AquaChill
Air Cooled Scroll Water Chillers
With hydronic kit option
ALY Series, R-22
ALY010A thru ALY190A
10 TR thru 190 TR
35 kW thru 670 kW
Company Business
Zamil Air Conditioners was founded in 1974 as one of the first air conditioning companies to be established in Saudi Arabia
and today is a leading international manufacturer of air conditioning systems and is Number One in the Middle East.
Zamil Air conditioners manufactures both consumer and central air conditioners and has sales operations in over 55
countries in the Middle East, Europe, Africa and Asia.
The company’s operations are structured into four Strategic Business Units (SBUs) supporting five in-house product and
service brands as well as a number of international brands under the OEM sales.
The five in-house brands are Classic, Cooline, CoolCare, Clima Tech and Geoclima.
The four SBUs are:
1. Consumer Business Unit supporting Classic, Cooline, GE and OEM brands for consumers.
2. Unitary & Applied Business Unit supporting Zamil, Cooline, GE and OEM brands for commercial and industrial customers.
3. Zamil CoolCare Business Unit providing industrial, electro mechanical contracting services, HVAC maintenance,
retrofit & operation services and parts.
4. Geoclima srl is an independent business supporting other SBUs for their requirements of chillers & double skin AHU’s.
The first three SBUs - Consumer Products, Unitary & Applied Products and CoolCare direct their business operations
from the corporate headquarters in Dammam, Saudi Arabia.
Geoclima has its engineering & production operations located at Monfalcone, Italy and has a design center in Austria.
All the four SBUs, while operating independently, supplement each other’s activities in a way that makes synergy work at
its best and achieve the corporate goals of maximizing customer satisfaction.
Factories and Productions
Zamil Air Conditioners has two manufacturing plants in Dammam, Saudi Arabia and has one specialty production facility
in Italy operated by Geoclima.
The company can produce up to 550,000 Room Air Conditioners, 300,000 Mini-Split systems and 50,000 Central Air
Conditioning systems per year.
Quality & Product Certificates
The Quality systems and policies at Zamil Air Conditioners comply with the required ISO 9001:2008 certification.
Zamil Air Conditioners is the first company in Saudi Arabia to receive the SASO (Saudi Arabia’s Standard Organization)
Certificate for Room Air Conditioners. ZAC’s products are also certified with:
1. CE (Council of European Community)
2. UL (Underwriters Laboratory)
3. Eurovent (Certified Performance)
4. ETL (Test Facilities)
5. SASO (Saudi Arabian Standards Organization)
6. ISO 9001:2008 (International Organization for Standardization)
7. ASME (American Quality of Mechanical Engineers)
Other awards include the prestigious Engineering Excellence Award of General Electric and the inaugural Prince Mohammed
bin Fahd Al Saud Award for Factory Safety.
Our Products
In addition to the consumer products such as the Room Air Conditioners (RAC) and the Mini Splits, Zamil Air Conditioners manufacturers a host of residential, commercial and industrial air conditioners. This broad range extends from the
Concealed Units up to 5 TR, the Ducted Splits up to 30 TR, the Packaged Units up to 95 TR, the Single and Double Skin
Air Handling Units up to 138,316 CFM and the Water Chillers up to 500 TR cooling capacity.
INDEX
Contents
Page
Model decoding ........................................................................................................................................ 2
Introduction ........................................................................................................................................... 3-5
Unit features, standard specifications & options .................................................................................. 6-10
Physical data ..................................................................................................................................... 11-13
Selection procedure .......................................................................................................................... 14-15
Performance data .............................................................................................................................. 16-21
Electrical data .................................................................................................................................... 22-25
Water side pressure drop ....................................................................................................................... 26
Unit dimensions ................................................................................................................................ 27-30
Typical schematic wiring diagram ...................................................................................................... 31-34
Microprocessor controller ....................................................................................................................... 35
Application guidelines ........................................................................................................................ 36-40
Rigging instructions ................................................................................................................................ 41
Installation clearance .............................................................................................................................. 42
Mounting location ................................................................................................................................... 43
Load distribution ................................................................................................................................ 44-45
CONTINUING RESEARCH RESULTS IN STEADY IMPROVEMENTS.
THEREFORE, THESE SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE.
1
2
190
180
170
160
140
130
120
110
100
090
080
070
065
055
045
040
035
030
025
020
015
010
4, 5 & 6
UNIT SIZE
(NOMINAL
CAPACITY)
H : 208/230-3-60
A : R-22
F : 460-3-60
M: 380-3-60
(4 WIRE)
8
ELECTRICAL
SUPPLY
( V-Ph-Hz )
7
REFRIGERANT
(SEE NOTE # 3
BELOW)
E : COPPER FIN
WITH ResisTec
COATING
D : ALUMINUM FIN
WITH ResisTec
COATING
C : COPPER FIN
B : PRE-COATED
ALUMINUM FIN
A : ALUMINUM FIN
9
CONDENSER COIL
A : COMPRESSOR CIRCUIT
BREAKER
10
CIRCUIT BREAKER
D : ASME STAMPED
WITH FLANGE CONN.
(OPTIONAL) (1)/(2)
C : ASME STAMPED
WITH VICTAULIC CONN.
(OPTIONAL) (1)/(2)
B : FLANGE CONN.(1)
(OPTIONAL)
A : STANDARD WITH
VICTAULIC CONN.(1)
11
COOLER OPTIONS
B : HGBP (OPTIONAL)
A : STANDARD UNIT
WITHOUT HGBP
12
HGBP OPTIONS
15 & 16
OTHER
OPTIONS
PU : STANDARD UNIT
WITH HYDRONIC
KIT (4)
SEE NOTE # 5 AA : STANDARD UNIT
BELOW
WITHOUT
HYDRONIC KIT
13 & 14
OPTIONS
&
ACCESSORIES
- MULTI-ResisTec SHEET METAL etc...
- MULTI-ResisTec PIPING
- SPRING ISOLATOR
- WATER FLOW SWITCH
- UNIT DISCONNECT SWITCH
- COOLER GUARD
5. COMPUTER SELECTED DIGITS (FROM 'AA' TO 'ZZ') DESCRIBING OTHER OPTIONS & ACCESSORIES OR COMBINATIONS THEREOF, SUCH AS: - CONDENSER COIL GUARD
4. HYDRONIC KIT OPTION COMES STANDARD WITH: WATER PUMP, EXPANSION TANK ETC... (REFER TO PAGE-9).
3. FOR OTHER COATING, SPECIFY YOUR REQUIREMENTS IN WRITING.
2. ASME OPTION IS NOT APPLICABLE FOR MODELS ALY010A & ALY015A.
1. NOT APPLICABLE FOR MODELS ALY010A TO ALY045A, MPT (MALE PIPE THREAD) CONNECTION ONLY.
NOTES:
AIR COOLED
SCROLL
WATER
CHILLERS
ALY
1, 2 & 3
BASIC
(SERIES)
MODEL DECODING
INTRODUCTION
Zamil Air cooled scroll chillers (ALY series) are the heart of most central Air Conditioning systems for medium size
buildings. They consist of one or more hermetic scroll compressors, air-cooled condenser coils with condenser fan(s) and
motor(s), insulated liquid cooler, expansion device, interconnecting refrigerant piping, oil & refrigerant charge, control
panel, wiring and other auxiliaries. As an option, integrated to these chillers are the pump, valves, expansion tank and
other accessories
ALY series, The new generation of air cooled packaged liquid chillers.
ALY series air cooled scroll chillers are available in capacity range 10 TR (35 kW) to 190 TR (670 kW) at ARI conditions,
in one single enclosure, utilizing refrigerant R-22 as working fluid with option of three different power supply ratings.
ALY series chillers have been designed and manufactured to meet the requirements of the Gulf’s severe climatic conditions and specifically for outdoor installation, on roofs or ground level. They are factory assembled, leak tested, evacuated, internally wired, fully charged with refrigerant. Each ALY chiller is fully factory tested before delivery and is ready for
installation. All what required on site is to connect chilled water pipes and main power supply.
Scroll Compressor:
The scroll compressor consists of two involutes or Archimedean spirals (Figure-1). One spiral is positioned inside the
other to form a series of recent-shaped pockets. During compression the upper spiral remains stationary and the lower
one, being eccentrically mounted on the drive shaft, describes an orbital rather than a simple rotary motion.
3
FIGURE- 1
How a Scroll Compressor works:
Compression in the scroll is created by the interaction of an orbiting spiral and a stationary
spiral. A refrigerant enters the outer openings as one of the spirals orbits.
The open passages are sealed off as gas is drawn into the spiral.
As the spiral continues to orbit, the gas is compressed into two increasingly smaller pockets.
By the time the gas arrives at the center port, discharge pressure has been reached.
Actually, during operation, all six gas passages are in various stages of compression at all
times, resulting in nearly continuous suction and discharge.
4
Refrigerant enters the compressor at the suction connection and flows around the motor’s housing and enters at the
bottom side through the openings.
Oil droplets separate from the refrigerant and fall into the oil sump.
All suction refrigerant passes through the electrical motor, ensuring full motor cooling.
After that the refrigerant enters the scroll elements.
Tandem Compressor:
Models ALY055A to ALY190A use tandem scroll compressors. Tandem scroll compressors make possible great flexibility in system design for a wide range of applications. Since each compressor may be operated individually, this design
provides simple, capacity reduction & maximum power savings and greatly simplifies system control. In any well designed system, this kind of design offers a much greater factor of redundancy than a single compressor and provides
emergency protection for the product. In addition to greater reliability, one great advantage of the multiple compressor
design over other large horsepower compressors is the fact that in the event of compressor damage, replacement of
either compressor in the tandem can be easily done.
COOLERS
1. Compact Design Shell and Tube Water Coolers (for models ALY020A - ALY190A)
The DX shell and tube cooler with removable ‘U’ shaped bundled tubes are made of internally grooved copper tubes
expanded into heavy steel tubular sheets. The cooler housing and baffles are constructed of steel and brass respectively.
All coolers are fitted with vent, drain connection and Victaulic type water pipe connections.
2. Coaxial Heat Exchangers: (for models ALY010A - ALY015A)
The heat exchangers utilize a spirally enhanced inner tube surface to achieve greater heat transfer and optimized fluid
flow. The inner tube enhancement provides greater efficiency than straight tubing and allows for higher internal burst
limits and compression strength.
Both above types of coolers are insulated with heavy closed cellular foam insulation (3/4” thick).
WATER SIDE
UNIT MODEL
COOLER
ALY010A - ALY190A
ALY020A - ALY190A
REFRIGERANT SIDE
DESIGN PRESSURE,
(BAR/PSIG)
TEST PRESSURE,
(BAR/PSIG)
DESIGN PRESSURE,
(BAR/PSIG)
TEST PRESSURE,
(BAR/PSIG)
STD
16/235
22.8/335
29/426
41.5/610
ASME (option)
10/147
11.3/165
15.5/228
23.3/342
5
FEATURES
These ALY series, packaged air cooled water chillers are designed to provide engineering excellence in comfort air
conditioning and industrial cooling with a superior combination of energy saving, performance, application flexibility, ease
of service & maintenance and withstanding extremely high ambient temperatures. These chillers incorporate a wide
range of features including:
*
Microprocessor controller, which monitors analog and digital inputs to achieve precise control & protective functions
of the air cooled water chiller units. The microprocessor controller is complete with all the hardware and software
necessary to control the chiller unit and ensures its efficiency and reliability.
*
Compact unit design and open base design provides easy access and service to the major components and accessories.
*
All units incorporate separate subcooler circuit which is integral to the condenser surface. This additional subcooling
circuit provides superior system performance.
*
*
*
High Energy Efficiency Ratio (EER) hermetic scroll compressors.
*
*
*
Made ready connection for remote ON/OFF switch and General Alarm output.
*
Condenser fans are die-cast aluminum (for models ALY030A – ALY190A) or aluminum plates (for models ALY010A
– ALY025A) type with aerodynamic design, top discharge & provided with protective grille mounted on top panel
within the unit casing.
*
All condenser fan motors are totally enclosed air over type (TEAO) with class ''F'' winding insulation.
Single point power connection to minimize job site installation cost and time.
Completely wired control panel with the advanced microprocessor controller that provides all the necessary operations and safety controls.
Compressor connections are Direct On Line (DOL) for all models (see electrical data).
Low noise condenser fans, direct drive at 1000 RPM with rolled form venturi design to eliminate airflow recycling &
short circuiting .
STANDARD SPECIFICATIONS
CAPACITY CONTROL
The Zamil air cooled scroll water chillers incorporate stepped load shedding as required by most energy management
systems. Modulation of capacity in response to system load requirements is affected by the microprocessor controller
which monitors the leaving water temperature.
Capacity control is achieved by cycling compressors ON/OFF and sequential operation of compressors which provides
optimal part load capacities for chillers with multiple compressors.
See the following table for the standard and optional capacity control for each unit.
MODEL NUMBER
ALY010A-ALY015A
ALY020A - ALY045A
ALY055A -ALY090A
ALY100A - ALY140A
ALY160A -ALY190A
% FULL LOAD CAPACITY CONTROL
STANDARD
OPTIONAL
100-OFF
100-50-OFF
100-75-50-25-OFF
100-83-67-50-33-17-OFF
100-88-75-63-50-38-25-12-OFF
100-HGBP-OFF
100-50-HGBP-OFF
100-75-50-25-HGBP-OFF
100-83-67-50-33-17-HGBP-OFF
100-88-75-63-50-38-25-12-HGBP-OFF
NOTES:
1. HGBP = Hot gas bypass available on lead compressor for all models (optional).
2. HGBP modulates to approximately 50% of compressor step capacity. Example: ALY055 with HGBP (25% x 0.5=12.5%
minimum capacity).
6
CONDENSER COILS
Vertical & V-configurations condenser coils are corrugated fin and tube type, constructed of seamless 3/8" dia. & 0.011"
(0.27 mm) thick copper tubes, mechanically bonded to aluminum fins for maximum heat transfer efficiency.
As a standard on aluminum fins, ZAC provides Coil ResisTec Coating, which is a single component of aluminum impregnated coating applied on the fins of heat exchanging coils. The product has been designed for Middle East climate conditions. A high chemical, abrasion and UV resistance has been proven in both laboratories and on field environment. The
coating can be applied at the Zamil Air Conditioners factory as well as in the field for maintenance or rejuvenation purposes.
The fins have full self spacing collars which completely cover each tube. The staggered tube design improves the
thermal efficiency. End plates support sheets are 14 gauge galvanized steel, formed to provide structural strength.
Each coil is pressure tested in the factory at not less than 450 psi air pressure.
CABINET
All units are of heavy gauge (G-90) galvanized steel. Steel sheet panels are zinc coated and galvanized by hot dip
process of lock-forming quality conforming to ASTM A 653 commercial weight G-90 followed by baked on electrostatic
polyester dry powder coat.
CONTROL PANEL
The control panel design is equivalent to NEMA 4 (IP55) with hinged door for easy access ensuring dust and weatherproof construction. Internal power and control wiring is neatly routed, adequately anchored and all wires identified with
cable markers as per NEC standards applicable to HVAC industry.
The electrical controls used in the control panel are UL approved and are reliable in operation at high ambient conditions
for a long period.
MICROPROCESSOR CONTROLLER
A new compact electronic controller with a complete management for air cooled water chiller control capability. This
controller manages the analog and digital inputs to achieve precise operation and safety function of the chiller unit.
A user friendly display interface allows to access the operating condition, control set point & alarm of the unit that are
clearly visible on its display board.
The controller is equipped with a compressor rotation operation to allow the compressor running hours to be balanced
(lead lag). The controller has feasibility to be connected to a supervisor network via RS485 serial line for Remote
Monitoring and Remote configuration of the unit parameters.
The controller consists of the following hardware:
1. Control board - complete control of function and safety operation of the compressor(s) and fan(s).
2. Aux. Board - Expansion Board to control 2 compressors.
3. Remote Monitoring System (optional) - Remote Monitoring & Configuration of the unit.
4. User interface Board/Remote Terminal (optional) - Provided with a simple to use push button to access the operating
condition, control set point and alarms of the unit.
