
99
99
99
99
100
100
100
101
101
67
68
69
69
69
69
70
70
70
70
71
71
71
71
71
72
72
72
73
73
Sound
power (1)
Sound
pressure (2)
dB (A)
dB (A)10m
90
91
91
92
92
92
92
92
93
93
93
93
93
94
94
94
94
95
95
95
62
63
63
64
64
64
64
64
65
65
65
65
65
66
66
66
66
67
67
67
Silent acoustic configuration
Octave bands (Hz)
AQUARIUS Plus 2
Model
1401
1601
1801
2001
2301
2601
3001
3301
2802
3202
3402
3602
4002
4302
4602
4902
5202
5602
6002
6602
63
125
250
500
1000
2000
4000
8000
80
82
82
82
83
84
84
84
86
86
86
87
86
87
88
87
88
88
89
89
62
59
62
63
63
65
65
66
66
65
66
67
69
69
68
69
68
70
71
71
49
53
51
54
53
56
57
58
58
59
58
59
60
62
64
65
64
66
66
67
Sound power level dB (A)
37
38
39
40
40
41
41
42
41
43
42
43
43
44
44
46
46
45
46
47
47
48
49
49
50
50
52
52
52
54
54
54
55
56
55
57
58
59
60
59
70
70
70
72
72
71
72
73
75
76
75
76
76
77
77
78
79
81
79
79
78
79
78
81
82
82
81
80
81
81
80
81
81
83
84
83
83
83
83
84
89
90
90
91
91
91
91
91
92
91
91
91
91
92
92
92
92
93
93
93
(1) Sound power: determined on the basis of measurements taken in accordance with the standard ISO 3744.
(2) Sound pressure at 10 m: average value obtained in free field on a reflective surface at a distance of 10 m from the side of the
condenser coils and at a height of 1.6 m from the unit support base.
Distance
KdB
(1) L (m)
1
3
5
10
15
10
6
0
(1) To calculate a different distance of the sound pressure level, use the formula: dB(A)L=dB(A)10m+Kdb.
14
ELECTRICAL DATA
Model
FLI
[KW]
FLA
[A]
ICF
[A]
1401
1601
1801
2001
2301
2601
3001
3301
2802
3202
3402
3602
4002
4302
4602
4902
5202
5602
6002
6602
126
140
160
174
196
215
236
253
252
279
300
321
349
371
392
411
430
451
472
506
209
234
269
291
319
357
382
410
418
469
503
537
582
610
637
676
714
739
765
820
262
328
422
422
493
602
717
807
471
562
656
691
713
784
812
921
959
1074
1099
1217
FLI: max power absorbed in the working limits condition (kW);
FLA: max current absorbed in the working limits condition (A);
ICF: start-up current at the start of the last compressor in the working limits condition.
Compressors starting with soft starter: the soft starters allow a reduction of peak current during start-up of the compressors;
these devices allow then to preserve the compressors by mechanical stress, with the consequent reduction of maintenance and
machine downtime. The units equipped with a soft starter can operate up to a maximum ambient temperature of 40 °C, after which,
the unit will enter in a safety mode, in order to preserving the operation of the machine; soft starters are't compatible with capacitive
elements; power factor correction systems cannot operate simultaneously with the soft starter. This option is factory fitted and must
be specified in the order.
Model
CH - HP - LWT
kg
D - Partial heat recovery
kg
R - Total heat recovery
kg
Compressors housing
kg
1401
1601
1801
2001
2301
2601
3001
3301
2802
3202
3402
3602
4002
4302
4602
4902
5202
5602
6002
6602
2154
2363
2695
2738
2781
3143
3288
3338
4294
4572
4878
5185
5736
5767
5802
5881
5961
6143
6295
6399
2242
2451
2707
2750
2799
3160
3306
3596
4470
4748
4902
5209
5760
5795
5838
5916
5997
6178
6331
6915
2606
2838
3105
3171
3237
3618
3823
3893
5198
5518
5686
6007
6600
6657
6718
6819
6921
7166
7381
7521
260
260
260
260
260
260
260
260
540
540
540
540
540
540
540
540
540
540
540
540
AQUARIUS Plus 2
WORKING WEIGHTS
Working weights includes water content.
CH - only cooling version;
HP - heat pump version;
LWT - low water temperature version;
D - partial heat recovery version;
R - total heat recovery version.
15
PERFORMANCE DATA CHILLER (CH) - HEAT PUMP (HP) - TOTAL HEAT RECOVERY (R)
Inlet / Outlet condenser water temperature [°C]
1401
25 / 30
Glycol tu Pf Pa Fw
20% *5 363 68 66
6 385 69 66
7 398 69 68
8 411 70 71
9 424 71 73
10 437 73 75
40 / 45
Pf Pa Fw
306 86 56
326 87 56
339 88 58
352 89 60
365 90 63
377 90 65
45 / 50
Pf Pa Fw
284 95 52
305 96 52
317 97 54
330 97 57
341 98 58
354 99 61
50 / 55
Pf Pa Fw
262 104 48
281 105 48
293 106 50
305 107 52
316 108 54
330 108 57
55 / 60
Pf Pa Fw
238 114 43
256 115 44
267 116 46
278 118 48
290 119 50
301 120 52
t max
(**)
60
60
60
60
60
60
*5
6
7
8
9
10
402
427
443
457
472
486
75
76
77
78
79
80
73
73
76
78
81
83
382
406
422
437
451
465
80
81
82
83
84
85
69
70
72
75
77
80
361
384
400
414
429
444
87
88
89
90
90
91
66
66
68
71
74
76
339 95
362 96
376 97
390 98
405 99
419 100
62
62
64
67
69
72
315
338
351
366
378
393
104
106
106
107
108
109
57
58
60
63
65
67
290
311
325
338
351
367
115
116
117
118
119
119
53
53
56
58
60
63
264
284
296
309
322
335
125
127
128
129
131
132
48
49
51
53
55
57
60
60
60
60
60
60
20%
*5
6
7
8
9
10
460
488
506
522
538
555
85
87
88
89
90
92
84
84
87
89
92
95
436
464
482
499
514
531
92
93
94
95
96
97
79
80
83
85
88
91
413
438
456
473
489
506
100
101
102
103
104
105
75
75
78
81
84
87
388
412
429
445
462
478
109
110
111
112
113
115
70
71
73
76
79
82
360
386
401
417
431
447
120
121
122
123
125
126
65
66
69
71
74
77
331
355
371
386
400
417
132
133
134
136
137
137
60
61
64
66
69
72
301
323
338
352
367
381
144
146
148
149
150
152
55
55
58
60
63
65
60
60
60
60
60
60
20%
*5
6
7
8
9
10
506 93 92 480
538 95 92 511
557 96 95 531
575 97 99 550
594 99 102 568
612 100 105 586
100 87
101 88
103 91
104 94
105 97
106 100
454
483
502
521
539
558
109
110
111
112
113
115
82
83
86
89
92
96
426
455
472
491
509
527
119
120
121
122
124
125
77
78
81
84
87
90
396
424
441
460
475
493
131
132
133
134
136
137
72
73
76
79
81
85
364
391
408
425
441
460
143
145
146
148
149
150
66
67
70
73
76
79
331
356
372
389
404
420
157
159
161
162
164
165
60
61
64
67
69
72
60
60
60
60
60
60
20%
*5
6
7
8
9
10
566
601
623
643
664
685
105
106
108
109
111
112
103
103
107
110
114
117
537
572
594
615
636
655
112
114
115
116
118
119
98
98
102
105
109
112
507
540
562
583
604
624
122 92 478 134 87
123 93 508 135 87
124 96 529 136 91
126 100 549 137 94
127 103 569 138 98
128 107 589 140 101
443
475
494
514
532
552
147
148
149
150
152
153
81
81
85
88
91
95
408
438
458
476
494
515
161
163
164
165
167
168
74
75
78
82
85
88
371
399
417
435
454
471
176
178
180
182
183
185
67
68
71
74
78
81
60
60
60
60
60
60
20%
*5
6
7
8
9
10
624
662
684
707
729
751
114
116
118
119
121
123
113
113
117
121
125
129
592
630
654
675
698
720
123
124
126
127
129
130
108
108
112
116
120
123
561
596
620
642
665
685
134
135
136
138
139
141
102
102
106
110
114
118
527
561
583
606
627
649
146
148
149
150
152
153
96
96
100
104
108
111
490
525
546
567
586
609
161 89 451
162 90 483
164 94 504
165 97 526
167 101 545
168 104 568
176
178
180
182
183
184
82
83
86
90
94
97
410
441
460
480
501
520
193
196
198
199
201
203
75
76
79
82
86
89
60
60
60
60
60
60
20%
*5
6
7
8
9
10
681
723
748
773
798
823
125
127
128
130
132
134
124
124
128
132
137
141
646
688
714
740
763
788
134
136
137
139
140
142
117
118
122
127
131
135
612
650
677
702
727
750
146
147
149
150
152
153
111
111
116
120
125
129
575
613
636
661
686
710
160
161
163
164
166
167
105
105
109
113
118
122
534
573
596
619
641
666
175
177
179
180
182
183
97
98
102
106
110
114
492
528
550
574
596
621
193 89 447
195 90 481
197 94 502
198 98 524
200 102 547
201 106 568
211
214
216
218
220
222
81
82
86
90
94
97
60
60
60
60
60
60
20%
*5
6
7
8
9
10
733
778
806
832
859
886
133
136
137
139
141
143
133
133
138
143
147
152
695
740
768
796
821
848
143
145
147
148
150
152
126
127
132
136
141
145
658
699
728
755
781
809
156
158
159
161
162
164
120
120
125
129
134
139
618
658
684
711
737
763
171
173
174
176
177
179
112
113
117
122
126
131
574
615
640
666
689
715
188
190
192
193
195
196
104
105
110
114
118
123
529
567
591
616
640
667
206
209
211
212
214
215
226 87
229 89
231 92
233 96
235 101
238 105
60
60
60
60
60
60
1801
2001
2301
AQUARIUS Plus 2
35 / 40
Pf Pa Fw
325 79 59
346 80 59
360 80 62
373 81 64
386 82 66
398 83 68
20%
1601
2601
3001
3301
30 / 35
Pf Pa Fw
344 73 63
367 73 63
380 74 65
394 75 67
406 76 70
419 77 72
96
97
101
106
110
114
481
517
540
563
587
610
Data declared according to UNI EN 14511:2013
tu: evaporator outlet water temperature (°C);
Pf: cooling capacity (kW);
Pa: total absorbed power (kW);
Fw: water flow rate with ΔT = 5 °C (m3 /h).