Access of the following status on the display:
1. Water inlet / outlet Temperature
2. Compressor Status
3. Fan Status
4. Alarms
5. SI or English Unit
6. Pump ON/OFF status (optional)
System Protection:
1. Compressor Winding High Temperature / Overloading
2. Low / High Pressure
3. Evaporator freeze Protection
4. Sensor Error
5. Time delay - Anti recycle time for compressor
6. No Water Flow or Trip Pump condition
7. Motor pump overloading (with optional hydronic module)
7
CONDENSER FANS
Condenser fans are constructed of die cast aluminum blades/hubs with direct driven motors. All fans are statically and
dynamically balanced to operate at minimum noise and vibration. Fan blades are designed with appropriate pitch angle
which result in maximum airflow through the condenser coil.
CONDENSER FAN MOTOR
Condenser fans, the impeller and motors are so constructed to form an integral unit. All fan motors shall be three phase
with class ''F'' winding insulation and ball bearings for high ambient application. These fan motors are of totally enclosed
air over type (TEAO) with inherent thermal protection of automatic reset type & specially designed for outdoor applications.
STANDARD CONTROL & SAFETY DEVICES
MICROPROCESSOR CONTROLLER: This controller monitors the analog and digital inputs to achieve precise control
& safety functions of the unit.
COMPRESSOR MOTOR INTERNAL OVERLOAD: The internal overload protects the compressor and senses the
motor winding temperature in case of overload.
STARTERS: The starter is operated by the control circuit and provides power to the compressor motors. These devices
are rated to handle safely both RLA and LRA of motors.
UNDER/OVER VOLTAGE AND PHASE PROTECTION: Protects against low/over incoming voltages as well as single
phasing, phase reversal and phase imbalance by de-energizing the control circuit. It is an automatic reset device, but it
can be set up for manual reset.
CRANKCASE HEATERS: Each compressor has crankcase heater. The compressor crankcase heater is always on
when the compressors are de-energized. This protect the system against refrigerant migration, oil dilution and potential
compressor failure.
HIGH PRESSURE SWITCH: This switch provides an additional safety protection in the case of excessive discharge
pressure.
LOW PRESSURE SWITCH: This switch provides an additional safety protection in the case of unsafe low suction
pressure.
CIRCUIT BREAKERS: Protects against compressor/condenser fans/pump branch circuit fault. When tripes, the breaker
opens the power supply to the compressor/condenser fans/pump and control circuit through auxiliary contacts.
STANDARD ACCESSORIES
UNIT ON-OFF SWITCH: ON-OFF switch is provided for manually switching the unit control circuit.
USER DISPLAY AND KEYPAD: Display the status of the unit, menu and setting adjustments, fault indications due to
trips and reset trips and lockouts.
THERMAL EXPANSION VALVE: Thermal expansion valve is used to regulate the refrigerant flow to the water cooler
and maintain a constant superheat.
REPLACEABLE FILTER DRIER: Refrigerant circuits are kept free of harmful moisture, sludge, acids and oil contaminating particles by the filter drier.
CONTROL CIRCUIT TRANSFORMER: A factory mounted and wired control circuit transformer is furnished eliminating
the need for running a separate 220 volt power supply to the unit control circuit.
SIGHT GLASS: A moisture indicating sight glass installed in the liquid line. An easy-to-read color indicator shows
moisture contents and provides a mean for checking the system refrigerant charge.
LIQUID LINE SOLENOID VALVE: Closes when the compressor is off to prevent any liquid refrigerant from accumulating
in the water cooler during the off cycle.
8
OPTIONS
HOT GAS BYPASS SYSTEM: Hot gas bypass is provided on the lead circuit to permit operation of the system down to 50% of
its unloaded capacity. Under low ambient condition, it controls temperature by eliminating the need to cycle the compressor on
and off, ensuring narrow temperature swing and lengthen the life span of the compressor.
WATER FLOW SWITCH: Paddle type field adjustable flow switch for water cooler circuits. Interlock into unit safety circuits
so that the unit will remain off until water flow is determine.
SUCTION AND DISCHARGE VALVES: To isolate the compressor in order to facilitate servicing or compressor replacement.
UNIT MOUNT SPRING ISOLATORS: These housed spring assemblies have a neoprene friction pad on the bottom to
prevent vibration transmission.
LIQUID COOLERS: ASME code stamped liquid cooler (for models ALY020A - ALY190A only).
PRESSURE GAUGES: Suction & discharge pressures gauges.
SAFETY VALVE: This valve protects the unit against high discharge pressure in the system due to malfunction of high
pressure switches.
NON-FUSED MAIN DISCONNECT SWITCHES: To disconnect power supply of the unit for servicing and repair works. This
as well equipped with door interlock device.
CONDENSER COIL GUARD: Protect the condenser coil from physical damage.
COMPRESSOR/COOLER GUARD: Protect the compressor from vandalism (for models ALY020A - ALY190A only).
COOLER HEATER WRAPPED: Prevent freezing up of water on low ambient temperature.
COPPER FINS/TUBES CONDENSER COILS: For seashore salty corrosive environments.
ResisTec COATED COPPER FINS/TUBES CONDENSER COILS: For seashore or acid corrosive environments.
BMS: BACNET, MODBUS, LON works and remote monitoring.
MULTI ResisTec: A two component coating system that withstands the extreme climate conditions. The coating can be applied
to all metal parts of HVAC equipment; the piping, the compressors and grids might require a different pre- treatment and layer
build up. Please check ResisTec product information sheets, the heat exchangers can not be coated using this type. The
coating can be applied at the Zamil Air Conditioners factory as well as in the field for maintenance or rejuvenation purposes.
HYDRONIC KIT: The Hydronic Module comprises of centrifugal pump, closed diaphragm type expansion tank, carbon steel
piping, piping connections with butterfly valves, calibrated balancing valve, strainer, pressure gauges, temperature gauges,
additional pressure/temperature tappings, water flow switch, pressure safety valve, automatic air vents, make-up water line
with isolation valve, non-return valve and pressure reducing valve. Complete piping system within the hydronic module
shall be provided with closed cell, rubber insulation.
The hydronic module is suitably designed for the respective chiller model(s) with various components appropriately
selected for the design water flow rate of chiller model(s) in concern. The dynamic pump head available external to the
chillers progressively increases across the chiller models and ranges between 50 - 140 Feet WG.
9
SCHEMATIC HYDRONIC SYSTEM LAYOUT
EXPANSION TANK
END SUCTION WATER PUMP
10
PHYSICAL DATA
UNIT SIZE
ALY010A
ALY015A
ALY020A
ALY025A
ALY030A
ALY035A
ALY040A
208/230V-3Ph-60Hz
800-674-36
800-614-83
800-674-36 (2)
800-614-83
800-674-17
380V-3Ph-60Hz
800-674-37
800-614-84
800-674-37 (2)
460V-3Ph-60Hz
800-674-38
800-614-85
800-674-38 (2)
800-614-84
800-674-18
800-614-85
800-674-19
NUMBER OF COMPRESSORS
1
1
2
2
2
2
2
NUMBER OF CIRCUITS
1
1
2
2
2
2
2
3.25
3.13
3.25
3.13/3.25
3.13
4.7
6.8/4.7
100-0
100-0
100-50-0
100-50-0
100-50-0
100-50-0
100-50-0
COMPRESSOR
PART NUMBER
OIL CHARGE PER COMPRESSOR, Liters
% FULL LOAD CAPACITY CONTROL
MOTOR OVERLOAD PROTECTION (INTERNAL)
800-614-83 (2) 800-674-82 (2)
800-614-84 (2) 800-674-83 (2)
800-614-85 (2) 800-674-84 (2)
800-676-89
800-674-82
800-676-90
800-674-83
800-676-91
800-674-84
ELECTRONIC
OIL LUBRICATION
CENTRIFUGAL OIL PUMP
REFRIGERANT
R-22
EXPANSION VALVE DEVICE
THERMOSTATIC
CONTROL VOLTAGE
220V-1Ph-60Hz
CONDENSER
3/8–3–14
3/8–3–14
3/8–2–14
3/8–3–14
3/8–3–14
3/8–3–14
3/8–4–14
3/8–3–14
13.9
27.8
44.4
44.4
44.4
44.4
53.3
AIRFLOW, CFM
7500
8200
16000
15000
25170
25170
25782
NUMBER OF FAN/FAN DIA.,mm
1/762
1/762
2/762
2/762
2/800
2/800
2/800
CONDENSER COIL Tube Dia.- Rows - Fins per inch
Total face area, Sq. ft.
FAN MOTOR RPM @ 230/380/460-3-60
1100/1100/1100 1100/1100/1100 1100/1100/1100 1100/1100/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100
COOLER
PART NUMBER
800-516-39 800-516-39 800-620-09 800-620-11 800-620-13 800-620-15 800-620-80
SHELL DIAMETER, mm
N.A.
N.A.
168
168
168
194
219
LENGTH, mm
N.A.
N.A.
1431
1631
1781
1815
1820
TOTAL WATER HOLDING VOLUME, Liters
6
6
17.2
19.8
21.7
30
41.8
WATER IN/OUT PIPE DIA.mm
38
38
64
64
64
76
76
6.4
12.7
6.4
9.5/7.3
9.5
12.2
15.9/12.2
GENERAL
REFRIGERANT CHARGE PER COMP., kg (COMP. 1/2)
SOUND PRESSURE LEVEL, dBA (3m./5m./10m.)
68.9/65.4/60.1 65.6/62.1/56.8 71.9/68.4/63.1 68.6/65.1/59.8 68.6/65.1/59.8 72.6/69.1/63.8 72.7/69.2/64
SHIPPING /OPERATING WEIGHTS (Aluminum coil), kg
468/474
526/532
830/847
876/896
921/943
1145/1175
1258/1300
SHIPPING /OPERATING WEIGHTS (Copper coil), kg
500/506
588/594
893/910
972/992
1019/1041
1243/1273
1428/1470
2
2
2
3
3
3
5
3600
3600
3600
3500
3500
3500
3500
SHIPPING/OPERATING WT. WITH HYDRONIC KIT (Al. coil), kg
648/734
706/792
1050/1147
1096/1196
1141/1243
1365/1475
1478/1600
SHIPPING/OPERATING WT. WITH HYDRONIC KIT (CU. coil), kg
680/766
768/854
1113/1210
1192/1292
1239/1341
1463/1573
1648/1770
HYDRONIC KIT (OPTIONAL)
PUMP HP
PUMP RPM
NOTES:
1. All compressors operate at 3500 RPM @ 60Hz.
2. Sound pressure level : ±2dBA.
11
PHYSICAL DATA
UNIT SIZE
ALY045A
ALY055A
ALY065A
ALY070A
ALY080A
ALY090A
ALY100A
800-674-82 (2)
800-614-83 (2)
800-674-82 (4)
800-676-89 (2)
800-674-82 (2)
800-676-89 (4)
800-674-82 (4)
800-614-83 (2)
COMPRESSOR
PART NUMBER
208/230V-3Ph-60Hz
800-676-89 (2) 800-614-83 (4)
380V-3Ph-60Hz
800-676-90 (2) 800-614-84 (4)
460V-3Ph-60Hz
800-676-91 (2) 800-614-85 (4)
NUMBER OF COMPRESSORS
2
NUMBER OF CIRCUITS
2
OIL CHARGE PER COMPRESSOR, Liters
% FULL LOAD CAPACITY CONTROL
6.8
100-50-0
4
800-674-83 (2)
800-614-84 (2)
800-674-84 (2)
800-614-85 (2)
800-674-83 (4)
800-676-90 (4)
800-674-84 (4)
800-676-90 (2)
800-674-83 (2)
800-676-91 (2)
800-674-84 (2)
800-676-91 (4)
800-674-83 (4)
800-614-84 (2)
800-674-84 (4)
800-614-85 (2)
4
4
4
4
6
2 (TANDEM) 2 (TANDEM) 2 (TANDEM) 2 (TANDEM) 2 (TANDEM) 3 (TANDEM)
3.13
4.7/3.13
4.7
6.8/4.7
6.8
100-75-50-25-0 100-75-50-25-0 100-75-50-25-0 100-75-50-25-0 100-75-50-25-0
MOTOR OVERLOAD PROTECTION (INTERNAL)
4.7/3.13
100-83-67-50-33-17-0
ELECTRONIC
OIL LUBRICATION
CENTRIFUGAL OIL PUMP
REFRIGERANT
R-22
EXPANSION VALVE DEVICE
THERMOSTATIC
CONTROL VOLTAGE
220V-1Ph-60Hz
CONDENSER
3/8–4–14
3/8–2–14
3/8–3–14
3/8–2–14
3/8–3–14
3/8–4–14
3/8–3–14
3/8–4–14
3/8–3–14
3/8–2–14
53.3
88.9
88.9
88.9
106.7
106.7
133.3
AIRFLOW, CFM
25298
53076
51668
50340
51564
50596
76818
NUMBER OF FAN/FAN DIA.,mm
2/800
4/800
4/800
4/800
4/800
4/800
6/800
CONDENSER COIL Tube Dia.- Rows - Fins per inch
Total face area, Sq. ft.
FAN MOTOR RPM @ 230/380/460-3-60
1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100
COOLER
PART NUMBER
800-620-80 800-620-84 800-620-88 800-620-88 800-620-92
800-621-01 800-621-02
SHELL DIAMETER, mm
219
273
273
273
273
324
324
LENGTH, mm
1820
1850
1850
1850
1850
2180
2180
TOTAL WATER HOLDING VOLUME, Liters
41.8
62.7
58.1
58.1
53.2
106.1
106.1
76
100
100
100
100
150
150
15.9
9.5
12.2/9.5
12.2
15.9/12.2
15.9
12.2/9.5
WATER IN/OUT PIPE DIA.mm
GENERAL
REFRIGERANT CHARGE PER COMP., kg (COMP. 1/2)
SOUND PRESSURE LEVEL, dBA (3m./5m./10m.)
73.6/70/64.8 71.6/68.1/62.8 74/70.5/65.2 75.6/72.1/66.8 76.4/72.9/67.6 77.1/73.6/68.3 76.4/72.9/67.6
SHIPPING /OPERATING WEIGHTS (Aluminum coil), kg
1284/1326
1809/1872
1995/2053
2162/2220
2324/2377
2488/2594
3071/3177
SHIPPING /OPERATING WEIGHTS (Copper coil), kg
1454/1496
2005/2068
2190/2248
2358/2416
2613/2666
2830/2936
3332/3438
5
5
10
10
10
10
15
3500
3500
3500
3500
3500
3500
3500
SHIPPING/OPERATING WT. WITH HYDRONIC KIT (Al. coil), kg 1504/1626
2069/2217
2255/2398
2422/2565
2584/2722
2748/2939
3371/3545
SHIPPING/OPERATING WT. WITH HYDRONIC KIT (CU. coil), kg 1674/1796
2265/2413
2450/2593
2618/2761
2873/3011
3090/3281
3632/3806
HYDRONIC KIT (OPTIONAL)
PUMP HP
PUMP RPM
NOTES:
1. All compressors operate at 3500 RPM @ 60Hz.
2. Sound pressure level : ±2dBA.
12
PHYSICAL DATA
UNIT SIZE
ALY110A
ALY120A
ALY130A
ALY140A
ALY160A
ALY170A
ALY180A
ALY190A
COMPRESSOR
PART NUMBER
208/230V-3Ph-60Hz
800-676-89 (2)
800-674-82 (6) 800-674-82 (4)
800-676-89 (4)
800-676-89 (2)
800-674-82 (2) 800-676-89 (6) 800-674-82 (6)
800-676-89 (4)
800-674-82 (4)
800-676-89 (6)
800-674-82 (2) 800-676-89 (8)
380V-3Ph-60Hz
800-674-83 (6)
800-676-90 (2)
800-674-83 (4)
800-676-91 (2)
800-674-84 (6)
800-674-84 (4)
800-676-90 (4)
800-676-90 (2)
800-676-90 (6)
800-674-83 (2)
800-674-83 (6)
800-676-91 (4)
800-676-91 (2)
800-676-91 (6)
800-674-84 (2)
800-674-84 (6)
800-676-90 (4)
800-674-83 (4)
800-676-91 (4)
800-674-84 (4)
800-676-90 (6)
800-676-90 (8)
800-674-83 (2)
800-676-91 (6)
800-676-91 (8)
800-674-84 (2)
460V-3Ph-60Hz
NUMBER OF COMPRESSORS
NUMBER OF CIRCUITS
OIL CHARGE PER COMPRESSOR, Liters
6
6
6
6
8
8
8
8
3 (TANDEM) 3 (TANDEM) 3 (TANDEM) 3 (TANDEM) 4 (TANDEM) 4 (TANDEM) 4 (TANDEM) 4 (TANDEM)
4.7
% FULL LOAD CAPACITY CONTROL
6.8/4.7
6.8/4.7
6.8
6.8/4.7
100-83-67-50-33-17-0
MOTOR OVERLOAD PROTECTION (INTERNAL)
6.8/4.7
6.8/4.7
6.8
100-88-75-63-50-38-25-12-0
ELECTRONIC
OIL LUBRICATION
CENTRIFUGAL OIL PUMP
REFRIGERANT
R-22
EXPANSION VALVE DEVICE
THERMOSTATIC
CONTROL VOLTAGE
220V-1Ph-60Hz
CONDENSER
CONDENSER COIL Tube Dia.- Rows - Fins per inch
Total face area, Sq. ft.
3/8–3–14 3/8–4–14
3/8–3–14
3/8–4–14
3/8–3–14
3/8–4–14 3/8–4–14
3/8–3–14
3/8–4–14
3/8–3–14
3/8–4–14
3/8–3–14
3/8–4–14
133.3
160
160
160
133.3
133.3
160
160
AIRFLOW, CFM
75510
77838
76854
75894
104120
103128
102152
101192
NUMBER OF FAN/FAN DIA.,mm
6/800
6/800
6/800
6/800
8/800
8/800
8/800
8/800
FAN MOTOR RPM @ 230/380/460-3-60
1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100 1080/1080/1100
COOLER
PART NUMBER
800-621-02 800-621-06 800-621-10 800-621-10 800-620-54 800-620-54 800-620-57 800-620-60
SHELL DIAMETER, mm
324
324
324
324
324
324
406
406
LENGTH, mm
2180
2180
2180
2180
2693
2693
2737
2737
TOTAL WATER HOLDING VOLUME, Liters
106.1
99.8
89.8
89.8
113.5
113.5
221.7
206.5
150
150
150
150
150
150
200
200
12.2
15.9/12.2
15.9/12.2
15.9
15.9/12.2
15.9/12.2
15.9/12.2
15.9
WATER IN/OUT PIPE DIA.mm
GENERAL
REFRIGERANT CHARGE PER COMP., kg (COMP. 1/2)
SOUND PRESSURE LEVEL, dBA (3m./5m./10m.)
77.4/73.9/68.6 77.9/74.4/69.1 78.4/74.9/69.7 78.9/75.4/70.1 79/75.5/70.2 79.4/75.9/70.6 79.8/76.3/71 80.1/76.6/71.3
SHIPPING /OPERATING WEIGHTS (Aluminum coil), kg
3265/3371 3461/3561 3569/3659 3657/3747 4495/4608 4196/4309 4851/5073 4970/5176
SHIPPING /OPERATING WEIGHTS (Copper coil), kg
3559/3665 3866/3966 4028/4118 4167/4257 5017/5130 4483/4596 5480/5702 5650/5856
HYDRONIC KIT (OPTIONAL)
PUMP HP
PUMP RPM
15
15
15
15
20
20
20
20
3500
3500
3500
3500
3500
3500
3500
3500
SHIPPING/OPERATING WT. WITH HYDRONIC KIT (Al. coil), kg 3565/3739 3761/3929 3869/4027 3957/4115 4845/5058 4546/4759 5201/5523 5320/5626
SHIPPING/OPERATING WT. WITH HYDRONIC KIT (CU. coil), kg 3859/4033 4166/4334 4328/4486 4467/4625 5367/5580 4833/5046 5830/6152 6000/6306
NOTES:
1. All compressors operate at 3500 RPM @ 60Hz.
2. Sound pressure level : ±2dBA.
13
SELECTION PROCEDURE (English units)
DESIGN REQUIREMENTS
CAPACITY
The following design requirements must be known to select a package chiller.
ELEVATION ABOVE
CORRECTION
SEA LEVEL (FT.)
1. Required cooling capacity in tons
FACTOR
0
1.00
2. Leaving chilled water temperature in 0F (LCWT)
2000
0.99
3. Chilled water flow rate in GPM
4000
0.98
0
_
4. Chilled water cooling range in F (water in temp. water out temp.)
6000
0.97
5. Design ambient temperature
TABLE - 1
6. Minimum ambient temperature
7. Altitude
POWER
ARI
8. Electrical power supply
EVAPORATOR FOULING CAPACITY
FACTOR (HR-FT2-0F/BTU)
STEP-1: UNIT SELECTION
Entering the capacity performance data at given LCWT and ambient temperature.
ALY035 chiller unit at sea level will produce 36.5 tons and 39.8 kW compressor
power input at 440F leaving chilled water temperature with 100F water temperature
difference and 950F ambient temperature.
For the conditions required, the unit actual cooling capacity when corrected for
altitude (0.99) and fouling factor (1.0).
Capacity = 36.5x0.99x1.0 = 36.1 Tons, which then exceeds the requirements.
So the selection is correct.
STEP-2: CHILLED WATER FLOW (GPM):
Water GPM =
Required capacity (Tons) x 24
1.000
0.992
0.978
0.965
0.951
0.00010
0.00025
0.00050
0.00075
0.00100
1.000
0.997
0.990
0.984
0.978
STANDARDS
ARI-550/590
TABLE - 2
+0.6
CORRECTION FACTOR (0F)
SAMPLE SELECTION
Select an Air Cooled Packaged chiller for the following conditions:
Required system capacity is 33 tons at 540F entering chilled water
and 440F leaving water. Design ambient temperature is 950F.
Altitude is 2000 feet above sea level.
Water cooler fouling factor is 0.00010. Power supply: 380V-3Ph-60Hz.
CORRECTION INPUT
FACTOR
FACTOR
+0.4
+0.2
0
-0.2
-0.4
5
10
15
20
CHILLED WATER TEMPERATURE RISE (0F)
=
33 x 24
TABLE - 3
= 79.2 GPM
Cooling Range, ∆T
100F
Referring to pressure drop chart (page # 26), pressure drop at 79.2 GPM = 8.65 ft. of water for selected model.
STEP-3: ELECTRICAL
Refer to electrical data at 380V-3Ph-60Hz, the main power wire size for ALY035 is to be sized at a minimum circuit
ampacity (MCA) of 101 Amps and the main branch protection device is to be sized at a maximum over current protection
(MOCP) of 143 Amps.
STEP-4: CHILLED WATER PUMP SELECTION
For chilled water pump selection, add all pressure drop in the closed chilled water loop piping to the pressure drop
calculated in step 2.
STEP-5: LCWT CORRECTION
Refer to table-3: Add correction factor to design leaving chilled water temperature (LCWT) when chilled water temperature range is above 100F and subtract correction from design leaving chilled water temperature (LCWT) when water
temperature range is below 100F.
EXAMPLE:
If LCWT rise is 12.50F, enter correction curve at 12.50F and read the correction factor of 0.2. The corrected LCWT is
44+0.2 = 44.20F.
NOTE: 1. When the chilled water temperature rise is less than 50F, the high water flow rate will result to excessive
pressure drop. In such cases, contact factory for special selection of a cooler with wider baffle spacing.
2.Please refer to water pressure drop curves.
14
SELECTION PROCEDURE (Metric units)
DESIGN REQUIREMENTS
CAPACITY
The following design requirements must be known to select a proper package chiller.
ELEVATION ABOVE
CORRECTION
SEA LEVEL (Meter)
1. Required cooling capacity in kilowatt (kW)
FACTOR
0
1.00
2. Leaving chilled water temperature in 0C (LCWT)
600
0.99
3. Chilled water flow rate in LPS
1200
0.98
0
_
4. Chilled water cooling range in C (water in temp. water out temp.)
1800
0.97
5. Design ambient temperature
TABLE - 1
6. Minimum ambient temperature
7. Altitude
POWER
ARI
8. Electrical power supply
EVAPORATOR FOULING CAPACITY
FACTOR (M2-0C/W)
STEP-1: UNIT SELECTION
Entering the capacity performance data at given LCWT and ambient temperature.
ALY035 chiller unit at sea level will produce 126.7 kW and 39.6 kW compressor
power input at 60C leaving chilled water temperature with 60C water temperature
difference and 350C ambient temperature.
For the conditions required, the unit actual cooling capacity when corrected for
altitude (0.99) and fouling factor (1.0).
Capacity = 126.7x0.99X1.0 = 125.4 kW, which then exceeds the requirements.
So the selection is correct.
STEP-2: CHILLED WATER FLOW (LPS):
Water LPS =
Required capacity (kW) x 0.239
1.000
0.992
0.978
0.965
0.951
0.000018
0.000044
0.000088
0.000132
0.000176
STANDARDS
1.000
0.997
0.990
0.984
0.978
ARI-550/590
TABLE - 2
+0.33
CORRECTION FACTOR (0C)
SAMPLE SELECTION
Select an Air Cooled Packaged chiller for the following conditions:
Required system capacity is 122 kW at 120C entering chilled water
and 60C leaving water. Design ambient temperature is 350C.
Altitude is 600 meter above sea level.
Water cooler fouling factor is 0.000018. Power supply: 380V-3Ph-60Hz.
CORRECTION INPUT
FACTOR
FACTOR
+0.22
+0.11
0
-0.11
-0.22
4
5
6
7
8
9
10
CHILLED WATER TEMPERATURE RISE (0C)
=
122 x 0.239
TABLE - 3
= 4.85 LPS
Cooling Range, ∆T
6 0C
Referring to pressure drop chart (page # 26), pressure drop 4.85 LPS = 25.85 kPa for selected model.
STEP-3: ELECTRICAL
Refer to electrical data at 380V-3Ph-60Hz, the main power wire size for ALY035 is to be sized at a minimum circuit
ampacity (MCA) of 101 Amps and the main branch protection device is to be sized at a maximum over current protection
(MOCP) of 143 Amps.
STEP-4: CHILLED WATER PUMP SELECTION
For chilled water pump selection, add all pressure drop in the closed chilled water loop piping to the pressure drop
calculated in step 2.
STEP-5: LCWT CORRECTION
Refer to table-3: Add correction factor to design leaving chilled water temperature (LCWT) when chilled water temperature range is above 60C and subtract correction from design leaving chilled water temperature (LCWT) when water
temperature range is below 60C.
EXAMPLE:
If LCWT rise is 7.40C, enter correction curve at 7.40C and read the correction factor of 0.11. The corrected LCWT is
60C+0.11 = 6.110C.
NOTE: 1. When the chilled water temperature rise is less than 30C, the high water flow rate will result to excessive
pressure drop. In such cases, contact factory for special selection of a cooler with wider baffle spacing.
2.Please refer to water pressure drop curves.
15
16
28.6
35.6
41.4
46.7
57.1
64.2
70.4
83
94.5
99.4
106.6
118.5
128.7
139.4
157.6
167.4
178.5
188.5
ALY 030A
ALY 035A
ALY 040A
ALY 045A
ALY 055A
ALY 065A
ALY 070A
ALY 080A
ALY 090A
ALY 100A
ALY 110A
ALY 120A
ALY 130A
ALY 140A
ALY 160A
ALY 170A
ALY 180A
ALY 190A
- Compressor power input
9
13.7
18.8
24.8
185.6
ALY 190A
ALY 015A
ALY 020A
ALY 025A
176.2
ALY 180A
ALY 010A
164.6
ALY 170A
80.9
93.5
ALY 080A
ALY 090A
137.3
154.5
68.6
ALY 070A
ALY 140A
ALY 160A
62.5
ALY 065A
126
55.4
ALY 055A
115.3
46.1
ALY 045A
ALY 130A
34.2
40.4
ALY 035A
ALY 040A
ALY 120A
27.2
ALY 030A
96
24.4
ALY 025A
102.9
17.9
ALY 020A
ALY 110A
13
ALY 100A
8.6
ALY 015A
CAP.
(Tons)
EER - Energy Efficiency Ratio
10.41
10.57
10.5
10.48
10.42
10.35
10.32
10.43
10.08
10.05
10.51
9.98
10.44
10.36
10.97
11
10.06
10.42
10.27
10.34
9.99
10.06
10.31
10.39
10.38
10.23
10.43
10.21
10.22
9.81
9.83
10.26
10.36
9.8
10.3
10.71
10.27
9.79
10.26
10.57
9.87
9.92
9.89
9.66
EER
20.6
452.3
378.2
401.7
428.5
284.5
308.8
334.5
226.8
238.6
255.9
154.2
168.9
199.3
112.1
137
68.8
85.4
99.3
32.9
45.2
59.6
21.7
445.5
422.9
394.9
329.6
370.8
302.4
276.8
247
230.3
194.2
224.5
164.6
150
132.9
110.6
82.1
97.1
65.4
58.6
42.9
31.2
177.7
149.1
158.2
168.6
111.8
121.4
131.5
89.2
93.8
100.4
60.8
66.2
78.3
44
54.3
27.3
33.5
39
13
17.8
23.5
8.6
175
166.2
155.5
129.5
146.2
118.8
108.6
96.8
90.4
76.2
88.2
64.4
59.1
52.6
43.4
32.2
38.1
25.9
23.1
16.9
12.4
8.1
CAP.
(Tons)
227.2
186.4
199.8
213.7
142.2
155.7
169.5
113.8
122.4
132.5
75.4
88
99.5
56.6
63.3
31.7
44.2
49.7
16.7
22
30.9
10.8
225.9
212.7
198.7
168.6
185.2
154.6
141
131
121.1
98.7
113.3
87.3
74.8
62.9
56.3
43.6
49.3
31.3
30.7
21.7
16.5
10.7
COMP.
kW
8.92
9.02
8.96
8.96
8.87
8.84
8.84
8.94
8.56
8.52
8.96
8.45
8.9
8.87
9.39
9.43
8.52
8.88
8.76
8.86
8.52
8.64
8.83
8.88
8.86
8.75
8.89
8.71
8.69
8.3
8.34
8.74
8.88
8.29
8.77
9.16
8.79
8.28
8.73
9.06
8.41
8.5
8.44
8.29
EER
426.5
357.7
379.7
404.5
268.3
291.3
315.6
214.1
225
241
145.8
159
187.9
105.7
130.2
65.4
80.4
93.7
31.2
42.8
56.3
20.6
420
398.9
373.3
310.8
350.8
285
260.7
232.2
217
182.9
211.7
154.6
141.7
126.2
104.2
77.2
91.4
62.2
55.3
40.6
29.6
19.6
WATER
FLOW
(GPM)
1050F AMBIENT TEMPERATURE
7.7
166.8
139.9
148.5
158.2
104.5
113.8
123.4
83.8
87.6
93.6
57
61.7
73.2
41.3
51.2
25.8
31.2
36.5
12.2
16.8
22
8.1
164.1
155.9
146
121.5
137.2
111.1
101.4
89.9
84.3
71.2
82.8
59.8
55.3
49.6
40.7
29.9
35.6
24.5
21.6
15.9
11.6
250.9
208.2
222.3
236.9
158.6
172.9
187.3
125.7
137.1
148.5
84.5
98.7
110.7
62.5
70.9
35.5
49.5
55.3
18.7
24.5
34.4
12.1
249.4
235.7
221.2
186.2
207
171.6
157.2
146.8
135.6
109.8
125.1
97.8
83.8
70.4
62.2
48.9
54.9
35.1
34.2
24.2
18.4
11.9
COMP.
kW
7.61
7.62
7.61
7.63
7.49
7.51
7.55
7.64
7.2
7.13
7.56
7.07
7.53
7.57
7.99
8.03
7.13
7.52
7.43
7.56
7.21
7.39
7.53
7.55
7.51
7.47
7.51
7.38
7.32
6.93
7
7.38
7.58
6.92
7.38
7.79
7.49
6.92
7.38
7.72
7.1
7.25
7.15
7.08
EER
400.3
335.7
356.5
379.8
250.9
273.1
296.3
201.1
210.2
224.5
136.7
148
175.8
99.2
122.9
61.9
74.8
87.6
29.4
40.3
52.8
19.5
393.8
374.1
350.4
291.5
329.2
266.7
243.4
215.9
202.4
171
198.8
143.6
132.7
119.1
97.7
71.8
85.4
58.9
51.8
38.3
27.9
18.4
WATER
FLOW
(GPM)
1150F AMBIENT TEMPERATURE
CAP.