(*): The performances have been calculated with 20% ethylene glycol in the water.
(**): Condenser maximum outlet water temperature. When the condenser temperature is higher than the "t max" the unit doesn't stop
but the "unloading" system capacity control is activated.
The values ​​in the table are inclusive of ethylene glycol percentage and are calculated with ∆T = 5 °C evaporator and condenser ∆T = 5 °C.
To calculate performances at diferring water inlet/outlet ∆T levels, refer to the "∆T correction factors" table. Interpolation is allowed,
extrapolation is not permitted.
In the HP (heat pump) and R (total heat recovery) operating mode the heating capacity is detemined with the following formula: Heating
capacity = Cooling capacity + Total absorbed power.
16
PERFORMANCE DATA CHILLER (CH) - HEAT PUMP (HP) - TOTAL HEAT RECOVERY (R)
2802
35 / 40
Pf Pa Fw
653 157 119
693 158 119
719 160 123
741 161 127
765 163 131
790 164 136
40 / 45
Pf Pa Fw
613 172 111
654 174 112
677 175 116
703 176 121
726 178 124
749 179 128
45 / 50
Pf Pa Fw
572 189 104
611 191 105
637 192 109
660 193 113
683 196 117
707 197 121
50 / 55
Pf Pa Fw
528 207 96
566 210 97
589 212 101
612 213 105
636 215 109
661 216 113
55 / 60
Pf Pa Fw
481 227 87
517 230 89
539 232 92
562 235 96
584 237 100
606 239 104
t max
(**)
60
60
60
60
60
60
20%
*5
6
7
8
9
10
811
858
888
917
947
977
148
150
152
154
156
159
147
147
152
157
162
167
772
820
848
877
906
934
159
161
163
165
166
168
140
141
145
150
155
160
732
778
807
837
863
891
173
175
177
178
180
182
133
133
138
143
148
153
688
734
759
790
818
845
190
192
193
195
197
198
125
126
130
135
140
145
640
685
712
739
767
795
209
211
212
214
216
218
116
117
122
127
132
136
590
633
661
687
713
738
229
232
234
236
237
240
107
108
113
118
122
127
537
577
603
629
656
681
251
255
257
259
261
264
98
99
103
108
112
117
60
60
60
60
60
60
20%
*5
6
7
8
9
10
868
918
949
982
1013
1044
159
162
164
166
168
171
158
157
163
168
174
179
824
877
907
939
968
1000
171
173
175
177
179
181
150
150
156
161
166
172
782
831
862
892
923
952
186
188
190
192
194
196
142
142
148
153
158
163
734
783
811
843
874
902
204
206
208
210
212
214
133
134
139
145
150
155
683
731
761
790
819
848
224
227
229
230
232
234
124
125
130
135
140
146
630
675
704
733
761
791
246
249
251
254
255
257
114
116
121
126
131
136
573
616
643
671
698
726
270
274
276
279
281
284
104
106
110
115
120
124
60
60
60
60
60
60
20%
*5
6
7
8
9
10
926
978
1011
1045
1078
1110
171
173
175
178
180
183
168
168
173
179
185
190
881
936
967
999
1030
1064
183
186
188
190
192
194
160
160
166
171
177
182
835
887
921
951
982
1013
200
202
204
206
208
210
152
152
158
163
168
174
784
836
866
900
932
960
219
221
223
225
227
229
143
143
148
154
160
165
731
781
813
846
874
905
240
243
245
246
249
251
133
134
139
145
150
155
674
722
752
784
813
847
264
267
269
271
274
275
123
124
129
134
139
145
614
659
688
717
745
776
289
293
296
298
301
304
112
113
118
123
128
133
60
60
60
60
60
60
20%
*5
6
7
8
9
10
1013
1074
1109
1146
1182
1221
185
188
190
193
196
199
184
184
190
196
203
209
961
1023
1061
1096
1132
1167
199
202
204
206
208
211
175
175
182
188
194
200
910
969
1006
1043
1077
1112
217
219
221
223
225
228
165
166
172
179
185
191
857
912
946
984
1019
1055
238
240
242
244
246
248
156
156
162
169
175
181
796
853
886
924
955
989
261
264
266
267
270
273
145
146
152
158
164
170
733
786
819
854
886
918
286
290
292
295
297
300
133
135
140
146
152
157
667
717
749
780
814
845
314
318
321
324
327
330
121
123
128
134
140
145
60
60
60
60
60
60
20%
*5
6
7
8
9
10
1070
1133
1174
1212
1251
1291
195
198
201
203
206
209
194
194
201
208
214
221
1015
1081
1121
1159
1196
1235
210
213
215
217
220
222
184
185
192
199
205
212
961
1021
1063
1102
1139
1177
229
232
234
236
238
240
175
175
182
189
195
202
903
963
999
1039
1076
1115
251
254
256
258
260
262
164
165
171
178
185
191
840
899
936
974
1006
1045
276
279
281
283
286
288
153
154
160
167
172
179
774
830
866
902
936
972
303
307
309
312
315
317
141
142
148
155
160
167
704
757
790
824
858
892
332
337
340
343
346
349
128
130
135
141
147
153
60
60
60
60
60
60
3202
3402
3602
4002
4302
30 / 35
Pf Pa Fw
688 144 125
728 146 125
753 147 129
779 149 134
804 150 138
828 152 142
Data declared according to UNI EN 14511:2013
tu: evaporator outlet water temperature (°C);
Pf: cooling capacity (kW);
Pa: total absorbed power (kW);
Fw: water flow rate with ΔT = 5 °C (m3 /h).
(*): The performances have been calculated with 20% ethylene glycol in the water.
(**): Condenser maximum outlet water temperature. When the condenser temperature is higher than the "t max" the unit doesn't stop
but the "unloading" system capacity control is activated.
The values ​​in the table are inclusive of ethylene glycol percentage and are calculated with ∆T = 5 °C evaporator and condenser ∆T = 5 °C.
To calculate performances at diferring water inlet/outlet ∆T levels, refer to the "∆T correction factors" table. Interpolation is allowed,
extrapolation is not permitted.
In the HP (heat pump) and R (total heat recovery) operating mode the heating capacity is detemined with the following formula: Heating
capacity = Cooling capacity + Total absorbed power.