(Tons)
NOTES:
1. Packaged chillers are rated with ARI standard 550/590.
2. Performance data are based on 100F water range in evaporator.
3. Ratings are based on 0.00010 (hr-ft2-0F/Btu) fouling factor for evaporator.
4. Direct interpolation is permissible. Do not extrapolate.
5. kW power input is for compressor only.
6. EER for entire unit. Refer to electrical data for fan kW.
205.2
166.8
179.3
192.5
127.5
140.1
153.1
102.7
109.3
118.3
67.3
78.6
89.4
51.1
56.4
28.2
39.4
44.7
14.9
19.7
27.6
9.7
204
191.6
178.3
152.2
165.8
139.1
126.3
116.9
108.1
88.6
102.3
77.9
66.8
56
50.8
38.9
44.3
27.9
27.5
19.4
14.7
9.6
COMP.
kW
WATER
FLOW
(GPM)
950F AMBIENT TEMPERATURE
ALY 010A
UNIT
SIZE
GPM - Gallons Per Minute
kW
LEGEND:
42 F
0
40 0F
LEAVING
CHILLED
WATER TEMP.
(LCWT)
PERFORMANCE DATA (English units)
159
133.1
141.5
150.8
99.2
108.3
117.7
80
83
88.4
54.1
58.3
69.6
39.4
49
24.7
29.5
34.7
11.7
16
20.9
7.8
156.3
148.4
139
115.7
130.5
105.6
96.1
84.8
79.7
67.6
79
56.4
52.4
47.4
38.8
28.2
33.7
23.5
20.5
15.2
11.1
7.3
CAP.
(Tons)
268.5
224.9
239.4
254.3
171
185.7
200.5
134.5
148.3
160.7
91.4
106.8
119.1
66.9
76.7
38.4
53.6
59.5
20.2
26.4
37.1
13
267
253
238.2
199.3
223.7
184.4
169.6
159
146.7
118.2
133.9
105.9
90.7
76.2
66.6
53
59.1
38
36.9
26.1
19.9
12.9
COMP.
kW
6.8
6.74
6.75
6.8
6.61
6.67
6.74
6.83
6.33
6.25
6.67
6.2
6.67
6.76
7.11
7.15
6.25
6.66
6.6
6.74
6.38
6.6
6.73
6.72
6.67
6.66
6.64
6.55
6.46
6.06
6.15
6.53
6.77
6.04
6.51
6.92
6.69
6.05
6.52
6.87
6.28
6.46
6.35
6.32
EER
381.7
319.4
339.5
362
238.1
259.8
282.5
191.9
199.2
212.2
129.9
139.8
166.9
94.5
117.6
59.2
70.7
83.2
28.1
38.5
50.2
18.6
375.2
356.2
333.7
277.7
313.1
253.3
230.6
203.5
191.4
162.2
189.5
135.2
125.8
113.8
93
67.7
81
56.3
49.2
36.5
26.7
17.6
WATER
FLOW
(GPM)
1220F AMBIENT TEMPERATURE
17
181.7
191.6
ALY 180A
ALY 190A
195
ALY 170A
ALY 180A
ALY 190A
- Compressor power input
165.7
174.5
186.5
ALY 160A
125.4
135.9
145.4
ALY 130A
ALY 140A
ALY 100A
ALY 110A
ALY 120A
97.8
106.6
114.3
ALY 090A
68.8
75.4
86.9
ALY 070A
ALY 080A
ALY 045A
ALY 055A
ALY 065A
43.7
48.5
61.2
ALY 040A
30.7
37.8
170.4
ALY 170A
26.6
161
ALY 160A
ALY 030A
ALY 035A
142.7
ALY 140A
ALY 025A
132.8
ALY 130A
9.8
122.1
ALY 120A
14.6
20.3
110.6
ALY 110A
ALY 015A
ALY 020A
103.2
ALY 100A
ALY 010A
84.8
95.7
ALY 070A
ALY 090A
72.9
ALY 065A
ALY 080A
59.2
66.5
ALY 055A
42.6
29.6
36.5
ALY 030A
ALY 035A
47.6
25.7
ALY 025A
ALY 045A
19.6
ALY 020A
ALY 040A
9.5
14.1
ALY 015A
CAP.
(Tons)
EER - Energy Efficiency Ratio
10.63
10.79
10.78
10.94
10.73
10.59
10.83
10.58
10.54
10.66
10.46
10.76
11.05
10.59
11.59
10.81
11.61
10.48
10.49
10.77
10.94
10.76
10.52
10.6
10.62
10.73
10.47
10.57
10.63
10.31
10.35
10.51
10.59
10.22
10.79
11.28
10.47
10.62
11.3
10.24
10.25
10.66
10.52
10.43
EER
468.1
418.7
447.6
397.7
326.3
348.9
300.9
255.8
274.4
234.8
180.8
208.5
165.1
116.3
146.8
104.9
73.6
90.7
63.7
35
48.7
23.6
459.8
436
408.9
386.4
342.4
318.6
292.9
265.6
247.6
229.8
203.4
174.9
159.7
142
114.2
102.2
71.1
87.6
61.7
47.1
33.9
22.7
184.2
165.3
176.8
157.2
128.3
137.2
118.5
100.7
107.9
92.7
71.1
82.1
65.1
45.7
58.2
41.3
29.2
35.7
25.1
13.9
19.2
9.3
180.8
171.8
161.2
152.5
134.7
125.3
115.2
104.3
97.4
90.5
80
68.7
63
56.2
44.9
40.2
28.2
34.4
24.3
18.6
13.4
9
CAP.
(Tons)
230.3
202.7
217.4
189.6
158.8
172.3
144.9
125.2
135.6
115.4
90.1
101.1
76.9
57.4
64.3
50.7
32.2
45.1
31.5
17
22.4
11
228.7
215.2
201
187.7
171
157.4
143.6
134.1
123.9
114.4
100.2
89.1
76.2
63.8
57
50.2
31.9
44.5
31.2
22.2
16.8
10.9
COMP.
kW
9.12
9.24
9.25
9.36
9.18
9.08
9.24
9
8.95
9.16
8.88
9.19
9.43
9.08
9.92
9.23
9.97
8.9
8.96
9.2
9.38
9.24
9.01
9.07
9.08
9.16
8.97
9.03
9.06
8.75
8.8
9.02
9.03
8.67
9.2
9.66
8.97
9.06
9.69
8.68
8.75
9.14
8.98
8.95
EER
442
396.8
424.2
377.2
308
329.4
284.3
241.7
259
222.4
170.6
196.9
156.3
109.8
139.6
99.1
70.2
85.6
60.3
33.3
46.1
22.4
433.8
412.2
386.8
365.9
323.2
300.7
276.6
250.4
233.7
217.2
191.9
164.9
151.2
135
107.7
96.4
67.7
82.6
58.4
44.6
32.2
21.5
WATER
FLOW
(GPM)
1050F AMBIENT TEMPERATURE
8.5
173.1
155.8
166.7
148
120.5
129
111.1
94.3
100.9
87.5
66.4
77
61.2
43
54.9
38.7
27.7
33.4
23.6
13.1
18.1
8.8
169.8
161.6
151.5
143.3
126.5
117.6
108
97.4
91.1
85.1
74.9
64.1
59.1
53.1
42.1
37.6
26.7
32.1
22.8
17.5
12.7
254.3
225.6
241.1
211.7
176
190.2
161.5
140.1
151.9
127.6
100.9
112.4
86.1
63.4
72.1
56.3
36.1
50.5
35.1
19
24.9
12.3
252.5
238.5
223.7
209.7
188.9
174.7
160.1
150.2
138.7
126.4
111.5
99.8
85.3
71.5
63
55.8
35.8
49.9
34.8
24.7
18.8
12.2
COMP.
kW
7.8
7.87
7.9
7.94
7.81
7.77
7.82
7.59
7.53
7.85
7.46
7.8
7.97
7.77
8.44
7.83
8.5
7.49
7.59
7.81
8.01
7.89
7.7
7.74
7.71
7.76
7.67
7.68
7.66
7.34
7.41
7.72
7.65
7.27
7.77
8.22
7.67
7.68
8.26
7.28
7.41
7.8
7.62
7.65
EER
415.5
373.8
400.1
355.3
289.1
309.5
266.7
226.4
242.2
209.9
159.4
184.8
146.9
103.1
131.8
92.9
66.4
80.1
56.7
31.4
43.5
21.1
407.5
387.7
363.6
343.9
303.6
282.2
259.1
233.8
218.7
204.3
179.8
153.9
141.9
127.5
101.1
90.3
64.1
77
54.8
42
30.4
20.3
WATER
FLOW
(GPM)
1150F AMBIENT TEMPERATURE
CAP.
(Tons)
NOTES:
1. Packaged chillers are rated with ARI standard 550/590.
2. Performance data are based on 100F water range in evaporator.
3. Ratings are based on 0.00010 (hr-ft2-0F/Btu) fouling factor for evaporator.
4. Direct interpolation is permissible. Do not extrapolate.
5. kW power input is for compressor only.
6. EER for entire unit. Refer to electrical data for fan kW.
208.1
182
195.7
169.7
143
155.7
130
111.9
121.2
104.2
80.5
90.9
68.7
51.9
57.4
45.5
28.7
40.3
28.2
15.2
20
9.9
206.6
193.7
180.5
168
154.5
141.7
128.8
119.8
110.7
103.3
90.1
79.5
68
56.9
51.5
45.1
28.5
39.8
27.9
19.9
15
9.8
COMP.
kW
WATER
FLOW
(GPM)
950F AMBIENT TEMPERATURE
ALY 010A
UNIT
SIZE
GPM - Gallons Per Minute
kW
LEGEND:
46 F
0
44 0F
LEAVING
CHILLED
WATER TEMP.
(LCWT)
PERFORMANCE DATA (English units)
165.3
148.3
159.5
141.3
114.8
123.1
105.7
89.6
95.7
83.8
62.9
73.4
58.3
41
52.5
36.9
26.5
31.7
22.5
12.5
17.3
8.4
162
154.2
144.5
136.5
120.7
112
102.6
92.2
86.5
81.4
71.2
60.7
56.3
50.8
40.2
35.8
25.6
30.4
21.7
16.7
12.1
8.1
CAP.
(Tons)
272.2
242.8
259
228.7
189.1
203.6
174.1
151.5
164.3
136.8
109.1
121
93.1
67.9
77.9
60.6
39.1
54.7
37.9
20.6
26.8
13.3
270.2
256.1
240.8
226.4
202.2
187.6
172.6
162.6
150
135.3
119.9
108
92.3
77.3
67.4
60.1
38.7
54
37.5
26.6
20.4
13.1
COMP.
kW
6.98
6.99
7.06
7.04
6.96
6.95
6.93
6.7
6.62
7.04
6.56
6.93
7.05
6.95
7.51
6.96
7.57
6.59
6.74
6.94
7.15
7.04
6.89
6.9
6.86
6.87
6.86
6.84
6.78
6.45
6.53
6.91
6.79
6.39
6.87
7.32
6.85
6.81
7.35
6.39
6.57
6.96
6.76
6.83
EER
396.8
356
382.9
339.1
275.5
295.5
253.7
215
229.6
201
151
176.1
139.8
98.4
126.1
88.5
63.7
76
54
30.1
41.5
20.2
388.8
370.2
346.8
327.6
289.7
268.8
246.2
221.3
207.5
195.3
171
145.6
135
121.9
96.5
85.9
61.3
72.9
52.2
40.1
29
19.5
WATER
FLOW
(GPM)
1220F AMBIENT TEMPERATURE
18
143.2
151.9
177
185
198.6
204.2
ALY 160A
ALY 170A
ALY 180A
ALY 190A
- Compressor power input
129.2
82.5
91.9
ALY 070A
ALY 080A
ALY 130A
ALY 140A
75.5
ALY 065A
ALY 120A
50.6
66.6
ALY 045A
ALY 055A
103.6
46.2
ALY 040A
110.4
118.4
35.8
40.4
ALY 030A
ALY 035A
ALY 100A
ALY 110A
29.9
ALY 025A
ALY 090A
16.8
24.9
ALY 015A
ALY 020A
ALY 160A
11.4
171.8
ALY 140A
199.1
147.9
ALY 130A
ALY 010A
138.7
ALY 120A
ALY 190A
127.9
ALY 110A
180
117.1
ALY 100A
193.2
109.2
ALY 090A
ALY 180A
101.2
ALY 080A
ALY 170A
78
89.6
ALY 070A
63.4
71.2
49.4
ALY 045A
ALY 065A
44.8
ALY 040A
ALY 055A
27.5
32.3
39.5
21.2
ALY 020A
ALY 030A
ALY 035A
15.3
ALY 025A
10.4
ALY 015A
CAP.
(Tons)
EER - Energy Efficiency Ratio
10.94
11.21
11.21
11.43
11.1
10.89
11.05
10.83
10.79
11.03
11.1
11.16
11.81
10.88
12.38
11.21
13.07
10.95
11.42
11.91
12.74
12.04
10.77
11.02
11.01
11.21
10.71
10.88
10.97
10.71
10.75
10.88
10.98
10.7
11.33
11.91
10.72
10.99
12.09
10.78
10.76
11.3
11.15
11.21
EER
490.2
444.1
476.7
424.8
343.7
364.7
310.1
264.9
284.3
248.5
198
220.5
181.2
121.5
159.9
110.9
86
97
71.8
40.4
59.7
27.4
477.8
463.8
431.9
412.2
354.9
333
307.1
281.1
262
242.8
215
187.2
171
152.1
118.5
107.6
77.6
94.7
66
50.8
36.8
24.9
193.2
175.9
188.9
168.3
135.4
143.7
122.2
104.3
111.9
98.4
78.1
86.9
71.6
47.9
63.4
43.7
34.3
38.2
28.4
16.1
24
10.8
188.1
183.6
170.9
163.2
139.6
131
120.9
110.6
103.2
96.1
84.7
73.7
67.5
60.2
46.6
42.4
30.8
37.3
26
20.1
14.6
9.8
CAP.