AQUARIUS Plus 2
Inlet / Outlet condenser water temperature [°C]
25 / 30
Glycol tu Pf Pa Fw
20% *5 721 134 131
6 762 135 130
7 789 137 135
8 814 139 140
9 837 141 143
10 860 142 147
17
PERFORMANCE DATA CHILLER (CH) - HEAT PUMP (HP) - TOTAL HEAT RECOVERY (R)
Inlet / Outlet condenser water temperature [°C]
4602
Glycol tu
20% *5
6
7
8
9
10
40 / 45
Pf Pa Fw
964 267 175
1028 269 176
1065 272 183
1108 274 190
1148 276 197
1189 279 204
45 / 50
Pf Pa Fw
896 293 163
959 296 164
997 298 171
1035 301 177
1076 303 184
1115 306 191
50 / 55
Pf Pa Fw
825 322 150
885 325 152
925 328 158
961 331 165
998 334 171
1034 337 177
55 / 60
Pf Pa Fw
751 352 136
807 357 138
843 360 144
879 364 151
917 367 157
952 370 163
t max
(**)
60
60
60
60
60
60
1200
1271
1314
1357
1402
1444
218
221
224
227
230
233
218
218
225
233
240
248
1140
1213
1256
1298
1340
1384
234
237
240
242
245
248
207
208
215
222
230
237
1080
1149
1193
1236
1277
1318
255
258
260
262
265
268
196
197
204
212
219
226
1015
1082
1122
1166
1208
1249
279
282
285
287
289
292
184
185
192
200
207
214
945
1011
1052
1093
1133
1174
307
310
313
315
318
321
172
173
180
187
194
201
871
933
974
1014
1052
1093
337
341
344
347
350
352
158
160
167
174
180
187
792
852
889
927
965
1004
369
374
378
381
385
388
144
146
152
159
166
172
60
60
60
60
60
60
20%
*5
6
7
8
9
10
1250
1320
1366
1410
1457
1502
228
231
234
237
240
243
227
226
234
242
250
258
1189
1262
1305
1349
1393
1439
245
248
250
253
256
259
216
216
224
231
239
247
1125
1197
1242
1287
1327
1370
267
269
272
274
277
280
205
205
213
221
228
235
1057
1126
1169
1215
1258
1299
292
295
298
300
303
305
192
193
200
208
216
223
985
1053
1097
1141
1180
1222
321
324
327
329
332
335
179
180
188
196
202
210
909
973
1014
1058
1097
1143
352
357
360
363
366
367
165
167
174
181
188
196
827
889
928
967
1006
1047
386
391
395
399
402
406
150
152
159
166
172
180
60
60
60
60
60
60
20%
*5
6
7
8
9
10
1312
1388
1435
1484
1531
1579
240
243
246
250
253
257
238
238
246
254
263
271
1248
1326
1373
1418
1465
1513
258
261
263
266
269
273
227
227
235
243
251
260
1181
1256
1304
1350
1397
1441
280
283
286
288
291
294
215
215
224
231
240
247
1110
1184
1227
1276
1323
1367
307
309
312
315
318
321
202
203
210
219
227
234
1034
1106
1151
1196
1240
1285
337
340
343
346
349
352
188
189
197
205
213
220
954
1022
1066
1110
1152
1193
370
374
377
381
384
387
173
175
183
190
198
205
868
933
974
1015
1058
1100
405
411
414
418
422
426
158
160
167
174
181
189
60
60
60
60
60
60
20%
*5
6
7
8
9
10
1379
1457
1506
1558
1607
1656
250
254
257
260
264
268
251
250
258
267
276
284
1312
1394
1440
1489
1536
1588
269
272
275
278
281
284
239
239
247
255
263
272
1243
1322
1372
1418
1465
1512
293
296
298
301
304
307
226
226
235
243
251
259
1168
1244
1291
1342
1390
1434
321
323
326
329
332
335
212
213
221
230
238
246
1089
1164
1213
1262
1305
1351
352
356
358
360
364
368
198
199
208
216
224
232
1005
1077
1122
1170
1213
1256
386
391
394
397
401
404
183
185
192
201
208
215
916
984
1027
1070
1113
1159
423
429
433
437
441
445
166
169
176
183
191
199
60
60
60
60
60
60
20%
*5
6
7
8
9
10
1483
1566
1619
1675
1728
1780
270
273
277
281
284
288
269
268
277
287
296
305
1412
1499
1549
1601
1652
1707
290
293
296
299
303
306
257
257
265
274
283
293
1335
1422
1475
1524
1575
1625
315
318
321
324
327
330
243
244
253
261
270
279
1257
1340
1389
1444
1495
1542
345
347
351
354
357
360
228
230
238
247
256
264
1172
1252
1304
1358
1403
1454
378
382
385
387
392
395
213
215
224
233
241
249
1082
1159
1208
1259
1305
1351
415
420
423
427
431
435
197
199
207
216
224
232
985
1059
1105
1152
1198
1247
454
460
465
469
473
478
179
181
189
197
205
214
60
60
60
60
60
60
5602
6002
AQUARIUS Plus 2
35 / 40
Pf Pa Fw
1026 243 186
1091 246 187
1133 248 194
1175 250 201
1216 253 209
1255 255 215
*5
6
7
8
9
10
5202
18
30 / 35
Pf Pa Fw
1082 224 197
1152 226 197
1195 229 205
1235 231 212
1276 234 219
1317 237 226
20%
4902
6602
25 / 30
Pf Pa Fw
1140 208 207
1210 211 207
1250 214 214
1292 217 222
1334 220 229
1375 223 236
Data declared according to UNI EN 14511:2013
tu: evaporator outlet water temperature (°C);
Pf: cooling capacity (kW);
Pa: total absorbed power (kW);
Fw: water flow rate with ΔT = 5 °C (m3 /h).
(*): The performances have been calculated with 20% ethylene glycol in the water.
(**): Condenser maximum outlet water temperature. When the condenser temperature is higher than the "t max" the unit doesn't stop
but the "unloading" system capacity control is activated.
The values ​​in the table are inclusive of ethylene glycol percentage and are calculated with ∆T = 5 °C evaporator and condenser ∆T = 5 °C.
To calculate performances at diferring water inlet/outlet ∆T levels, refer to the "∆T correction factors" table. Interpolation is allowed,
extrapolation is not permitted.
In the HP (heat pump) and R (total heat recovery) operating mode the heating capacity is detemined with the following formula: Heating
capacity = Cooling capacity + Total absorbed power.
PERFORMANCE DATA LOW WATER TEMPERATURE (LWT)
Fw
36
40
44
51
58
63
35 / 40
Pf Pa
172 72
203 73
225 75
264 76
303 78
329 80
Fw
33
37
42
48
55
60
40 / 45
Pf Pa
159 78
187 80
209 82
246 84
283 86
309 87
Fw
30
35
39
45
51
56
45 / 50
Pf Pa
145 85
172 88
192 89
227 92
263 94
287 95
Fw
28
32
35
41
48
52
50 / 55
Pf Pa
130 92
156 95
174 97
208 100
242 103
265 105
Fw
25
29
32
38
44
48
t max
(*)
Glycol
35%
25%
25%
20%
20%
20%
tu
-8
-5
-3
0
3
5
1601
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
223
256
283
330
374
405
66
68
69
72
74
76
43
47
52
60
68
74
208
240
266
311
356
384
73
74
75
77
80
81
40
44
49
57
65
70
192
224
249
292
336
364
80
81
83
84
87
88
37
41
46
53
61
66
177
207
231
272
314
342
87
89
90
92
95
96
34
38
43
49
57
62
162 94
190 97
212 99
252 101
291 104
318 105
31
35
39
46
53
58
146
172
193
230
268
293
102
105
107
111
113
115
28
32
36
42
49
53
55
55
55
55
55
55
1801
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
254
293
324
377
428
463
76
78
79
82
85
87
49
54
60
68
78
84
236
274
304
356
407
439
83
85
86
89
91
93
45
51
56
65
74
80
219 91
256 93
284 94
334 97
384 99
416 101
42
47
53
61
70
76
201
236
264
311
359
391
99
102
103
106
108
110
39
44
49
57
65
71
184
217
243
288
333
363
108
111
113
116
119
121
35
40
45
52
61
66
166
196
221
263
306
335
116
120
123
127
130
132
32
36
41
48
56
61
55
55
55
55
55
55
2001
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
281
324
357
416
472
511
82
84
86
89
92
94
54
60
66
76
86
93
262 90
303 92
336 94
392 96
447 99
485 101
50
56
62
71
81
88
243
282
314
368
423
459
99
101
103
105
108
110
47
52
58
67
77
83
224
261
291
343
395
431
108
111
113
115
118
120
43
48
54
62
72
78
204
239
268
317
367
400
118
121
123
126
129
131
39
44
50
58
67
73
184
217
243
290
337
369
127
131
134
138
142
144
35
40
45
53
61
67
55
55
55
55
55
55
2301
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
313 93
60
361 95
67
399 97
74
464 100 84
527 104 96
571 106 104
291
338
375
438
501
541
102
104
106
108
112
114
56
63
69
80
91
98
270
315
350
411
473
512
111
114
115
118
121
123
52
58
65
75
86
93
248
291
325
383
442
482
121
124
126
130
133
135
48
54
60
70
80
88
227
267
299
355
410
448
132
136
138
142
145
148
44
49
55
64
75
81
204
242
272
324
377
413
142
147
150
155
159
162
39
45
50
59
69
75
55
55
55
55
55
55
2601
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
348
400
441
512
582
630
101 67
104 74
106 82
109 93
113 106
116 114
324
375
415
484
553
597
111 62
114 69
115 77
118 88
122 101
124 109
300
349
388
455
521
566
122 58
124 65
126 72
129 83
132 95
135 103
276
323
360
424
488
533
133
136
138
142
145
147
53
60
67
77
89
97
252
296
331
392
453
495
145
149
151
155
159
162
48
55
61
71
82
90
228
269
301
359
417
456
156
161
165
170
174
177
44
50
56
65
76
83
55
55
55
55
55
55
3001
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
379
437
482
559
634
686
111 73
114 81
116 89
120 102
124 115
128 125
353
409
453
528
603
651
122 68
125 76
127 84
130 96
134 110
137 118
327
381
424
496
568
616
134 63
136 71
139 78
142 90
146 103
148 112
302
353
393
463
532
580
146 58
149 65
152 73
155 84
159 97
162 105
275
324
362
428
494
539
158
163
166
170
174
177
53
60
67
78
90
98
248
294
330
392
454
497
171
177
180
186
191
194
48
54
61
71
83
90
55
55
55
55
55
55
3301
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
408
470
519
601
683
739
119 78
122 87
124 96
128 109
133 124
136 134
380
441
488
568
649
701
130 73
133 81
135 90
139 103
143 118
146 127
352
410
456
533
612
663
143 68
146 76
148 84
152 97
156 111
158 121
324
380
423
498
572
624
156 62
160 70
162 78
166 90
170 104
173 113
296
348
389
460
531
580
170 57
174 64
178 72
182 84
187 97
190 105
266
316
354
421
488
534
183
189
193
199
204
208
51
58
65
77
89
97
55
55
55
55
55
55
1401
Fw
38
43
47
54
61
66
30 / 35
Pf Pa
186 66
218 67
241 68
281 70
321 72
347 74
55
55
55
55
55
55
Data declared according to UNI EN 14511:2013
tu: evaporator outlet water temperature (°C);
Pf: cooling capacity (kW);
Pa: total absorbed power (kW);
Fw: water flow rate with ΔT = 5 °C (m 3 /h).
(*): Condenser maximum outlet water temperature. When the condenser temperature is higher than the "t max" the unit doesn't stop but
the "unloading" system capacity control is activated.
The values ​​in the table are inclusive of ethylene glycol percentage and are calculated with ∆T = 5 °C evaporator and condenser ∆T = 5 °C.
To calculate performances at diferring water inlet/outlet ∆T levels, refer to the "∆T correction factors" table. Interpolation is allowed,
extrapolation is not permitted.
AQUARIUS Plus 2
Inlet / Outlet condenser water temperature [°C]
25 / 30
Pf Pa
200 60
232 61
256 63
297 65
338 67
366 69
In the R (total heat recovery) operating mode the heating capacity is detemined with the following formula: Heating capacity = Cooling
capacity + Total absorbed power.
19
PERFORMANCE DATA LOW WATER TEMPERATURE (LWT)
Inlet / Outlet condenser water temperature [°C]
Glycol
35%
25%
25%
20%
20%
20%
tu
-8
-5
-3
0
3
5
3202
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
456
523
576
667
758
819
132
135
138
142
146
150
88
97
106
121
138
149
426
491
542
631
719
779
145
148
150
154
158
161
82
91
100
115
131
142
395
458
507
594
682
737
159 76
162 85
164 94
168 108
172 124
175 134
364
424
471
554
638
695
174 70
178 78
180 87
184 101
188 116
191 126
332
389
434
513
593
647
189 64
194 72
197 80
202 93
207 108
210 118
300
353
395
470
545
597
204 58
211 65
215 73
221 85
227 99
230 109
55
55
55
55
55
55
3402
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
481
555
613
713
809
876
141
144
147
152
157
160
92
103
113
130
147
159
449
520
577
674
770
834
155
158
161
165
169
172
86
96
107
122
140
151
416
485
540
633
727
789
170
173
176
180
184
187
80
90
100
115
132
143
383
449
501
591
681
742
186 74
190 83
193 93
197 107
202 124
205 135
349
412
462
547
633
692
202 67
207 76
211 85
217 99
222 115
225 126
315
374
420
501
582
637
218 61
225 69
230 78
237 91
243 106
247 116
55
55
55
55
55
55
3602
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
512
591
653
760
864
935
151
154
157
162
168
172
98
109
121
138
157
170
477
554
615
719
823
890
165
169
172
176
181
185
92
102
114
131
150
162
443
517
575
676
776
843
181
185
188
193
197
200
85
96
106
123
141
153
408
479
535
632
728
792
198 78
203 89
206 99
211 115
216 132
220 144
372
439
493
585
677
739
215 72
222 81
226 91
232 106
237 123
241 134
336
398
448
536
623
682
233 64
241 74
246 83
253 97
260 113
265 124
55
55
55
55
55
55
4002
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
566
650
717
831
944
1021
165
169
172
177
183
188
109
120
133
151
172
186
528
610
674
786
898
972
181
184
187
192
197
201
102
113
125
143
163
177
490
569
631
739
849
921
198
202
205
210
215
219
94
105
117
134
154
167
451
526
586
689
793
865
216
222
225
230
235
239
87
97
108
125
144
157
412
483
539
638
737
804
235
242
246
252
258
262
79
89
100
116
134
146
372
438
491
584
678
742
254 71
263 81
268 91
276 106
283 123
288 135
55
55
55
55
55
55
4302
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
594
689
758
878
996
1077
175
179
183
189
195
200
114 554
127 646
140 713
160 829
181 946
196 1023
192
196
199
204
210
214
106
120
132
151
172
186
513
602
667
780
894
969
210
215
218
223
229
233
99
111
123
142
162
176
472
558
619
727
836
911
229
235
239
245
250
254
91
103
115
132
152
166
431
511
570
673
777
848
249
257
261
268
274
279
83
95
105
122
141
154
388
464
519
616
715
782
269 75
279 86
284 96
293 112
300 130
306 142
55
55
55
55
55
55
AQUARIUS Plus 2
2802
20
30 / 35
Pf Pa Fw
371 130 71
431 133 80
478 135 88
560 139 102
643 142 117
694 145 126
35 / 40
Pf Pa Fw
345 143 66
403 146 75
448 148 83
527 152 96
606 155 110
658 158 120
40 / 45
Pf Pa Fw
318 156 61
372 160 69
417 162 77
493 166 90
569 170 103
619 173 113
45 / 50
Pf Pa Fw
291 170 56
342 175 63
384 178 71
457 182 83
530 187 96
578 190 105
50 / 55
Pf Pa
263 183
311 190
350 194
419 199
488 205
534 208
t max
(*)
25 / 30
Pf Pa Fw
398 119 76
460 122 85
508 124 94
592 128 108
674 132 122
727 135 132
Fw
50
57
65
76
89
97
55
55
55
55
55
55
Data declared according to UNI EN 14511:2013
tu: evaporator outlet water temperature (°C);
Pf: cooling capacity (kW);
Pa: total absorbed power (kW);
Fw: water flow rate with ΔT = 5 °C (m 3 /h).
(*): Condenser maximum outlet water temperature. When the condenser temperature is higher than the "t max" the unit doesn't stop but
the "unloading" system capacity control is activated.
The values ​​in the table are inclusive of ethylene glycol percentage and are calculated with ∆T = 5 °C evaporator and condenser ∆T = 5 °C.
To calculate performances at diferring water inlet/outlet ∆T levels, refer to the "∆T correction factors" table. Interpolation is allowed,
extrapolation is not permitted.
In the R (total heat recovery) operating mode the heating capacity is detemined with the following formula: Heating capacity = Cooling
capacity + Total absorbed power.
PERFORMANCE DATA LOW WATER TEMPERATURE (LWT)
tu
-8
-5
-3
0
3
5
4902
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
661
771
850
987
1119
1211
193
198
202
208
215
220
127 617 212
143 723 217
157 800 220
179 932 226
203 1064 232
220 1152 236
118 571 232
134 674 238
148 749 241
169 877 247
193 1006 253
209 1090 257
110 526
125 624
138 695
159 818
183 942
198 1025
254
261
265
271
277
281
101
115
129
149
171
186
480
573
640
757
875
955
276
284
289
297
304
309
92
106
118
138
159
174
432
520
583
693
805
881
298
309
315
325
333
339
83
96
108
126
146
160
55
55
55
55
55
55
5202
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
700
804
886
1027
1165
1260
203
207
211
218
225
230
135 653 222
149 755 227
164 834 230
187 972 236
212 1110 242
229 1200 247
126 606 244
140 704 249
154 781 252
177 914 258
202 1047 264
218 1136 269
117 558
130 652
144 726
166 854
190 982
206 1068
266
272
277
283
289
294
107
121
134
155
178
194
510
598
668
790
913
996
289
297
303
310
318
323
98
111
124
144
166
181
460
543
609
724
840
919
313
323
330
339
348
354
88
100
113
132
153
167
55
55
55
55
55
55
5602
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
734
845
931
1079
1223
1323
213
218
222
229
237
243
141 684 233 132 635 255
156 792 238 147 739 261
172 877 242 162 820 265
196 1021 248 185 960 271
222 1164 255 211 1100 278
240 1259 260 229 1192 282
112 534
127 628
141 702
163 830
187 958
204 1045
303
312
317
326
333
339
103
116
130
151
174
190
481
570
639
760
881
964
327
339
346
356
365
372
93
105
118
138
160
175
55
55
55
55
55
55
6002
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
767
884
975
1132
1285
1390
222
228
232
239
247
254
147 716 244 138 664 267 128 612 292
163 829 249 153 774 273 143 717 299
180 919 253 170 860 277 159 800 303
206 1071 259 195 1008 283 183 942 311
234 1224 267 223 1156 290 210 1084 318
253 1324 272 241 1254 295 228 1180 323
107 504
122 597
136 671
159 799
183 929
200 1017
342
354
361
372
382
388
97
110
124
145
169
185
55
55
55
55
55
55
6602
35%
25%
25%
20%
20%
20%
-8
-5
-3
0
3
5
825
952
1051
1220
1385
1498
237
243
248
255
264
270
159 770 261 148 715 286 137 659 312 127 602 340
176 893 266 165 834 292 154 772 320 143 709 349
194 990 270 183 927 296 171 862 325 159 794 355
222 1155 277 210 1087 303 198 1015 332 185 941 364
252 1319 284 240 1246 310 226 1169 340 212 1087 373
272 1427 290 259 1353 315 246 1271 345 231 1186 379
116 544 367
131 644 379
147 724 387
171 862 399
198 1001 409
216 1095 416
104
119
134
157
182
199
55
55
55
55
55
55
122 585 279
137 684 286
152 762 290
174 896 297
200 1030 304
217 1121 309
45 / 50
Pf Pa Fw
466 264 90
546 272 101
610 276 113
719 283 131
830 290 151
906 294 165
50 / 55
Pf Pa Fw
420 286 81
495 295 92
555 301 103
658 310 120
763 318 139
835 323 152
t max
(*)
Glycol
35%
25%
25%
20%
20%
20%
4602
40 / 45
Pf Pa Fw
510 243 98
595 249 110
662 252 122
778 258 141
894 264 162
974 268 177
118 559 317
133 658 326
148 737 332
171 873 340
197 1009 348
214 1101 354
55
55
55
55
55
55
Data declared according to UNI EN 14511:2013
tu: evaporator outlet water temperature (°C);
Pf: cooling capacity (kW);
Pa: total absorbed power (kW);
Fw: water flow rate with ΔT = 5 °C (m 3 /h).