(Tons)
234.6
207.2
222.8
194
161.9
175.4
146.4
126.7
137.3
118.1
93
103.2
79.1
58.4
65.7
51.7
33.5
46.1
32.7
17.8
23.7
11.5
232.2
220.4
205.1
191.9
173.4
159.9
145.9
136.7
126.2
117.1
102.2
91.1
77.7
64.9
57.9
51.1
32.6
45.8
31.8
22.6
17.2
11.2
COMP.
kW
9.4
9.63
9.66
9.81
9.51
9.35
9.44
9.23
9.17
9.51
9.46
9.56
10.1
9.35
10.61
9.59
11.27
9.32
9.78
10.21
11.08
10.35
9.25
9.48
9.45
9.6
9.18
9.31
9.37
9.1
9.15
9.37
9.39
9.1
9.68
10.2
9.2
9.39
10.39
9.18
9.19
9.71
9.54
9.62
EER
463.7
422.1
453.4
404
325.1
344.9
293.2
250.4
268.4
236.2
187.4
208.6
171.9
114.8
152.1
104.9
82.4
91.6
68.2
38.5
57.5
26
451.6
440.7
410.1
391.7
335.1
314.5
290.3
265.4
247.6
230.7
203.4
176.8
162
144.5
111.9
101.7
74
89.5
62.5
48.2
35
23.6
WATER
FLOW
(GPM)
1050F AMBIENT TEMPERATURE
9.3
182
166.3
178.9
159.1
127.4
135.3
114.7
97.8
104.7
93.2
73.3
81.8
67.5
45
59.9
41.1
32.7
35.8
26.8
15.2
23
10.2
177
173.8
161.4
154.1
131.3
123.1
113.5
103.5
96.7
91
79.7
68.9
63.5
56.9
43.9
39.8
29.3
35
24.5
19
13.8
259.1
230.6
247.3
216.6
179.5
193.7
163.1
141.7
153.7
130.7
104.1
114.7
88.5
64.5
73.5
57.4
37.6
51.6
36.5
19.9
26.5
12.8
256.4
244.6
228.3
214.4
191.5
177.3
162.5
153.1
141.2
129.6
113.7
102
87
72.6
63.9
56.8
36.6
51.3
35.5
25.2
19.3
12.5
COMP.
kW
8.06
8.23
8.28
8.35
8.11
8.01
8
7.79
7.73
8.18
7.99
8.13
8.57
8
9.04
8.16
9.66
7.86
8.32
8.71
9.6
8.86
7.92
8.12
8.06
8.17
7.86
7.93
7.94
7.66
7.72
8.06
7.99
7.66
8.19
8.68
7.87
7.98
8.87
7.74
7.8
8.31
8.11
8.22
EER
436.8
399.2
429.4
381.8
305.8
324.8
275.4
234.7
251.3
223.6
175.9
196.3
162
108.1
143.7
98.5
78.4
85.8
64.4
36.5
55.1
24.6
424.9
417
387.3
369.8
315.1
295.4
272.5
248.4
232
218.4
191.2
165.4
152.3
136.5
105.3
95.4
70.2
84
58.8
45.5
33.1
22.3
WATER
FLOW
(GPM)
1150F AMBIENT TEMPERATURE
CAP.
(Tons)
NOTES:
1. Packaged chillers are rated with ARI standard 550/590.
2. Performance data are based on 100F water range in evaporator.
3. Ratings are based on 0.00010 (hr-ft2-0F/Btu) fouling factor for evaporator.
4. Direct interpolation is permissible. Do not extrapolate.
5. kW power input is for compressor only.
6. EER for entire unit. Refer to electrical data for fan kW.
212
186
200.6
173.8
145.8
158.5
131.4
113.3
122.8
106.6
83.2
92.8
70.7
52.8
58.6
46.5
29.9
41.3
29.2
15.8
21.2
10.3
209.8
198.4
184.1
171.9
156.8
144.1
130.9
122.3
112.8
105.6
91.9
81.5
69.4
57.9
52.3
46
29.1
40.9
28.5
20.3
15.4
10
COMP.
kW
WATER
FLOW
(GPM)
950F AMBIENT TEMPERATURE
ALY 010A
UNIT
SIZE
GPM - Gallons Per Minute
kW
LEGEND:
50 F
0
48 0F
LEAVING
CHILLED
WATER TEMP.
(LCWT)
PERFORMANCE DATA (English units)
174
159.4
171.7
152.3
121.6
129.4
109.3
93
99.4
89.4
69.7
78.1
64.4
43.1
57.3
39.2
31.5
34
25.6
14.6
22.2
9.8
169.2
166.6
154.5
147.4
125.4
117.3
108.1
98.2
91.9
87.4
76
65.4
60.5
54.4
41.9
37.9
28.1
33.2
23.3
18.2
13.2
8.9
CAP.
(Tons)
277.5
248.4
265.9
234
192.8
207.4
175.8
153.2
166.2
140.3
112.6
123.4
95.7
69.1
79.5
61.8
40.7
55.8
39.3
21.5
28.6
13.7
274.5
263
245.9
231.6
205
190.4
175.2
165.6
152.6
139
122.3
110.4
94.1
78.6
68.4
61.1
39.6
55.5
38.3
27.2
20.9
13.4
COMP.
kW
7.21
7.34
7.41
7.43
7.23
7.17
7.1
6.88
6.81
7.34
7.06
7.24
7.6
7.17
8.04
7.26
8.64
6.93
7.41
7.76
8.66
7.92
7.09
7.27
7.19
7.26
7.03
7.06
7.04
6.75
6.82
7.23
7.11
6.75
7.25
7.72
7.04
7.09
7.91
6.82
6.92
7.42
7.21
7.34
EER
417.6
382.5
412.1
365.5
292
310.5
262.3
223.1
238.6
214.6
167.4
187.3
154.6
103.3
137.6
94
75.5
81.5
61.5
35.1
53.4
23.5
406
399.9
370.8
353.7
301
281.6
259.5
235.7
220.5
209.7
182.4
157
145.1
130.6
100.5
90.9
67.4
79.8
56
43.6
31.7
21.3
WATER
FLOW
(GPM)
1220F AMBIENT TEMPERATURE
19
29.8
44.5
61.6
86.1
93.2
116.1
141.8
161.7
193.5
219.1
240.6
280.1
327.8
334.3
358.6
402.8
444.5
484.4
540.7
575.9
617.8
650.0
31.1
47.3
64.9
86.5
99.0
123.5
144.0
163.2
197.9
223.0
244.4
289.4
331.2
344.2
369.2
412.0
447.3
486.1
551.1
585.9
624.9
658.5
ALY 015A
ALY 020A
ALY 025A
ALY 030A
ALY 035A
ALY 040A
ALY 045A
ALY 055A
ALY 065A
ALY 070A
ALY 080A
ALY 090A
ALY 100A
ALY 110A
ALY 120A
ALY 130A
ALY 140A
ALY 160A
ALY 170A
ALY 180A
ALY 190A
ALY 010A
ALY 015A
ALY 020A
ALY 025A
ALY 030A
ALY 035A
ALY 040A
ALY 045A
ALY 055A
ALY 065A
ALY 070A
ALY 080A
ALY 090A
ALY 100A
ALY 110A
ALY 120A
ALY 130A
ALY 140A
ALY 160A
ALY 170A
ALY 180A
ALY 190A
CAP.
(kW)
COP - Coefficient of Performance
LPS - Liters Per Second
3.0
3.1
3.1
3.1
3.0
3.0
3.0
2.9
2.9
3.0
2.9
3.0
3.0
3.0
3.2
3.0
3.2
2.9
2.9
3.0
3.0
2.9
3.0
3.0
3.0
3.0
3.0
3.0
3.0
2.9
2.9
3.0
3.0
2.9
3.0
3.1
3.0
3.0
3.0
2.8
2.9
2.9
2.8
2.8
COP
26.3
23.4
24.9
22.0
17.8
19.4
16.4
13.7
14.7
13.2
9.7
11.5
8.9
6.5
7.9
5.7
3.9
4.9
3.4
1.9
2.6
1.2
25.9
24.6
23.0
21.6
19.3
17.7
16.1
14.3
13.3
13.1
11.2
9.6
8.7
7.7
6.4
5.7
3.7
4.6
3.4
2.5
1.8
1.2
624.7
557.0
593.3
524.3
424.4
461.3
390.7
326.5
349.7
314.4
231.4
274.4
212.0
154.8
189.1
136.5
94.7
117.0
82.2
45.1
61.8
29.7
616.5
586.3
547.9
514.8
459.3
421.3
381.7
339.2
316.9
311.1
265.5
227.4
208.1
184.8
153.3
134.3
89.2
109.9
81.7
58.6
42.4
28.4
CAP.
(kW)
224.4
197.3
211.2
184.0
153.5
167.3
140.1
120.4
130.3
112.5
86.7
98.2
74.3
55.9
62.4
49.0
31.2
43.5
30.4
16.4
21.6
10.6
223.2
210.3
196.3
183.0
167.0
153.1
139.1
129.1
119.3
112.0
97.2
86.2
73.9
62.1
55.7
48.8
30.8
42.7
30.4
21.4
16.2
10.5
COMP.
kW
2.6
2.7
2.7
2.7
2.6
2.6
2.6
2.5
2.5
2.7
2.5
2.6
2.6
2.6
2.8
2.6
2.8
2.5
2.5
2.6
2.6
2.5
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.5
2.5
2.6
2.6
2.5
2.6
2.7
2.6
2.6
2.6
2.4
2.5
2.5
2.5
2.4
COP
24.9
22.2
23.7
20.9
16.9
18.4
15.6
13.0
13.9
12.5
9.2
10.9
8.5
6.2
7.5
5.4
3.8
4.7
3.3
1.8
2.5
1.2
24.6
23.4
21.8
20.5
18.3
16.8
15.2
13.5
12.6
12.4
10.6
9.1
8.3
7.4
6.1
5.4
3.6
4.4
3.3
2.3
1.7
1.1
WATER
FLOW
(LPS)
400C AMBIENT TEMPERATURE
NOTES:
1. Packaged chillers are rated with ARI standard 550/590.
2. Performance data are based on 60C water range in evaporator.
3. Ratings are based on 0.000018 (m2 -0C/W) fouling factor for evaporator.
4. Direct interpolation is permissible. Do not extrapolate.
5. kW power input is for compressor only.
6. COP for entire unit. Refer to electrical data for fan kW.
204.7
179.1
192.2
166.5
139.5
152.6
127.0
108.8
117.7
102.6
78.3
89.2
67.1
51.0
56.3
44.5
28.1
39.3
27.6
14.8
19.6
9.6
203.7
191.4
178.0
165.5
152.4
139.2
126.1
116.6
107.8
102.2
88.2
77.9
66.7
56.0
50.8
44.3
27.8
38.5
27.5
19.3
14.6
9.5
COMP.
kW
WATER
FLOW
(LPS)
350C AMBIENT TEMPERATURE
ALY 010A
UNIT
SIZE
kW - Compressor power input
LEGEND:
5 C
0
4 0C
LEAVING
CHILLED
WATER TEMP.
(LCWT)
583.2
520.4
554.0
489.7
395.5
430.8
363.3
303.3
323.8
293.8
214.1
255.3
197.7
144.4
177.7
127.0
89.1
108.4
76.6
42.3
57.9
27.9
575.1
547.0
512.2
481.1
428.5
392.0
354.4
313.4
293.8
290.6
246.8
209.8
193.7
173.5
143.0
124.8
84.0
101.6
76.1
54.9
39.8
26.6
CAP.
(kW)
249.8
221.5
236.0
207.4
171.8
186.3
157.7
136.1
147.4
125.2
98.0
110.1
84.0
62.2
70.5
55.0
35.3
49.2
34.3
18.5
24.3
12.0
248.5
235.0
220.5
206.4
186.0
171.4
156.6
146.0
134.9
124.7
109.0
97.5
83.5
70.2
62.0
54.7
34.8
48.3
34.2
24.0
18.2
11.9
COMP.
kW
2.2
2.2
2.2
2.2
2.2
2.2
2.2
2.1
2.1
2.2
2.1
2.2
2.2
2.2
2.3
2.2
2.3
2.1
2.1
2.2
2.2
2.1
2.2
2.2
2.2
2.2
2.2
2.2
2.1
2.0
2.0
2.2
2.1
2.0
2.2
2.3
2.2
2.2
2.2
2.0
2.1
2.1
2.1
2.0
COP
23.3
20.8
22.1
19.5
15.8
17.2
14.5
12.1
12.9
11.7
8.5
10.2
7.9
5.8
7.1
5.1
3.6
4.3
3.1
1.7
2.3
1.1
22.9
21.8
20.4
19.2
17.1
15.6
14.1
12.5
11.7
11.6
9.8
8.4
7.7
6.9
5.7
5.0
3.3
4.1
3.0
2.2
1.6
1.1
WATER
FLOW
(LPS)
460C AMBIENT TEMPERATURE
PERFORMANCE DATA (Metric units)
555.1
494.9
527.0
465.2
375.6
410.0
344.0
286.6
305.2
279.9
201.6
242.0
187.4
137.4
169.7
120.4
85.2
102.1
72.7
40.4
55.2
26.7
547.0
519.9
487.2
457.3
407.5
371.7
335.0
294.7
277.3
276.6
233.6
197.2
183.4
165.5
135.9
118.1
80.3
95.6
72.1
52.3
37.9
25.4
CAP.
(kW)
267.8
239.0
253.8
224.5
185.0
199.9
170.4
147.6
159.9
134.3
106.4
118.8
91.1
66.7
76.5
59.3
38.3
53.4
37.0
20.1
26.2
12.9
266.5
252.8
238.0
223.5
199.5
184.5
169.2
158.5
146.3
133.8
117.6
105.7
90.6
76.1
66.5
59.0
37.8
52.5
36.9
25.9
19.8
12.8
COMP.
kW
2.0
2.0
2.0
2.0
1.9
2.0
1.9
1.8
1.8
2.0
1.8
1.9
1.9
2.0
2.1
1.9
2.1
1.8
1.9
1.9
1.9
1.9
2.0
2.0
2.0
1.9
2.0
1.9
1.9
1.8
1.8
2.0
1.9
1.8
1.9
2.0
2.0
1.9
2.0
1.7
1.8
1.9
1.8
1.8
COP
22.1
19.7
21.0
18.5
15.0
16.3
13.7
11.4
12.2
11.2
8.0
9.7
7.5
5.5
6.8
4.8
3.4
4.1
2.9
1.6
2.2
1.1
21.8
20.7
19.4
18.2
16.2
14.8
13.4
11.8
11.1
11.0
9.3
7.9
7.3
6.6
5.4
4.7
3.2
3.8
2.9
2.1
1.5
1.0
WATER
FLOW
(LPS)
500C AMBIENT TEMPERATURE
20
573.1
605.2
645.3
678.2
ALY 190A
50.4
69.9
ALY 015A
ALY 020A
ALY 170A
ALY 180A
33.8
ALY 010A
ALY 160A
667.9
ALY 190A
471.5
505.7
633.4
ALY 180A
434.0
594.6
ALY 170A
ALY 130A
ALY 140A
560.9
ALY 160A
ALY 120A
495.8
ALY 140A
367.6
394.4
459.5
ALY 130A
339.4
422.8
ALY 120A
ALY 100A
ALY 110A
381.7
ALY 110A
ALY 090A
355.8
ALY 100A
259.7
300.7
334.6
ALY 090A
237.1
295.0
ALY 080A
ALY 070A
ALY 080A
251.7
ALY 070A
ALY 065A
229.7
ALY 065A
168.5
210.8
204.2
ALY 055A
151.3
165.7
ALY 045A
ALY 045A
ALY 055A
147.5
ALY 040A
ALY 040A
102.6
126.7
ALY 030A
ALY 035A
91.6
88.7
ALY 025A
105.7
129.9
67.6
ALY 020A
ALY 030A
ALY 035A
49.0
ALY 025A
32.6
ALY 015A
CAP.
(kW)
COP - Coefficient of Performance
LPS - Liters Per Second
3.1
3.1
3.1
3.2
3.1
3.1
3.1
3.1
3.0
3.1
3.0
3.1
3.2
3.1
3.3
3.1
3.3
3.0
3.0
3.1
3.2
3.1
3.1
3.1
3.1
3.1
3.0
3.1
3.1
3.0
3.0
3.1
3.1
3.0
3.1
3.3
3.0
3.1
3.3
3.0
3.0
3.1
3.0
3.0
COP
27.0
24.1
25.7
22.9
18.8
20.2
17.3
14.7
15.7
13.5
10.4
12.0
9.5
6.7
8.4
6.0
4.2
5.2
3.7
2.0
2.8
1.3
26.6
25.3
23.7
22.4
19.8
18.3
16.9
15.2
14.2
13.3
11.8
10.0
9.2
8.1
6.6
5.9
4.1
5.1
3.5
2.7
2.0
1.3
643.9
576.1
614.0
546.0
447.8
480.1
412.3
349.2
374.2
322.8
246.4
285.5
225.7
159.9
201.4
143.6
101.1
123.3
87.2
48.1
66.6
32.2
633.8
601.8
565.4
533.8
470.6
436.2
401.4
361.9
337.8
317.8
279.8
238.6
218.6
195.1
157.2
140.0
98.1
120.1
84.4
64.4
46.8
31.1
CAP.