(*): Condenser maximum outlet water temperature. When the condenser temperature is higher than the "t max" the unit doesn't stop but
the "unloading" system capacity control is activated.
The values ​​in the table are inclusive of ethylene glycol percentage and are calculated with ∆T = 5 °C evaporator and condenser ∆T = 5 °C.
To calculate performances at diferring water inlet/outlet ∆T levels, refer to the "∆T correction factors" table. Interpolation is allowed,
extrapolation is not permitted.
In the R (total heat recovery) operating mode the heating capacity is detemined with the following formula: Heating capacity = Cooling
capacity + Total absorbed power.
AQUARIUS Plus 2
Inlet / Outlet condenser water temperature [°C]
25 / 30
30 / 35
35 / 40
Pf Pa Fw Pf Pa Fw Pf Pa Fw
641 185 123 598 203 115 554 222 107
736 189 136 690 207 128 643 227 119
811 193 150 762 210 141 713 230 132
940 199 171 887 215 161 833 235 151
1064 205 193 1010 221 184 956 241 174
1151 210 209 1095 225 199 1034 245 188
21
PERFORMANCE DATA PARTIAL HEAT RECOVERY (D)
Partial heat recovery inlet / outlet water temperature [°C]
1401
1601
1801
2001
2301
2601
3001
3301
2802
3202
3402
3602
4002
4302
4602
4902
5202
5602
6002
6602
30 / 35
Pd
Fw
27,6
4,7
28,4
4,9
30,2
5,2
30,7
5,3
41,7
7,2
43,5
7,5
44,8
7,7
55,7
9,6
55,1
9,5
56,8
9,8
58,6
10,1
60,5
10,4
61,4
10,6
72,4
12,4
83,3
14,3
85,2
14,6
87,0
15,0
88,3
15,2
89,7
15,4
111,3
19,1
35 / 40
Pd
Fw
25,4
4,4
26,2
4,5
27,9
4,8
28,3
4,9
38,5
6,6
40,2
6,9
41,4
7,1
51,4
8,8
50,9
8,8
52,4
9,0
54,1
9,3
55,8
9,6
56,7
9,7
66,8
11,5
76,9
13,2
78,6
13,5
80,3
13,8
81,5
14,0
82,8
14,2
102,7
17,7
40 / 45
Pd
21,2
21,8
23,3
23,6
32,0
33,5
34,5
42,8
42,4
43,7
45,1
46,5
47,2
55,7
64,1
65,5
66,9
67,9
69,0
85,6
Fw
3,6
3,8
4,0
4,1
5,5
5,8
5,9
7,4
7,3
7,5
7,8
8,0
8,1
9,6
11,0
11,3
11,5
11,7
11,9
14,7
Pd: heating capacity supplied by the partial heat recovery (kW);
Fw: water flow rate with ΔT = 5 °C (m 3 /h).
Performance data are referred to the following conditions:
- evaporator IN/OUT: 12/7 °C;
- condenser IN/OUT: 30/35 °C.
AQUARIUS Plus 2
PERFORMANCE DATA TOTAL HEAT RECOVERY (R)
Total heat recovery inlet / outlet water temperature [°C]
1401
1601
1801
2001
2301
2601
3001
3301
2802
3202
3402
3602
4002
4302
4602
4902
5202
5602
6002
6602
25 / 30
Pd
Fw
468
80
519
89
593
102
653
112
731
126
802
138
876
151
944
162
926
159
1040
179
1113
191
1186
204
1300
224
1375
236
1464
252
1538
264
1600
275
1681
289
1763
303
1896
326
30 / 35
Pd
Fw
455
78
504
87
576
99
633
109
708
122
780
134
851
146
915
157
900
155
1011
174
1083
186
1154
199
1265
218
1336
230
1424
245
1495
257
1556
268
1636
281
1715
295
1845
317
35 / 40
Pd
Fw
441
76
488
84
558
96
614
106
687
118
756
130
825
142
887
153
879
151
984
169
1053
181
1124
193
1227
211
1296
223
1381
238
1453
250
1514
260
1590
273
1670
287
1796
309
Pt: heating capacity supplied by the total heat recovery (kW);
Fw: water flow rate with ΔT = 5 °C (m 3 /h).
Performance data are referred to the following conditions:
- evaporator IN/OUT: 12/7 °C.
* LWT version: the maximum outlet water temperature is 55 °C;
** CH versions: the maximum outlet water temperature is 60 °C.
22
40 / 45
Pd
Fw
427
73
473
81
540
93
593
102
665
114
732
126
799
137
858
148
852
147
953
164
1019
175
1089
187
1188
204
1255
216
1337
230
1407
242
1466
252
1540
265
1618
278
1740
299
45 / 50
Pd
Fw
413
71
458
79
523
90
575
99
644
111
709
122
774
133
831
143
829
143
925
159
989
170
1058
182
1152
198
1217
209
1296
223
1365
235
1424
245
1494
257
1571
270
1690
291
50 / 55*
Pd
Fw
400
69
442
76
506
87
555
95
622
107
684
118
747
128
802
138
801
138
895
154
956
164
1022
176
1112
191
1175
202
1253
215
1318
227
1374
236
1444
248
1516
261
1631
281
55 / 60**
Pd
Fw
383
66
425
73
485
83
532
92
597
103
658
113
718
124
771
133
772
133
860
148
919
158
984
169
1070
184
1130
194
1203
207
1267
218
1323
228
1388
239
1460
251
1570
270
HYDRAULIC DATA
Evaporator - CH -HP - ME
Type
Water flow rate (1)
m 3 /h
Pressure drop (2)
kPa
Water content
l
Water connections
in
Evaporator - LWT
Type
Water flow rate (1)
Pressure drop (2)
Water content
Water connections
Condenser
Type
Number
Water flow rate (1)
m 3 /h
kPa
l
in
n°
m3/h
1401
1601
1801
24 / 104
8 / 118
113
DN100 (4")
23 / 97
7 / 92
170
DN125 (5")
34 / 146
7 / 103
164
DN125 (5")
18 / 74
11 / 159
113
DN100 (4")
18 / 72
11 / 146
170
DN125 (5")
25 / 99
11 / 154
164
DN125 (5")
1
1
1
1
2301
2601
3001
3301
Shell and tube
34 / 146
45 / 196
8 / 115
11 / 172
158
152
DN125 (5")
DN125 (5")
34 / 146
5 / 75
270
DN150 (6")
42 / 182
5 / 76
262
DN150 (6")
57 / 243
7 / 92
255
DN150 (6")
Shell and tube
30 / 119
30 / 119
12 / 157
12 / 180
158
152
DN125 (5")
DN125 (5")
31 / 124
9 / 121
270
DN150 (6")
31 / 124
10 / 141
262
DN150 (6")
38 / 149
10 / 139
255
DN150 (6")
1
1
1
1
36 / 118
9 / 100
56
G 4"
37 / 128
9 / 109
59
G5"
43 / 140
9 / 100
67
G 5"
48 / 159
9 / 100
75
G 5"
52 / 172
9 / 100
82
G 5"
58 / 191
9 / 100
90
G 5"
62 / 204
9 / 100
96
G 5"
1
1
1
1
1
1
1
9 / 99
103
G 5"
36 / 118
9 / 100
120
G 5"
37 / 128
9 / 109
124
G 5"
43 / 140
9 / 100
140
G 5"
48 / 159
9 / 100
157
G 5"
52 / 172
9 / 100
169
G 5"
58 / 191
9 / 100
193
G 6"
62 / 204
9 / 100
205
G 6"
5
G 3/4"
5
G 3/4"
5
G 3/4"
Shell and tube
5
7
G 3/4"
G 3/4"
7
G 3/4"
7
G 3/4"
10
G 1 1/4"
Shell and tube
30 / 99
Pressure drop (2)
kPa
9 / 99
Water content
l
48
Water connections
in
G 4"
Condenser / Total heat recovery - R
Type
Number
n°
1
Water flow rate (3) m3/h
30 / 99
Pressure drop (2)
kPa
Water content
l
Water connections
in
Partial heat recovery - D
Type
Water content
l
Water connections
in
2001
Shell and tube
(1) Minimum and maximum allowed water flow rate (m3 /h);
(2) Pressure drops referred to min/max allowed flow rate (kPa);
(3) Minimum and maximum water flow rate referred to condenser or heat recovery water circuit (m3 /h).
Type
Shell and tube
Water flow rate (1)
m 3 /h 38 / 150 46 / 180 58 / 226 58 / 226 53 / 211 53 / 211 66 / 264
Pressure drop (2)
kPa
10 / 131 11 / 143 12 / 153 12 / 153 10 / 138 11 / 154 10 / 128
Water content
l
325
307
298
298
512
501
492
Water connections
in DN150 (6") DN150 (6") DN150 (6") DN150 (6") DN200 (8") DN200 (8") DN200 (8")
Condenser
Type
Shell and tube
Number
n°
2
2
2
2
2
2
2
Water flow rate (1)
m 3 /h 60 / 199 71 / 236 74 / 236 74 / 256 85 / 281 96 / 293 96 / 317
Pressure drop (2)
kPa
9 / 99
9 / 100
9 / 96
9 / 109
9 / 100
10 / 97
9 / 100
Water content
l
96
112
115
118
134
142
150
Water connections
in
G 4"
G 4"
G 5"
G 5"
G 5"
G 5"
G 5"
Condenser / Total heat recovery - R
Type
Shell and tube
Number
n°
2
2
2
2
2
2
2
Water flow rate (3) m3/h 60 / 199 71 / 236 74 / 236 74 / 256 85 / 281 96 / 293 96 / 317
Pressure drop (2)
kPa
9 / 99
9 / 100
9 / 96
9 / 109
9 / 100
10 / 97
9 / 100
Water content
l
206
240
244
248
280
297
314
Water connections
in
G 5"
G 5"
G 5"
G 5"
G 5"
G 5"
G 5"
Partial heat recovery - D
Type
Shell and tube
Water content
10
10
10
10
10
12
14
l
Water connections
G 3/4"
G 3/4"
G 3/4"
G 3/4"
G 3/4"
G 3/4"
G 3/4"
in
66 / 264 66 / 264 66 / 264 66 / 264 88 / 353
10 / 132 10 / 132 10 / 142 10 / 142 12 / 153
492
492
481
481
470
DN200 (8") DN200 (8") DN200 (8") DN200 (8") DN200 (8")
2
2
2
2
2
104 / 332 104 / 344 115 / 359 115 / 381 124 / 408
10 / 101
9 / 100
10 / 99
9 / 100
9 / 100
157
164
172
180
192
G 5"
G 5"
G 5"
G 5"
G 5"
2
2
2
2
2
104 / 332 104 / 344 115 / 359 115 / 381 124 / 408
10 / 101
9 / 100
10 / 99
9 / 100
9 / 100
326
338
362
386
410
G 5"
G 5"
G 6/5"
G 6"
G 6"
14
G 3/4"
14
G 3/4"
14
G 3/4"
14
G 3/4"
AQUARIUS Plus 2
2802
3202
3402
3602
4002
4302
4602
4902
5202
5602
6002
6602
Evaporator - CH -HP - ME
Type
Shell and tube
Water flow rate (1)
m 3 /h 42 / 179 52 / 222 68 / 297 68 / 297 60 / 259 80 / 347 80 / 343 80 / 347 80 / 347 80 / 343 80 / 347 80 / 347
Pressure drop (2)
kPa
6 / 84
7 / 97
9 / 138
9 / 138
6 / 80
6 / 87
7 / 91
7 / 93
7 / 93
7 / 98
7 / 100
8 / 107
Water content
l
325
307
298
298
512
501
492
492
492
481
481
470
Water connections
in DN150 (6") DN150 (6") DN150 (6") DN150 (6") DN200 (8") DN200 (8") DN200 (8") DN200 (8") DN200 (8") DN200 (8") DN200 (8") DN200 (8")
Evaporator - LWT
20
G1 1/4"
(1) Minimum and maximum allowed water flow rate (m3 /h);
(2) Pressure drops referred to min/max allowed flow rate (kPa);
(3) Minimum and maximum water flow rate referred to condenser or heat recovery water circuit (m3 /h).
23
PRESSURE DROPS
pressure drops (kPa)
EVAPORATOR PRESSURE DROPS - CH - HP
1
1: 1401
2: 1601
3: 1801
4: 2001
5: 2301
6: 2601
7: 3001
8: 3301
9: 2802
10: 3202
11: 3402 - 3602
12: 4002
13: 4302
14: 4602 - 4902 - 5202
15: 5602 - 6002
16: 6602
5
4
16
3
100
10
15
11
2
14
13
8
9
12
7
6
50
0
0
50
100
150
200
250
300
350
400
water flow FW (m 3 /h)
pressure drops (kPa)
EVAPORATOR PRESSURE DROPS - LWT
1: 1401
2: 1601
3: 1801
4: 2001
5: 2301
6: 2601
7: 3001
8: 3301
9: 2802
10: 3202
11: 3402 - 3602
12: 4002
13: 4302
14: 4602 - 4902 - 5202
15: 5602 - 6002
16: 6602
5
1
150
4
3
2
13
7
8
10
16
11
15
12
9
14
6
50
0
50
100
150
200
250
300
350
400
CONDENSER AND TOTAL HEAT RECOVERY PRESSURE DROPS
1: 1401
2: 1601
3: 1801
4: 2001
5: 2301
6: 2601
7: 3001
8: 3301
9: 2802
10: 3202
11: 3402 - 3602
12: 4002
13: 4302
14: 4602 - 4902 - 5202
15: 5602 - 6002
16: 6602
3
1
100
2
5
4
6
7 9 8
12
10
11
13
15
14
16
50
0
24
0
water flow FW (m 3 /h)
pressure drops (kPa)
AQUARIUS Plus 2
100
0
50
100
150
200
250
300
350
400
450
water flow FW (m 3 /h)
WORKING LIMITS
CH - HP - R - D
External ambient temperature
Evaporator inlet water temperature
Evaporator outlet water temperatute
Delta T of the water (2)
Condenser inlet water temperature (3)
Condenser outlet water temperature
Condenser water Delta T (2)
Pressure evaporator water side
Pressure condenser water side
°C
°C
°C
°C
°C
°C
°C
bar
bar
LWT
External ambient temperature (*)
Evaporator inlet water temperature
Evaporator outlet water temperature (1)
Evaporator water delta T (2)
Condenser inlet water temperature (3)
Condenser outlet water temperature
Condenser water delta T (2)
Pressure evaporator water side
Pressure condenser water side
°C
°C
°C
°C
°C
°C
°C
bar
bar
Min
-10
3 (1)
0 (1)
3
23
27
4
0
0
Max
43
25
20
8
55
60
7
10
10
Min
-10
-5
-8
3
20
24
4
0
0
Max
43
10
5
8
50
55
7
10
10
The values are referred to operation of the unit at full load.
(*) For external air temperature lower than 0 °C you must add a suitable quantity of antifreeze solution.
1) For water outlet temperatures lower than 6 °C you must add a suitable quantity of antifreeze solution.
2) Comply with the exchanger minimum and maximum flow rate values.
3) The limits for the inlet temperature of the condenser are referred to operation without a pressure control valve.
CH - HP - R - D VERSIONS
60
55
50
45
Antifreeze solutions
40
35
30
25
20
15
-5
0
5
10
15
20
25
Evaporator outlet water temperature °C
AQUARIUS Plus 2
Condenser outlet water temperature °C
65
25
Condenser outlet water temperature °C
LWT VERSION
60
55
50
45
40
Antifreeze solutions
35
30
25
20
15
-10
-8
-6
-2
-4
4
2
0
6
8
Evaporator outlet water temperature °C
THERMAL INSULATION THICKNESS LIMITS
Standard insulation thickness 10 mm (*)
AQUARIUS Plus 2
Ambient temperature
Water outlet temperature
20 °C
30 °C
35 °C
+10 mm (*)
40 °C
45 °C
47 °C
RH Max
-5 °C
83%
72%
68%
65%
63%
61%
80%
0 °C
90%
80%
73%
70%
67%
65%
82%
7 °C
97%
87%
77%
75%
73%
68%
83%
15 °C
99%
95%
85%
82%
78%
75%
86%
The values in the table refer to the thickness of the thermal insulation of the hydraulic circuit and they show the maximum relative
humidity above which ambient moisture condenses (these values are ot the operation limits of the chillers).
(*) Closed cell thermal insulation.
CORRECTION FACTORS
CORRECTION FACTORS ∆T ≠ 5 °C
∆T Evaporator
Cooling capacity correction factor
Absorbed power correction factor
k1
Kp1
3
4
5
6
7
0,992
1,039
0,996
1,021
1,000
1,000
1,010
0,996
1,020
0,991
∆T Condenser Tower water
Cooling capacity correction factor
Absorbed power correction factor
k1
Kp1
4
5
6
7
8
1,002
1,016
1,000
1,000
0,996
1,001
0,992
1,002
0,988
1,003
Multiply the unit performance by the correction factors given in table (P* = P_ x K1, Pa* = Pa x Kp1 where P_= Ph o Pf ). The new water flow to
the evaporator is calculated by means of the following equation Fw (l/h) = P* (kW) x 860 / ∆T where ∆T of the water through the evaporator (°C).
SOLUTIONS OF WATER AND ETHYLENE GLYCOL
Cooling capacity correction factor
Absorbed power correction factor
Water flow correction factor (1)
Pressure drop correction factor
26
10 °C
K2
Kp2
KFWE2
Kdp2
10
0,982
0,997
1,010
1,094
% Ethylene glycol by weight
20
30
40
0,976
0,968
0,957
0,997
0,997
0,997
1,030
1,066
1,091
1,250
1,375
1,563
50
0,943
0,996
1,115
1,721
Multiply the unit performance by the correction factors given in the table (es. Pf(new) = Pf x K2);
(1) KFWE2 = correction factor (referred to the cooling capacity/heating capacity corrected by K2) to obtain the water flow with a 5 °C.
FOULING FACTORS
Evaporator fouling factors (m2 °C/W)
Cooling capacity correction factor
Absorbed power correction factor
0
1
1
k4
Kp4
0,000043
0,986
0,996
0,000086
0,973
0,992
0,000172
0,947
0,984
0,000344
0,903
0,970
Tower water condenser fouling factors (m2 °C/W)
Cooling capacity correction factor
Absorbed power correction factor
0
1
1
k4
Kp4
0,000043
0,996
1,006
0,000086
0,992
1,011
0,000172
0,984
1,023
0,000344
0,968
1,047
To determine the effect of fouling on the heat exchanger water/refrigerant, multiply the cooling capacity Pf by k4 and the absorbed power
Pa by kp4. (ex. Pf(new) = Pf x k4, Pa(new) = Pa x kp4).