(kW)
227.0
199.6
213.7
186.4
156.4
169.9
142.6
123.0
133.2
113.6
88.4
99.5
75.6
56.6
63.3
49.8
31.7
44.2
30.9
16.7
22.0
10.9
225.6
212.2
198.3
185.0
168.6
154.9
141.3
131.8
121.7
112.9
98.8
87.5
74.9
62.8
56.2
49.4
31.5
43.9
30.7
21.8
16.6
10.8
COMP.
kW
2.7
2.7
2.7
2.8
2.7
2.7
2.7
2.7
2.6
2.7
2.6
2.7
2.8
2.7
2.9
2.7
2.9
2.6
2.6
2.7
2.8
2.7
2.7
2.7
2.7
2.7
2.7
2.7
2.7
2.6
2.6
2.7
2.7
2.5
2.7
2.8
2.7
2.7
2.8
2.6
2.6
2.7
2.6
2.6
COP
25.7
23.0
24.5
21.8
17.9
19.1
16.4
13.9
14.9
12.9
9.8
11.4
9.0
6.4
8.0
5.7
4.0
4.9
3.5
1.9
2.7
1.3
25.3
24.0
22.5
21.3
18.8
17.4
16.0
14.4
13.5
12.7
11.2
9.5
8.7
7.8
6.3
5.6
3.9
4.8
3.4
2.6
1.9
1.2
WATER
FLOW
(LPS)
400C AMBIENT TEMPERATURE
NOTES:
1. Packaged chillers are rated with ARI standard 550/590.
2. Performance data are based on 60C water range in evaporator.
3. Ratings are based on 0.000018 (m2 -0C/W) fouling factor for evaporator.
4. Direct interpolation is permissible. Do not extrapolate.
5. kW power input is for compressor only.
6. COP for entire unit. Refer to electrical data for fan kW.
207.2
181.1
194.5
168.8
142.2
155.0
129.3
111.2
120.4
103.6
79.9
90.4
68.3
51.7
57.1
45.3
28.6
40.0
28.0
15.1
19.9
9.8
205.9
193.1
180.0
167.5
153.8
140.9
128.1
119.0
110.0
103.0
89.8
79.1
67.6
56.7
51.3
44.9
28.4
39.6
27.8
19.8
15.0
9.7
COMP.
kW
WATER
FLOW
(LPS)
350C AMBIENT TEMPERATURE
ALY 010A
UNIT
SIZE
kW - Compressor power input
LEGEND:
7 C
0
6 0C
LEAVING
CHILLED
WATER TEMP.
(LCWT)
602.1
539.5
575.4
511.1
418.2
449.0
384.6
325.3
347.9
302.6
228.9
266.4
211.0
149.5
189.4
134.0
95.3
114.5
81.5
45.2
62.4
30.3
592.2
562.7
528.7
498.9
439.8
407.2
373.9
335.9
314.3
297.3
260.7
221.3
204.2
183.5
146.8
130.4
92.4
111.4
78.8
60.1
43.9
29.2
CAP.
(kW)
252.7
224.0
239.0
210.0
174.9
189.1
160.3
138.9
150.6
126.6
100.0
111.6
85.4
63.0
71.6
55.9
35.8
50.0
34.8
18.9
24.7
12.2
251.1
237.2
222.6
208.5
187.7
173.4
159.0
149.0
137.5
125.8
110.8
99.0
84.7
71.0
62.6
55.4
35.6
49.6
34.5
24.5
18.7
12.1
COMP.
kW
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.2
2.2
2.3
2.2
2.3
2.3
2.3
2.4
2.3
2.5
2.2
2.2
2.3
2.3
2.3
2.3
2.3
2.3
2.3
2.2
2.2
2.2
2.1
2.2
2.3
2.2
2.1
2.3
2.4
2.2
2.2
2.4
2.1
2.2
2.3
2.2
2.2
COP
24.0
21.5
22.9
20.4
16.7
17.9
15.3
13.0
13.9
12.1
9.1
10.6
8.4
6.0
7.6
5.3
3.8
4.6
3.2
1.8
2.5
1.2
23.6
22.4
21.1
19.9
17.5
16.2
14.9
13.4
12.5
11.9
10.4
8.8
8.1
7.3
5.9
5.2
3.7
4.4
3.1
2.4
1.8
1.2
WATER
FLOW
(LPS)
460C AMBIENT TEMPERATURE
PERFORMANCE DATA (Metric units)
573.9
514.0
548.9
486.5
397.9
427.9
365.1
308.3
329.1
288.9
216.4
253.1
200.5
142.4
180.9
127.3
91.1
108.3
77.5
43.1
59.5
28.9
564.1
536.0
503.1
474.2
419.0
387.1
354.5
317.2
297.5
283.5
247.4
208.8
193.8
175.3
139.8
123.8
88.4
105.1
74.9
57.6
41.9
27.9
CAP.
(kW)
270.9
241.7
257.1
227.3
188.2
202.8
173.2
150.6
163.3
135.8
108.4
120.3
92.6
67.6
77.6
60.3
38.8
54.2
37.7
20.4
26.7
13.2
269.3
255.1
240.2
225.7
201.3
186.6
171.8
161.6
149.1
134.9
119.5
107.4
91.8
77.0
67.1
59.8
38.6
53.8
37.3
26.5
20.3
13.1
COMP.
kW
2.0
2.0
2.0
2.0
2.0
2.0
2.0
1.9
1.9
2.0
1.9
2.0
2.0
2.0
2.2
2.0
2.2
1.9
1.9
2.0
2.1
2.0
2.0
2.0
2.0
2.0
2.0
2.0
2.0
1.9
1.9
2.0
2.0
1.8
2.0
2.1
2.0
2.0
2.1
1.9
1.9
2.0
2.0
2.0
COP
22.9
20.5
21.9
19.4
15.9
17.1
14.6
12.3
13.1
11.5
8.6
10.1
8.0
5.7
7.2
5.1
3.6
4.3
3.1
1.7
2.4
1.2
22.5
21.4
20.1
18.9
16.7
15.4
14.1
12.6
11.9
11.3
9.9
8.3
7.7
7.0
5.6
4.9
3.5
4.2
3.0
2.3
1.7
1.1
WATER
FLOW
(LPS)
500C AMBIENT TEMPERATURE
21
35.1
52.0
72.0
94.2
109.3
134.4
154.8
171.3
217.1
244.1
267.4
308.0
347.5
377.9
405.5
444.1
480.9
513.8
589.6
619.9
663.1
689.7
40.3
59.6
88.7
105.7
127.0
142.5
162.9
178.4
235.0
266.4
291.1
323.9
366.1
389.2
417.7
455.6
504.8
535.5
626.1
654.3
702.6
719.9
ALY 015A
ALY 020A
ALY 025A
ALY 030A
ALY 035A
ALY 040A
ALY 045A
ALY 055A
ALY 065A
ALY 070A
ALY 080A
ALY 090A
ALY 100A
ALY 110A
ALY 120A
ALY 130A
ALY 140A
ALY 160A
ALY 170A
ALY 180A
ALY 190A
ALY 010A
ALY 015A
ALY 020A
ALY 025A
ALY 030A
ALY 035A
ALY 040A
ALY 045A
ALY 055A
ALY 065A
ALY 070A
ALY 080A
ALY 090A
ALY 100A
ALY 110A
ALY 120A
ALY 130A
ALY 140A
ALY 160A
ALY 170A
ALY 180A
ALY 190A
CAP.
(kW)
COP - Coefficient of Performance
LPS - Liters Per Second
3.2
3.3
3.3
3.4
3.3
3.2
3.2
3.2
3.2
3.2
3.3
3.3
3.5
3.2
3.6
3.3
3.8
3.2
3.4
3.5
3.8
3.5
3.1
3.2
3.2
3.2
3.1
3.2
3.2
3.1
3.1
3.1
3.2
3.1
3.3
3.4
3.1
3.2
3.4
3.1
3.1
3.2
3.2
3.2
COP
28.7
26.1
28.0
25.0
20.1
21.4
18.2
15.5
16.7
14.6
11.6
12.9
10.6
7.1
9.4
6.5
5.1
5.7
4.2
2.4
3.5
1.6
27.5
26.4
24.7
23.5
20.5
19.2
17.7
16.2
15.1
13.9
12.3
10.7
9.7
8.7
6.8
6.2
4.4
5.4
3.8
2.9
2.1
1.4
684.9
625.3
671.8
598.4
480.2
509.4
433.3
370.0
396.8
349.8
277.1
308.3
254.1
169.6
224.7
154.9
122.1
135.4
100.8
57.1
85.7
38.5
655.2
632.3
590.9
562.5
487.9
456.7
422.2
385.1
359.2
331.2
292.8
253.9
232.5
207.4
162.6
147.1
104.7
127.8
89.6
68.7
49.7
33.4
CAP.
(kW)
232.4
205.4
221.0
192.3
160.3
173.8
144.9
125.4
135.9
117.2
92.1
102.2
78.3
57.9
65.0
51.2
33.2
45.7
32.3
17.6
23.6
11.3
228.5
216.0
201.3
188.2
170.9
157.4
143.7
134.5
124.1
114.7
100.3
89.3
76.2
63.7
57.0
50.2
31.9
44.8
31.2
22.2
16.9
10.9
COMP.
kW
2.8
2.9
2.9
2.9
2.8
2.8
2.8
2.8
2.7
2.8
2.8
2.8
3.0
2.8
3.2
2.9
3.4
2.8
2.9
3.0
3.3
3.1
2.7
2.8
2.8
2.8
2.7
2.7
2.8
2.7
2.7
2.7
2.8
2.7
2.8
3.0
2.7
2.8
3.0
2.7
2.7
2.8
2.8
2.8
COP
27.3
24.9
26.8
23.9
19.1
20.3
17.3
14.8
15.8
13.9
11.0
12.3
10.1
6.8
9.0
6.2
4.9
5.4
4.0
2.3
3.4
1.5
26.1
25.2
23.6
22.4
19.5
18.2
16.8
15.4
14.3
13.2
11.7
10.1
9.3
8.3
6.5
5.9
4.2
5.1
3.6
2.7
2.0
1.3
WATER
FLOW
(LPS)
400C AMBIENT TEMPERATURE
NOTES:
1. Packaged chillers are rated with ARI standard 550/590.
2. Performance data are based on 60C water range in evaporator.
3. Ratings are based on 0.000018 (m2 -0C/W) fouling factor for evaporator.
4. Direct interpolation is permissible. Do not extrapolate.
5. kW power input is for compressor only.
6. COP for entire unit. Refer to electrical data for fan kW.
212.2
186.4
201.1
174.2
146.0
158.6
131.5
113.4
122.9
106.8
83.3
92.9
70.8
52.9
58.7
46.5
30.0
41.3
29.3
15.9
21.3
10.3
208.6
196.5
182.7
170.4
156.0
143.3
130.3
121.6
112.2
104.6
91.1
80.7
68.9
57.5
52.0
45.7
28.8
40.4
28.2
20.1
15.2
9.9
COMP.
kW
WATER
FLOW
(LPS)
350C AMBIENT TEMPERATURE
ALY 010A
UNIT
SIZE
kW - Compressor power input
LEGEND:
10 C
0
8 0C
LEAVING
CHILLED
WATER TEMP.
(LCWT)
642.2
588.8
633.6
563.2
449.7
477.5
405.0
345.2
369.7
329.8
258.9
288.7
238.3
158.9
211.4
144.9
115.9
126.3
94.7
54.0
81.9
36.2
613.2
594.2
554.6
527.8
456.4
426.7
394.2
358.4
334.9
311.4
273.6
236.1
217.4
195.1
152.1
137.3
98.7
119.0
83.8
64.4
46.7
31.4
CAP.
(kW)
258.8
230.6
247.3
216.6
179.2
193.5
162.9
141.5
153.4
130.8
104.0
114.5
88.4
64.5
73.4
57.3
37.6
51.6
36.4
19.9
26.5
12.7
254.4
241.6
226.0
212.1
190.2
176.0
161.5
151.9
140.2
127.9
112.5
100.9
86.1
72.0
63.4
56.3
36.1
50.6
35.1
24.9
19.0
12.3
COMP.
kW
2.4
2.4
2.4
2.5
2.4
2.4
2.4
2.3
2.3
2.4
2.3
2.4
2.5
2.4
2.7
2.4
2.9
2.3
2.5
2.6
2.8
2.6
2.3
2.3
2.3
2.4
2.3
2.3
2.3
2.2
2.3
2.3
2.3
2.2
2.4
2.5
2.3
2.3
2.5
2.2
2.3
2.4
2.3
2.3
COP
25.6
23.5
25.3
22.5
17.9
19.0
16.1
13.8
14.7
13.2
10.3
11.5
9.5
6.3
8.4
5.8
4.6
5.0
3.8
2.2
3.3
1.4
24.5
23.7
22.1
21.0
18.2
17.0
15.7
14.3
13.4
12.4
10.9
9.4
8.7
7.8
6.1
5.5
3.9
4.7
3.3
2.6
1.9
1.3
WATER
FLOW
(LPS)
460C AMBIENT TEMPERATURE
PERFORMANCE DATA (Metric units)
613.3
563.5
607.3
538.5
428.7
455.9
385.2
327.6
350.4
316.1
246.0
275.2
227.2
151.7
202.1
138.0
111.4
119.8
90.5
51.7
79.2
34.6
584.9
568.2
529.3
503.3
435.1
406.1
374.7
339.4
317.6
298.1
260.3
223.5
206.7
186.4
145.0
130.5
94.5
112.8
79.8
61.5
44.6
30.0
CAP.
(kW)
277.8
248.9
266.5
234.4
192.9
207.6
175.9
153.3
166.3
140.6
112.7
123.5
95.8
69.1
79.6
61.8
40.8
55.9
39.4
21.5
28.7
13.8
272.8
260.1
243.9
229.6
204.0
189.4
174.5
164.8
151.9
137.4
121.3
109.4
93.4
78.1
68.0
60.7
39.2
54.9
38.0
26.9
20.6
13.3
COMP.
kW
2.1
2.2
2.2
2.2
2.1
2.1
2.1
2.0
2.0
2.2
2.1
2.1
2.2
2.1
2.4
2.1
2.5
2.0
2.2
2.3
2.6
2.3
2.0
2.1
2.1
2.1
2.0
2.0
2.0
2.0
2.0
2.1
2.0
1.9
2.1
2.2
2.0
2.0
2.2
2.0
2.0
2.1
2.0
2.1
COP
24.5
22.5
24.2
21.5
17.1
18.2
15.4
13.1
14.0
12.6
9.8
11.0
9.1
6.0
8.1
5.5
4.4
4.8
3.6
2.1
3.2
1.4
23.3
22.7
21.1
20.1
17.4
16.2
14.9
13.5
12.7
11.9
10.4
8.9
8.2
7.4
5.8
5.2
3.8
4.5
3.2
2.5
1.8
1.2
WATER
FLOW
(LPS)
500C AMBIENT TEMPERATURE
22
Total
kW
1.10
1.10
1.10
1.10
1.10
1.10
2.20
2.20
2.20
2.20
2.20
2.20
3.00
3.00
3.80
3.00
3.00
3.80
3.00
3.00
3.80
3.00
3.00
3.80
6.00
6.00
7.60
6.00
6.00
7.60
6.00
6.00
7.60
5.1
2.9
2.8
5.1
2.9
2.8
10.2
5.8
5.6
10.2
5.8
5.6
10
6
6.4
10
6
6.4
10
6
6.4
10
6
6.4
20
12
12.8
20
12
12.8
20
12
12.8
FCA
CB
(Qty.)