SELECTION TABLES FOR PRESSURE CONTROL VALVES AND MODULATING VALVES
inch
1”1/2
2”
2”1/2
3”
4”
WVS 40
WVS 50
WVS 65
WVS 80
WVS 100
Flow rate
kv
Min
m 3 /h
13
16
24
40
55
m 3 /h
21
32
45
80
125
Connections
kv
Max Flow rate
inch
1”1/2
2”
2”1/2
3”
4”
5”
m 3 /h
25
40
63
100
130
200
m 3 /h
22
36
56
89
116
179
available head pressure (kPa)
3FGB DN 40
3FGB DN 50
3FGB DN 65
3FGB DN 80
3FGB DN 100
3FGB DN 125
1
250
2
3
4
5
150
100
available head pressure (kPa)
Modulating valves
Max
m 3 /h
19
29
40
72
112
Max. differential pressure
Adjustment
Closing
bar
bar
2
11,7
2
7,3
2
3,7
2
2,4
1,5
1,5
1
1
1
150
2
3
4
5
6
100
50
50
25
10
50
100
200
10
10
water flow FW (m 3 /h)
1: WVS 40
2: WVS 50
3: WVS 65
4: WVS 80
5: WVS 100
50
100
150
200
water flow FW (m 3 /h)
1: 3FGB DN 40
2: 3FGB DN 50
3: 3FGB DN 65
4: 3FGB DN 80
5: 3FGB DN 100
6: 3FGB DN 125
AQUARIUS Plus 2
Connections
Pressure control
valves
The maximum flow rates are calculated allowing a pressure drop of 80 kPa with the valve fully open. When using modulating valves check
the maximum control and closing differential pressure values; if these limits are not complied with, consult our sales department for an
ad hoc selection.
27
OVERALL DIMENSIONS VERSIONS: CH - HP - LWT
1401 - 1601 - 1801 - 2001 - 2301 - 2601 - 3001 - 3301
OPTIONAL
OPTIONAL
1401
2601
1601
3001
1801
3301
2001
OPTIONAL
2301
AQUARIUS Plus 2
OPTIONAL
28
CH - HP - LWT
I
L
M
N
P
R
IN/OUT
Condenser
in
B
C
D
E
F
G
1401
4344
1640
1460
1137
2070
1137
1380
929
2486
929
340
343
837
340
DN100 (4”)
G 4”
1601
4344
1645
1460
1452
1715
1177
1380
947
2450
947
340
322
856
340
DN125 (5”)
G 4”
Model
H
IN/OUT
Evaporator
in
A
mm
1801
4326
1721
1460
1498
1685
1143
1380
938
2450
938
340
329
846
340
DN125 (5”)
G 5”
2001
4326
1721
1485
1388
1795
1143
1405
938
2450
938
340
354
846
340
DN125 (5”)
G 5”
2301
4326
1645
1485
1438
1745
1143
1405
938
2450
938
340
354
846
340
DN125 (5”)
G 5”
2601
4326
1770
1460
1473
1710
1143
1380
957
2412
957
385
287
893
415
DN150 (6”)
G 5”
3001
4334
1819
1460
1421
1770
1143
1380
965
2412
957
385
287
893
415
DN150 (6”)
G 5”
3301
4334
1819
1460
1414
1777
1143
1380
965
2412
957
385
282
893
415
DN150 (6”)
G 5”
: Evaporator water inlet
: Condenser water inlet
: Water discharge: Rp 1/2"
: Evaporator water outlet
: Condenser water outlet
: Air vent: Rp 1/2"
: Power supply
2802 - 3202 - 3402 - 3602 - 4002 - 4302 - 4602 - 4902 - 5202 - 5602 - 6002 - 6602
CH - HP - LWT
H
I
L
M
N
P
R
IN/OUT
Evaporator
in
IN/OUT
Condenser
in
A
B
C
D
E
F
G
2802
4906
2165
1133
2369
1404
1039
2962
905
835
-
-
-
-
-
DN150 (6”)
G 4”
3202
4906
2165
1133
2369
1404
1039
2962
905
835
-
-
-
-
-
DN150 (6”)
G 4”
Model
mm
3402
4919
2165
1407
2369
1503
1039
2962
918
835
-
-
-
-
-
DN150 (6”)
G 5”
3602
4919
2165
1035
2558
1326
1039
2962
918
835
-
-
-
-
-
DN150 (6”)
G 5”
4002
4922
2278
1146
2369
1407
1063
2910
949
899
-
-
-
-
-
DN200 (8”)
G 5”
4302
4922
2278
1146
2369
1407
1063
2910
949
899
-
-
-
-
-
DN200 (8”)
G 5”
4602
4922
2278
1146
2369
1407
1063
2910
949
899
-
-
-
-
-
DN200 (8”)
G 5”
4902
4922
2278
1126
2369
1427
1063
2910
949
899
-
-
-
-
-
DN200 (8”)
G 5”
5202
4922
2278
1146
2369
1407
1063
2910
949
899
-
-
-
-
-
DN200 (8”)
G 5”
5602
4970
2278
1120
2379
1470
1060
2910
1000
899
-
-
-
-
-
DN200 (8”)
G 5”
6002
4970
2278
1145
2369
1460
1060
2910
1000
899
-
-
-
-
-
DN200 (8”)
G 5”
6602
4972
2278
1146
2369
1457
1065
2910
997
899
-
-
-
-
-
DN200 (8”)
G 5”
: Evaporator water inlet
: Condenser water inlet
: Water discharge: Rp 1/2"
: Evaporator water outlet
: Condenser water outlet
: Air vent: Rp 1/2"
AQUARIUS Plus 2
OPTIONAL
: Power supply
29
OVERALL DIMENSIONS WITH PARTIAL HEAT RECOVERY (D) VERSIONS
1401 - 1601 - 1801 - 2001 - 2301 - 2601 - 3001
OPTIONAL
OPTIONAL
1401
2601
1601
3001
1801
2001
OPTIONAL
OPTIONAL
2301
AQUARIUS Plus 2
3301
30
OPTIONAL
D - Partial Heat Recovery
Model
1401
A
B
C
D
E
F
G
H
I
L
M
N
P
R
S
T
U
IN/OUT
Evaporator
IN/OUT
Condenser
IN/OUT
Partial heat recovery
mm
in
in
in
4330 1668 1460 1130 2070 1130 1380 922 2486 922 340 312 801 273 454 310 340
DN100 (4”)
G 5”
G 3/4”
1601
4331 1668 1460 1445 1715 1170 1380 940 2450 940 340 304 819 263 454 300 340
DN125 (5”)
G 5”
G 3/4”
1801
4331 1721 1460 1500 1685 1145 1380 940 2450 940 340 324 809 253 454 290 340
DN125 (5”)
G 5”
G 3/4”
2001
4330 1645 1485 1388 1795 1143 1405 940 2450 940 340 334 809 268 454 305 340
DN125 (5”)
G 5”
G 3/4”
2301
4330 1645 1485 1440 1745 1145 1405 940 2450 940 340 332 809 270 454 307 340
DN125 (5”)
G 5”
G 3/4”
2601
4331 1770 1460 1475 1710 1145 1380 959 2412 959 385 270 856 260 529 297 415
DN150 (6”)
G 5”
G 3/4”
3001
4337 1819 1460 1405 1770 1155 1380 959 2412 959 385 272 856 258 529 295 415
DN150 (6”)
G 5”
G 3/4”
3301
4398 1952 1460 1420 1777 1200 1380 993 2412 993 435 230 930 300 578 300 435
DN150 (6”)
G 6”
G 1 1/4”
: Evaporator water inlet
: Condenser water inlet
: Water inlet heat recovery
: Water discharge: Rp 1/2"
: Evaporator water outlet
: Condenser water outlet
: Water outlet heat recovery
: Air vent: Rp 1/2"
: Power supply
2802 - 3202 - 3402 - 3602 - 4002 - 4302 - 4602 - 4902 - 5202 - 5602 - 6002
OPTIONAL
OPTIONAL
D - Partial Heat Recovery
Model
A
B
C
D
E
F
G
H
I
L
M
N
P
R
S
T
U
mm
IN/OUT
Evaporatore
in
IN/OUT
IN/OUT
Condensatore Partial heat recovery
in
in
2802
4906 2165 1133 2369 1404 1039 2962 905 835
-
-
-
-
-
-
-
-
DN150 (6”)
G 5”
G 3/4”
3202
4906 2165 1133 2369 1404 1039 2962 905 835
-
-
-
-
-
-
-
-
DN150 (6”)
G 5”
G 3/4”
3402
4919 2165 1407 2369 1503 1039 2962 918 835
-
-
-
-
-
-
-
-
DN150 (6”)
G 5”
G 3/4”
3602
4919 2165 1035 2558 1326 1039 2962 918 835
-
-
-
-
-
-
-
-
DN150 (6”)
G 5”
G 3/4”
4002
4922 2278 1146 2369 1407 1063 2910 949 899
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 3/4”
4302
4922 2278 1146 2369 1407 1063 2910 949 899
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 3/4”
4602
4922 2278 1146 2369 1407 1063 2910 949 899
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 3/4”
4902
4922 2278 1126 2369 1427 1063 2910 949 899
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 3/4”
5202
4922 2278 1146 2369 1407 1063 2910 949 899
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 3/4”
5602
4971 2278 1120 2379 1470 1065 2910 997 899
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 3/4”
6002
4971 2278 1145 2369 1458 1065 2910 997 899
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 3/4”
6602
4972 2380 1145 2369 1458 1065 2910 997 1001
-
-
-
-
-
-
-
-
DN200 (8”)
G 6”
G 1 1/4”
AQUARIUS Plus 2
6602
: Evaporator water inlet
: Condenser water inlet
: Water inlet heat recovery
: Water discharge: Rp 1/2"
: Evaporator water outlet
: Condenser water outlet
: Water outlet heat recovery
: Air vent: Rp 1/2"
: Power supply
31
OVERALL DIMENSIONS WITH TOTAL HEAT RECOVERY (R) VERSIONS
1401 - 1601 - 1801 - 2001 - 2301 - 2601 - 3001 - 3301
OPTIONAL
1401
1601
1801
2001
2301
OPTIONAL
2601
3001
3301
OPTIONAL
AQUARIUS Plus 2
OPTIONAL
32
R - Total Heat Recovery
Model
A
B
C
D
E
F
G
H
I
L
M
N
P
R
S
T
U
mm
IN/OUT
Evaporator
in
IN/OUT
Condenser
in
IN/OUT
Total heat recovery
in
1401
4470 1768 1460 1200 2070 1200 1380 992 2486 992 440 265 775 420 415 220 415
DN100 (4”)
G 5”
G 5”
1601