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
Volts
Total
Watts
90
90
90
90
90
90
180
180
180
180
180
180
180
180
180
240
240
240
270
240
270
300
240
300
360
360
360
420
420
420
480
480
480
Total
Amps
0.39
0.24
0.20
0.39
0.24
0.20
0.78
0.47
0.39
0.78
0.47
0.39
0.78
0.47
0.39
1.04
0.63
0.52
1.17
0.63
0.59
1.30
0.63
0.65
1.57
0.95
0.78
1.83
1.11
0.91
2.09
1.26
1.04
CRANKCASE HEATER
- Rated Load Amps
- Locked Rotor Amps
- Circuit Breaker
- Must Trip Amps
- Full Load Amps
- Total Fan Circuit Amps
RLA
LRA
CB
MTA
FLA
FCA
MOCP - Maximum Over Current Protection
- Minimum Circuit Ampacity per NEC 430-24
7. The ±10% voltage variation from the nominal is allowed for a short time only, not permanent.
6. Neutral line required on 380V-3Ph-60Hz power supply only.
5. Minimum and maximum unit supply voltages are shown in the tabulated data above (see also note # 7).
4. All field wiring must be in accordance with NEC and local standards.
3. The compressor crankcase heaters must be energized for 12 hours before the unit is initially started or after a prolonged power disconnection.
2. The maximum incoming wire size is 500 mcm. On units having MCA greater than the ampacity of 500 mcm wire, the factory supplied power
terminal block will accept two parallel field wires per phase.
1. Main power must be supplied from a single field supplied and mounted fused disconnects, using dual element time delay fuse or circuit breaker.
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
4
Qty.
FLA
(each)
5.1
2.9
2.8
5.1
2.9
2.8
5.1
2.9
2.8
5.1
2.9
2.8
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
CONDENSER FAN MOTORS
NOTES:
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
COMPRESSOR TYPE-2
CB
CB
RLA LRA
Qty.
(each) (each) Poles MTA Qty.
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
47.1 245
3
75
1
1
24.4 145
3
39
1
1
20.7 125
3
33
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
81.4 505
3
130
1
1
42.1 280
3
67
1
1
33.6 225
3
54
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
2
58.6 340
3
94
2
2
35.7 196
3
57
2
2
28.6 173
3
46
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
MCA
Max.
Min.
COMPRESSOR TYPE-1
CB
CB
RLA LRA
MCA MOCP Qty.
(each) (each) Poles MTA Qty.
58
100
1
42.0 239
3
67
1
32
55
1
23.0 145
3
37
1
27
46
1
19.0 125
3
30
1
78
137
1
58.6 340
3
94
1
48
83
1
35.7 196
3
57
1
39
67
1
28.6 173
3
46
1
105
147
2
42.0 239
3
67
2
58
81
2
23.0 145
3
37
2
48
67
2
19.0 125
3
30
2
131
189
1
58.6 340
3
94
1
75
111
1
35.7 196
3
57
1
62
91
1
28.6 173
3
46
1
142
200
2
58.6 340
3
94
2
86
122
2
35.7 196
3
57
2
71
99
2
28.6 173
3
46
2
193
275
2
81.4 505
3
130
2
101
143
2
42.1 280
3
67
2
82
116
2
33.6 225
3
54
2
208
302
1
93.6 605
3
150
1
118
173
1
55.7 353
3
89
1
92
133
1
41.4 272
3
66
1
221
314
2
93.6 605
3
150
2
131
187
2
55.7 353
3
89
2
100
141
2
41.4 272
3
66
2
269
328
4
58.6 340
3
94
4
164
199
4
35.7 196
3
57
4
134
163
4
28.6 173
3
46
4
320
402
2
81.4 505
3
130
2
178
220
2
42.1 280
3
67
2
146
179
2
33.6 225
3
54
2
366
447
4
81.4 505
3
130
4
191
233
4
42.1 280
3
67
4
156
189
4
33.6 225
3
54
4
SUPPLY VOLTAGE
Nominal
(V-Ph-Hz)
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
LEGEND:
ALY070A
ALY065A
ALY055A
ALY045A
ALY040A
ALY035A
ALY030A
ALY025A
ALY020A
ALY015A
ALY010A
UNIT
SIZE
ELECTRICAL DATA (Without hydronic kit option)
23
Total
kW
6.00
6.00
7.60
6.00
6.00
7.60
9.00
9.00
11.40
9.00
9.00
11.40
9.00
9.00
11.40
9.00
9.00
11.40
9.00
9.00
11.40
12.00
12.00
15.20
12.00
12.00
15.20
12.00
12.00
15.20
12.00
12.00
15.20
20
12
12.8
20
12
12.8
30
18
19.2
30
18
19.2
30
18
19.2
30
18
19.2
30
18
19.2
40
24
25.6
40
24
25.6
40
24
25.6
40
24
25.6
FCA
CB
(Qty.)
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
4
4
4
4
4
4
4
4
4
4
4
4
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
230
380
460
Volts
Total
Watts
540
480
540
600
480
600
660
660
660
720
720
720
780
720
780
840
720
840
900
720
900
1020
960
1020
1080
960
1080
1140
960
1140
1200
960
1200
Total
Amps
2.35
1.26
1.17
2.61
1.26
1.30
2.87
1.74
1.43
3.13
1.89
1.57
3.39
1.89
1.70
3.65
1.89
1.83
3.91
1.89
1.96
4.43
2.53
2.22
4.70
2.53
2.35
4.96
2.53
2.48
5.22
2.53
2.61
CRANKCASE HEATER
- Rated Load Amps
- Locked Rotor Amps
- Circuit Breaker
- Must Trip Amps
- Full Load Amps
- Total Fan Circuit Amps
RLA
LRA
CB
MTA
FLA
FCA
MOCP - Maximum Over Current Protection
- Minimum Circuit Ampacity per NEC 430-24
7. The ±10% voltage variation from the nominal is allowed for a short time only, not permanent.
6. Neutral line required on 380V-3Ph-60Hz power supply only.
5. Minimum and maximum unit supply voltages are shown in the tabulated data above (see also note # 7).
4. All field wiring must be in accordance with NEC and local standards.
3. The compressor crankcase heaters must be energized for 12 hours before the unit is initially started or after a prolonged power disconnection.
2. The maximum incoming wire size is 500 mcm. On units having MCA greater than the ampacity of 500 mcm wire, the factory supplied power
terminal block will accept two parallel field wires per phase.
1. Main power must be supplied from a single field supplied and mounted fused disconnects, using dual element time delay fuse or circuit breaker.
4
4
4
4
4
4
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
8
8
8
8
8
8
8
8
8
8
8
8
Qty.
FLA
(each)
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
CONDENSER FAN MOTORS
NOTES:
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
COMPRESSOR TYPE-2
CB
CB
RLA LRA
Qty.
(each) (each) Poles MTA Qty.
2
81.4 505
3
130
2
2
42.1 280
3
67
2
2
33.6 225
3
54
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
2
58.6 340
3
94
2
2
35.7 196
3
57
2
2
28.6 173
3
46
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
4
81.4 505
3
130
4
4
42.1 280
3
67
4
4
33.6 225
3
54
4
2
81.4 505
3
130
2
2
42.1 280
3
67
2
2
33.6 225
3
54
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
6
81.4 505
3
130
6
6
42.1 280
3
67
6
6
33.6 225
3
54
6
4
81.4 505
3
130
4
4
42.1 280
3
67
4
4
33.6 225
3
54
4
2
81.4 505
3
130
2
2
42.1 280
3
67
2
2
33.6 225
3
54
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
MCA
Max.
Min.
COMPRESSOR TYPE-1
CB
CB
RLA LRA
MCA MOCP Qty.
(each) (each) Poles MTA Qty.
393
487
2
93.6 605
3
150
2
222
277
2
55.7 353
3
89
2
173
215
2
41.4 272
3
66
2
418
511
4
93.6 605
3
150
4
249
304
4
55.7 353
3
89
4
189
230
4
41.4 272
3
66
4
493
575
4
81.4 505
3
130
4
268
310
4
42.1 280
3
67
4
219
253
4
33.6 225
3
54
4
539
620
6
81.4 505
3
130
6
281
323
6
42.1 280
3
67
6
229
263
6
33.6 225
3
54
6
566
660
2
93.6 605
3
150
2
312
367
2
55.7 353
3
89
2
247
288
2
41.4 272
3
66
2
591
684
4
93.6 605
3
150
4
339
395
4
55.7 353
3
89
4
262
304
4
41.4 272
3
66
4
615
709
6
93.6 605
3
150
6
366
422
6
55.7 353
3
89
6
278
319
6
41.4 272
3
66
6
739
833
2
93.6 605
3
150
2
402
458
2
55.7 353
3
89
2
320
362
2
41.4 272
3
66
2
763
857
4
93.6 605
3
150
4
429
485
4
55.7 353
3
89
4
336
377
4
41.4 272
3
66
4
788
881
6
93.6 605
3
150
6
456
512
6
55.7 353
3
89
6
352
393
6
41.4 272
3
66
6
812
906
8
93.6 605
3
150
8
484
539
8
55.7 353
3
89
8
367
409
8
41.4 272
3
66
8
SUPPLY VOLTAGE
Nominal
(V-Ph-Hz)
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
LEGEND:
ALY190A
ALY180A
ALY170A
ALY160A
ALY140A
ALY130A
ALY120A
ALY110A
ALY100A
ALY090A
ALY080A
UNIT
SIZE
ELECTRICAL DATA (Without hydronic kit option)
24
64
36
30
85
52
42
111
62
52
140
81
67
152
92
76
203
107
87
225
128
100
237
141
108
286
174
143
353
198
162
399
211
172
106
59
49
144
87
70
153
85
71
199
117
96
210
128
104
284
149
121
319
183
141
331
197
149
344
209
171
435
240
196
480
253
206
1
1
1
1
1
1
2
2
2
1
1
1
2
2
2
2
2
2
1
1
1
2
2
2
4
4
4
2
2
2
4
4
4
CB
CB
RLA LRA
(each) (each) Poles MTA Qty.
42.0 239
3
67
1
23.0 145
3
37
1
19.0 125
3
30
1
58.6 340
3
94
1
35.7 196
3
57
1
28.6 173
3
46
1
42.0 239
3
67
2
23.0 145
3
37
2
19.0 125
3
30
2
58.6 340
3
94
1
35.7 196
3
57
1
28.6 173
3
46
1
58.6 340
3
94
2
35.7 196
3
57
2
28.6 173
3
46
2
81.4 505
3
130
2
42.1 280
3
67
2
33.6 225
3
54
2
93.6 605
3
150
1
55.7 353
3
89
1
41.4 272
3
66
1
93.6 605
3
150
2
55.7 353
3
89
2
41.4 272
3
66
2
58.6 340
3
94
4
35.7 196
3
57
4
28.6 173
3
46
4
81.4 505
3
130
2
42.1 280
3
67
2
33.6 225
3
54
2
81.4 505
3
130
4
42.1 280
3
67
4
33.6 225
3
54
4
0
0
0
0
0
0
0
0
0
1
1
1
0
0
0
0
0
0
1
1
1
0
0
0
0
0
0
2
2
2
0
0
0
Qty.
CB
CB
RLA LRA
(each) (each) Poles MTA Qty.
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
47.1 245
3
75
1
24.4 145
3
39
1
20.7 125
3
33
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
81.4 505
3
130
1
42.1 280
3
67
1
33.6 225
3
54
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
58.6 340
3
94
2
35.7 196
3
57
2
28.6 173
3
46
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
CRANKCASE
HYDRONIC
HEATER
PUMP
CB
Total Total
Volts
HP Qty.
Watts Amps
(Qty.)
1
230
90
0.39
2
1
1
380
90
0.24
2
1
1
460
90
0.20
2
1
1
230
90
0.39
2
1
1
380
90
0.24
2
1
1
460
90
0.20
2
1
1
230
180 0.78
2
1
1
380
180 0.47
2
1
1
460
180 0.39
2
1
1
230
180 0.78
3
1
1
380
180 0.47
3
1
1
460
180 0.39
3
1
1
230
180 0.78
3
1
1
380
180 0.47
3
1
1
460
180 0.39
3
1
1
230
240 1.04
3
1
1
380
240 0.63
3
1
1
460
240 0.52
3
1
1
230
270 1.17
5
1
1
380
240 0.63
5
1
1
460
270 0.59
5
1
1
230
300 1.30
5
1
1
380
240 0.63
5
1
1
460
300 0.65
5
1
2
230
360 1.57
5
1
2
380
360 0.95
5
1
2
460
360 0.78
5
1
2
230
420 1.83 10
1
2
380
420 1.11 10
1
2
460
420 0.91 10
1
2
230
480 2.09 10
1
2
380
480 1.26 10
1
2
460
480 1.04 10
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
4
Qty.
FLA
(each)
5.1
2.9
2.8
5.1
2.9
2.8
5.1
2.9
2.8
5.1
2.9
2.8
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
Total
kW
1.10
1.10
1.10
1.10
1.10
1.10
2.20
2.20
2.20
2.20
2.20
2.20
3.00
3.00
3.80
3.00
3.00
3.80
3.00
3.00
3.80
3.00
3.00
3.80
6.00
6.00
7.60
6.00
6.00
7.60
6.00
6.00
7.60
5.1
2.9
2.8
5.1
2.9
2.8
10.2
5.8
5.6
10.2
5.8
5.6
10
6
6.4
10
6
6.4
10
6
6.4
10
6
6.4
20
12
12.8
20
12
12.8
20
12
12.8
FCA
CONDENSER FAN MOTORS
- Rated Load Amps
- Locked Rotor Amps
- Circuit Breaker
- Must Trip Amps
- Full Load Amps
- Total Fan Circuit Amps
- Horse Power
RLA
LRA
CB
MTA
FLA
FCA
HP
MOCP - Maximum Over Current Protection
- Minimum Circuit Ampacity per NEC 430-24
7. The ±10% voltage variation from the nominal is allowed for a short time only, not permanent.
6. Neutral line required on 380V-3Ph-60Hz power supply only.
5. Minimum and maximum unit supply voltages are shown in the tabulated data above (see also note # 7).
4. All field wiring must be in accordance with NEC and local standards.
3. The compressor crankcase heaters must be energized for 12 hours before the unit is initially started or after a prolonged power disconnection.
2. The maximum incoming wire size is 500 mcm. On units having MCA greater than the ampacity of 500 mcm wire, the factory supplied power
terminal block will accept two parallel field wires per phase.
1. Main power must be supplied from a single field supplied and mounted fused disconnects, using dual element time delay fuse or circuit breaker.
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
MCA MOCP Qty.
COMPRESSOR TYPE-2
MCA
Max.
Min.
COMPRESSOR TYPE-1
NOTES:
Nominal
(V-Ph-Hz)
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
SUPPLY VOLTAGE
LEGEND:
ALY070A
ALY065A
ALY055A
ALY045A
ALY040A
ALY035A
ALY030A
ALY025A
ALY020A
ALY015A
ALY010A
UNIT
SIZE
ELECTRICAL DATA (With hydronic kit option)
25
426
242
190
451
269
205
543
298
244
588
311
254
616
342
272
640
369
287
665
396
303
805
442
353
829
469
369
854
496
385
878
524
400
520
297
231
544
324
247
624
340
278
670
353
288
709
397
313
734
425
329
758
452
344
899
498
395
923
525
410
947
552
426
972
579
442
2
2
2
4
4
4
4
4
4
6
6
6
2
2
2
4
4
4
6
6
6
2
2
2
4
4
4
6
6
6
8
8
8
CB
CB
RLA LRA
(each) (each) Poles MTA Qty.
93.6 605
3
150
2
55.7 353
3
89
2
41.4 272
3
66
2
93.6 605
3
150
4
55.7 353
3
89
4
41.4 272
3
66
4
81.4 505
3
130
4
42.1 280
3
67
4
33.6 225
3
54
4
81.4 505
3
130
6
42.1 280
3
67
6
33.6 225
3
54
6
93.6 605
3
150
2
55.7 353
3
89
2
41.4 272
3
66
2
93.6 605
3
150
4
55.7 353
3
89
4
41.4 272
3
66
4
93.6 605
3
150
6
55.7 353
3
89
6
41.4 272
3
66
6
93.6 605
3
150
2
55.7 353
3
89
2
41.4 272
3
66
2
93.6 605
3
150
4
55.7 353
3
89
4
41.4 272
3
66
4
93.6 605
3
150
6
55.7 353
3
89
6
41.4 272
3
66
6
93.6 605
3
150
8
55.7 353
3
89
8
41.4 272
3
66
8
2
2
2
0
0
0
2
2
2
0
0
0
4
4
4
2
2
2
0
0
0
6
6
6
4
4
4
2
2
2
0
0
0
Qty.