4470 1763 1460 1485 1745 1240 1380 1010 2450 1010 435 247 793 420 415 220 415
DN125 (5”)
G 5”
G 5”
1801
4470 1816 1485 1495 1745 1230 1405 1010 2450 1010 435 262 783 440 415 240 415
DN125 (5”)
G 5”
G 5”
2001
4470 1816 1485 1440 1795 1235 1405 1010 2450 1010 435 262 783 440 415 240 415
DN125 (5”)
G 5”
G 5”
2301
4470 1816 1485 1482 1745 1243 1405 1010 2450 1010 435 262 783 440 415 240 415
DN125 (5”)
G 5”
G 5”
2601
4470 1848 1460 1485 1710 1275 1380 1029 2412 1029 385 210 830 420 415 220 415
DN150 (6”)
G 5”
G 5”
3001
4474 1992 1485 1460 1777 1237 1405 1031 2412 1031 475 222 827 436 479 184 479
DN150 (6”)
G 6”
G 6”
3301
4474 1992 1485 1380 1777 1317 1405 1031 2412 1031 475 222 827 436 479 184 479
DN150 (6”)
G 6”
G 6”
: Evaporator water inlet
: Condenser water inlet
: Water inlet heat recovery
: Water discharge: Rp 1/2"
: Evaporator water outlet
: Condenser water outlet
: Water outlet heat recovery
: Air vent: Rp 1/2"
: Power supply
2802 - 3202 - 3402 - 3602 - 4002 - 4302 - 4602 - 4902 - 5202
OPTIONAL
OPTIONAL
R - Total Heat Recovery
Model
A
B
C
D
E
F
G
H
I
L
M
N
P
R
S
T
U
mm
IN/OUT
Evaporator
in
IN/OUT
Condenser
in
IN/OUT
Total heat recovery
in
2802
4906 2357 1133 2369 1404 1039 2963 904 1027
-
-
-
-
-
-
-
-
DN150 (6”)
G 5”
G 5”
3202
4906 2357 1133 2369 1404 1039 2963 904 1027
-
-
-
-
-
-
-
-
DN150 (6”)
G 5”
G 5”
3402
4919 2357 1407 2369 1503 1039 2963 917 1027
-
-
-
-
-
-
-
-
DN150 (6”)
G 5”
G 5”
3602
4919 2357 1035 2558 1326 1039 2963 917 1027
-
-
-
-
-
-
-
-
DN150 (6”)
G 5”
G 5”
4002
4922 2380 1146 2369 1407 1063 2910 949 1001
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 5”
4302
4922 2380 1146 2369 1407 1063 2910 949 1001
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 5”
4602
4922 2380 1146 2369 1407 1063 2910 949 1001
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 5”
4902
4922 2380 1146 2369 1407 1063 2910 949 1001
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 5”
5202
4922 2380 1146 2369 1407 1063 2910 949 1001
-
-
-
-
-
-
-
-
DN200 (8”)
G 5”
G 5”
5602
4971 2472 1145 2369 1458 1065 2910 997 1092
-
-
-
-
-
-
-
-
DN200 (8”)
G 6”
G 6”
6002
4971 2472 1145 2369 1458 1065 2910 997 1092
-
-
-
-
-
-
-
-
DN200 (8”)
G 6”
G 6”
6602
4972 2470 1145 2369 1458 1065 2910 997 1092
-
-
-
-
-
-
-
-
DN200 (8”)
G 6”
G 6”
AQUARIUS Plus 2
5602 - 6002 - 6602
: Evaporator water inlet
: Condenser water inlet
: Water inlet heat recovery
: Water discharge: Rp 1/2"
: Evaporator water outlet
: Condenser water outlet
: Water outlet heat recovery
: Air vent: Rp 1/2"
: Power supply
33
INSTALLATION GUIDE
Installation of the units described in this catalogue must be performed in observance of the following prescriptions:
a) Install the unit in a perfectly horizontal position to ensure correct oil return to the compressors.
b) Maintain the specified clearances around the unit.
c) Where possible, install the machine in a way to minimise the effects of noise, vibration, etc. In particular, do not to install the machine
in areas where the noise could cause nuisance as under windows or between two residences. The vibrations transmitted to the ground
must be reduced by using anti-vibration mounts, flexible joints on the water pipelines and on the conduit containing the cable of the
electrical supply.
d) Electrical installation works must be carried out by a specialist in accordance with the wiring diagrams and in compliance with the current
regulations in force in the country where the unit are installed.
e) Make the hydraulic connections, installing the following:
- flexible couplings;
- shut-off valves;
- bleed valves in the uppermost sections of the plant;
- safety valve;
- grain valves in the lowermost points of the plant;
- pump and expansion tank;
- flow switch;
- metal mesh filter with the mesh size not exceeding 1 mm installed on water inlet side of the evaporator and condensers, in order to protect
the heat exchanger from impurities present in the system.
f) If the total volume of the hydraulic circuit is insufficient, install a water storage tack down-line from the user side exchanger; the storage
tank serves to reduce the range of fluctuations of chilled water temperature while simultaneously optimising the energy efficiency of the
unit. The following table shows the minimum water contents of the installation referred to nominal operating conditions, with the standard
settings of the electronic controller parameters:
Minimum volume [m 3]
AQUARIUS Plus 2
Minimum volume [m 3]
34
Minimum volume [m 3]
1401
1601
1801
2001
2301
2601
3001
3301
4,7
5,3
6,0
6,6
7,5
8,2
9,0
9,7
2802
3202
3402
3602
4002
4302
4602
4902
4,7
5,3
5,7
6,0
6,6
7,0
7,5
7,8
5202
5602
6002
6602
8,2
8,6
9,0
9,7
g) In the case of cooling capacity requirements that are higher than the maximum capacities available with a single unit, the chillers can be
connected in parallel on the hydraulic circuit, ideally selecting identical units in order to avoid situations of imbalance of water flow rates.
h) If it is necessary to treat water flow rates that are higher than the maximum permissible flow rate associated with the unit, it is advisable
to set up a by-pass between the chiller inlet and outlet.
i) If it is necessary to treat water flow rates that are lower than the minimum permissible flow rate associated with the chiller, it is advisable
to set up a by-pass between the chiller outlet and inlet.
l) Carefully bleed all air from the hydraulic circuit because even a small amount of air the circuit can cause the evaporator to freeze.
m) Always drain the hydraulic circuit during winter shutdowns; alternatively, ensure the circuit is filled with a suitable antifreeze solution.
09-14
The images of the products in the document are for illustrative purposes only and therefore do not have any contractual value.
5050EAQP2001AA
M.T.A. S.p.A.
Viale Spagna, 8 ZI
35020 Tribano (PD) Italy
MTA France S.A.
Tel: +33 04 7249 8989
www.mtafrance.fr
Tel. +39 049 9588611
Fax +39 049 9588676
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Tel: +49 (2157) 12402 - 0
www.mta.de
[email protected]
www.mta-it.com
Milan branch office
Tel. +39 02 95738492
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Tel: +34 938 281 790
www.novair-mta.com
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Tel: +40 723 022023
www.mta-it.ro
MTA is represented in over 80 countries
worldwide. For information concerning your
nearest MTA representative please contact
M.T.A. S.p.A.
The continuous improvement of MTA's products
can cause some variations in the information
herein even without prior notice. Reproduction
in whole or in part is forbidden.
MTA is ISO9001 certified, a sign
of its commitment to complete
customer satisfaction.
MTA products comply with
European safety directives, as
recognised by the CE symbol.
MTA USA, LLC
Tel: +1 716 693 8651
www.mta-usa.com
MTA Australasia Pty Ltd
Tel: +61 1300 304 177
www.mta-au.com
MTA partecipates in the E.C.C.
programme for LCP-HP.
Certified products are listed on:
www.eurovent-certification.com.
Eurovent Certification applied
to the units:
- Air/Water with cooling capacity
up to 600 kW
-Water/Water up to 1500 kW
GOST Certification