CB
CB
RLA LRA
(each) (each) Poles MTA Qty.
81.4 505
3
130
2
42.1 280
3
67
2
33.6 225
3
54
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
58.6 340
3
94
2
35.7 196
3
57
2
28.6 173
3
46
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
81.4 505
3
130
4
42.1 280
3
67
4
33.6 225
3
54
4
81.4 505
3
130
2
42.1 280
3
67
2
33.6 225
3
54
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
81.4 505
3
130
6
42.1 280
3
67
6
33.6 225
3
54
6
81.4 505
3
130
4
42.1 280
3
67
4
33.6 225
3
54
4
81.4 505
3
130
2
42.1 280
3
67
2
33.6 225
3
54
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
CRANKCASE
HYDRONIC
HEATER
PUMP
CB
Total Total
Volts
HP Qty.
Watts Amps
(Qty.)
2
230
540 2.35 10
1
2
380
480 1.26 10
1
2
460
540 1.17 10
1
2
230
600 2.61 10
1
2
380
480 1.26 10
1
2
460
600 1.30 10
1
3
230
660 2.87 15
1
3
380
660 1.74 15
1
3
460
660 1.43 15
1
3
230
720 3.13 15
1
3
380
720 1.89 15
1
3
460
720 1.57 15
1
3
230
780 3.39 15
1
3
380
720 1.89 15
1
3
460
780 1.70 15
1
3
230
840 3.65 15
1
3
380
720 1.89 15
1
3
460
840 1.83 15
1
3
230
900 3.91 15
1
3
380
720 1.89 15
1
3
460
900 1.96 15
1
4
230 1020 4.43 20
1
4
380
960 2.53 20
1
4
460 1020 2.22 20
1
4
230 1080 4.70 20
1
4
380
960 2.53 20
1
4
460 1080 2.35 20
1
4
230 1140 4.96 20
1
4
380
960 2.53 20
1
4
460 1140 2.48 20
1
4
230 1200 5.22 20
1
4
380
960 2.53 20
1
4
460 1200 2.61 20
1
4
4
4
4
4
4
6
6
6
6
6
6
6
6
6
6
6
6
6
6
6
8
8
8
8
8
8
8
8
8
8
8
8
Qty.
FLA
(each)
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
5.0
3.0
3.2
Total
kW
6.00
6.00
7.60
6.00
6.00
7.60
9.00
9.00
11.40
9.00
9.00
11.40
9.00
9.00
11.40
9.00
9.00
11.40
9.00
9.00
11.40
12.00
12.00
15.20
12.00
12.00
15.20
12.00
12.00
15.20
12.00
12.00
15.20
20
12
12.8
20
12
12.8
30
18
19.2
30
18
19.2
30
18
19.2
30
18
19.2
30
18
19.2
40
24
25.6
40
24
25.6
40
24
25.6
40
24
25.6
FCA
CONDENSER FAN MOTORS
- Rated Load Amps
- Locked Rotor Amps
- Circuit Breaker
- Must Trip Amps
- Full Load Amps
- Total Fan Circuit Amps
- Horse Power
RLA
LRA
CB
MTA
FLA
FCA
HP
MOCP - Maximum Over Current Protection
- Minimum Circuit Ampacity per NEC 430-24
7. The ±10% voltage variation from the nominal is allowed for a short time only, not permanent.
6. Neutral line required on 380V-3Ph-60Hz power supply only.
5. Minimum and maximum unit supply voltages are shown in the tabulated data above (see also note # 7).
4. All field wiring must be in accordance with NEC and local standards.
3. The compressor crankcase heaters must be energized for 12 hours before the unit is initially started or after a prolonged power disconnection.
2. The maximum incoming wire size is 500 mcm. On units having MCA greater than the ampacity of 500 mcm wire, the factory supplied power
terminal block will accept two parallel field wires per phase.
1. Main power must be supplied from a single field supplied and mounted fused disconnects, using dual element time delay fuse or circuit breaker.
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
253
418
506
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
187
342
414
MCA MOCP Qty.
COMPRESSOR TYPE-2
MCA
Max.
Min.
COMPRESSOR TYPE-1
NOTES:
Nominal
(V-Ph-Hz)
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
208/230-3-60
380-3-60
460-3-60
SUPPLY VOLTAGE
LEGEND:
ALY190A
ALY180A
ALY170A
ALY160A
ALY140A
ALY130A
ALY120A
ALY110A
ALY100A
ALY090A
ALY080A
UNIT
SIZE
ELECTRICAL DATA (With hydronic kit option)
200
WATER SIDE PRESSURE DROP
1
2 3
4
5
6 89
7 11 12
20
8 9 10
7
6
5
4
1
2
3
PRESSURE DROP (FT. OF WATER)
30
40
50
60 70 80 90 100
13
10
20
10
30
40
50
60
70
80
90 100
200
300
400
500
600 700 800 900 1000 1200
1500
FLOW RATE - GPM
MODEL No. CURVE No. Minimum GPM Maximum GPM
ALY010A
ALY015A
ALY020A
ALY025A
ALY030A
ALY035A
ALY040A
ALY045A
ALY055A
ALY065A
ALY070A
1
1
2
2
3
4
5
5
6
7
7
17.2
26.1
35.8
48.0
55.2
65.9
79.1
90.9
111.5
122.9
131.6
MODEL No. CURVE No. Minimum GPM Maximum GPM
28.6
42.1
56.9
75.3
86.9
101.9
116.7
128.0
167.3
189.8
207.8
ALY080A
ALY090A
ALY100A
ALY110A
ALY120A
ALY130A
ALY140A
ALY160A
ALY170A
ALY180A
ALY190A
8
9
9
9
7
10
10
11
11
12
13
158.3
185.5
186.5
198.0
224.9
247.5
271.6
306.1
326.3
348.4
367.2
CONVERSION FACTOR: GPM = 0.063 Liters per second.
Feet of water = 2.989 Kilo Pascal (kpa).
NOTE: If an application requires certain water flow rate outside these limits, please check with your nearest dealer/sales office.
26
231.7
260.6
278.4
298.8
326.0
361.7
384.2
444.4
465.0
499.3
516.3
DIMENSIONS
227
171
1700
100
1243
ALY010A
338
339
1523
227
171
1825
100
1243
ALY015A
338
339
1523
NOTE: ALL DIMENSIONS ARE IN MILLIMETERS, UNLESS OTHERWISE SPECIFIED.
27
DIMENSIONS
ALY020A & ALY025A
100
TOP VIEW
246
590
2075
790
390
1600
A
185
2286
ALY030A, ALY035A, ALY040A & ALY045A
275
TOP VIEW
D
590
C
790
390
1600
A
2286
NOTE: ALL DIMENSIONS ARE IN MILLIMETERS, UNLESS OTHERWISE SPECIFIED.
28
B
DIMENSIONS
ALY055A, ALY065A, ALY070A, ALY080A & ALY090A
275
TOP VIEW
D
355
C
2230
A
B
2600
275
ALY100A, ALY110A, ALY120A, ALY130A & ALY140A
D
C
600
A
2230
3900
NOTE: ALL DIMENSIONS ARE IN MILLIMETERS, UNLESS OTHERWISE SPECIFIED.
29
B
DIMENSIONS
275
ALY160A, ALY170A, ALY180A & ALY190A
2325
C
1000
2230
A
5208
NOTE: ALL DIMENSIONS ARE IN MILLIMETERS, UNLESS OTHERWISE SPECIFIED.
30
B
TYPICAL SCHEMATIC WIRING DIAGRAM
(1 Compressor & 1 fan)
COMPRESSOR LAYOUT
REFER TO UNIT
NAMEPLATE FOR
POWER SUPPLY
CONTROL BOX
cooler
COMP 1
FAN LAYOUT
CONTROL BOX
FAN1
NOTE: 1. Refer to next page for legend, notes & wiring diagram for optional items.
2. Refer to unit control box (inside panel) for exact wiring diagram.
31
TYPICAL SCHEMATIC WIRING DIAGRAM
(1 Compressor & 1 fan)
LEGEND
B1/B2
C1/C2
CB
COMP
CC
CCA
CWP
D1/ID..
ETB
FLS
FM
FMC
F
G/GO
HPS
HVTB
MB
NO1/1O
S1
SB
SSPS
ANALOG INPUT
COMMON
CIRCUIT BREAKER
COMPRESSOR
COMPRESSOR CONTACTOR
COMPRESSOR CONTACTOR AUXILIARY
CHILLED WATER PUMP
DIGITAL INPUT 1
EARTH TERMINAL BLOCK
FLOW SWITCH
FAN MOTOR
FAN MOTOR CONTACTOR
FUSE
POWER INPUT
HIGH PRESSURE SWITCH
HIGH VOLTAGE TERMINAL BLOCK
MASTER BOARD
DIGITAL OUT 1
CONTROL SWITCH
SLAVE BOARD
SOLID STATE PROTECTION SYSTEM
SH
TK
tLAN
TRANS
UVM
SHIELD
CONDENSER FAN THERMAL CONTACT
LOCAL NETWORK PORT
TRANSFORMER
UNDER VOLTAGE MONITOR
TERMINAL BLOCK
FIELD WIRING
FIELD SUPPLY
---
*
NOTES
1. POWER SUPPLY, REFER TO UNIT NAMEPLATE.
2. FUSES TO BE DUAL ELEMENT TYPE.
3. USE COPPER CONDUCTORS ONLY.
4. ALL FIELD WIRING TO COMPLY WITH LOCAL CODES.
5. FUSED DISCONNECT SWITCH OR CIRCUIT
BREAKER TO BE PROVIDED BY END USER WITH
RATING AS RECOMMENDED BY MANUFACTURER.
6. POWER MUST BE SUPPLIED TO CRANKCASE
HEATER FOR MINIMUM OF 12 HOURS PRIOR TO
SYSTEM START UP.
IF POWER IS OFF 6 HOURS OR MORE, CRANKCASE
HEATER MUST BE ON FOR 12 HOURS BEFORE
OPERATING THE SYSTEM.
FAILURE TO FOLLOW THESE INSTRUCTIONS MAY
RESULT IN COMPRESSOR DAMAGE.
7. IF SSPS IS NOT AVAILABLE, A JUMPER SHOULD BE
USED TO CONNECT DIRECTLY TO NEXT TERMINAL
AND SSPS SUPPLY SHOULD BE REMOVED & NOT
NECESSARY TO CONNECT FROM ATB1B TO ATB2.
8. REFER TO INSTALLATION MANUAL FOR THE MAIN
FIELD WIRING CONNECTION.
9. JUMPER 20 MUST BE INSTALLED ONLY IF THE
OPTIONAL 3 POSITION SWITCH IS NOT INSTALLED
OR REQUIRED IN THE UNIT.
10. NEUTRAL LINE REQUIRED ON 380V-3Ph-60Hz
POWER SUPPLY ONLY.
32
TYPICAL SCHEMATIC WIRING DIAGRAM
REFER TO UNIT
NAMEPLATE FOR
POWER SUPPLY
(2 Tandem compressors & 4 fans)
FMC1
FMC2
FMC3
MB
THERMAL1
FMC4
RELAY M-1
HPS1
THERMAL2
THERMAL3
RELAY M-2
HPS2
THERMAL4
RELAY M-3
RELAY M-4
RELAY M-5
LWT
RELAY M-6
RWT
RELAY M-7
SEE PUMP SAFETY
CONNECTION (OPTIONAL)
FLS
RELAY M-8
10
CWP *
FLOW SWITCH
RELAY M-9
EXEN (RUN/STOP)
EEV DRIVER 1
EEVB2
230VAC
230 VAC POWER IN
EEV DRIVER 2
SEE PUMP CONTACTOR COIL
CONNECTION (OPTIONAL)
RELAY M-10
EEVB1
230VAC
GND DIRECT TO MTG PLATE
FAN LAYOUT
CONTROL BOX
FAN1
FAN3
FAN2
FAN4
NOTE: 1. Refer to next page for legend, notes & wiring diagram for optional items.
2. Refer to unit control box (inside panel) for exact wiring diagram.
33
TYPICAL SCHEMATIC WIRING DIAGRAM
(2 Tandem compressors & 4 fans)
LEGEND
EEVB1
5A
2A
EEVB1
62A
AR1A-2A
GND
SUPRESSOR
GND DIRECT TO MTG PLATE
63A
TRANS2
1
2
GND
SUPRESSOR
GND DIRECT TO MTG PLATE
EEVB2
5B
RELAY M-10
2B
EEVB2
62B
AR2A-2A
63B
B1/B2
C1/C2
CB
COMP
CC
CCA
CWP
D1/ID..
ETB
FLS
FM
FMC
F
G/GO
HPS
HVTB
MB
NO1/1O
S1
SB
SSPS
ANALOG INPUT
COMMON
CIRCUIT BREAKER
COMPRESSOR
COMPRESSOR CONTACTOR
COMPRESSOR CONTACTOR AUXILIARY
CHILLED WATER PUMP
DIGITAL INPUT 1
EARTH TERMINAL BLOCK
FLOW SWITCH
FAN MOTOR
FAN MOTOR CONTACTOR
FUSE
POWER INPUT
HIGH PRESSURE SWITCH
HIGH VOLTAGE TERMINAL BLOCK
MASTER BOARD
DIGITAL OUT 1
CONTROL SWITCH
SLAVE BOARD
SOLID STATE PROTECTION SYSTEM
SH
TK
tLAN
TRANS
UVM
SHIELD
CONDENSER FAN THERMAL CONTACT
LOCAL NETWORK PORT
TRANSFORMER
UNDER VOLTAGE MONITOR
TERMINAL BLOCK
FIELD WIRING
FIELD SUPPLY
---
*
NOTES
1. POWER SUPPLY, REFER TO UNIT NAMEPLATE.
2. FUSES TO BE DUAL ELEMENT TYPE.
3. USE COPPER CONDUCTORS ONLY.
4. ALL FIELD WIRING TO COMPLY WITH LOCAL CODES.
5. FUSED DISCONNECT SWITCH OR CIRCUIT
BREAKER TO BE PROVIDED BY END USER WITH
RATING AS RECOMMENDED BY MANUFACTURER.
6. POWER MUST BE SUPPLIED TO CRANKCASE
HEATER FOR MINIMUM OF 12 HOURS PRIOR TO
SYSTEM START UP.
IF POWER IS OFF 6 HOURS OR MORE, CRANKCASE
HEATER MUST BE ON FOR 12 HOURS BEFORE
OPERATING THE SYSTEM.
FAILURE TO FOLLOW THESE INSTRUCTIONS MAY
RESULT IN COMPRESSOR DAMAGE.
7. IF SSPS IS NOT AVAILABLE, A JUMPER SHOULD BE
USED TO CONNECT DIRECTLY TO NEXT TERMINAL
AND SSPS SUPPLY SHOULD BE REMOVED & NOT
NECESSARY TO CONNECT FROM ATB1B TO ATB2.
8. REFER TO INSTALLATION MANUAL FOR THE MAIN
FIELD WIRING CONNECTION.
9. JUMPER 20 MUST BE INSTALLED ONLY IF THE
OPTIONAL 3 POSITION SWITCH IS NOT INSTALLED
OR REQUIRED IN THE UNIT.
10. NEUTRAL LINE REQUIRED ON 380V-3Ph-60Hz
POWER SUPPLY ONLY.
34
MICROPROCESSOR CONTROLLER
CONTROLLER SEQUENCE OF OPERATION
For initial start-up, the following condition must be met:
All power supplied to the unit shall be continuously energized for 12 hours.
·
·
·
·
All safety conditions are satisfied.
Chilled water pump is running normal and chilled water flow switch contact is closed.
Customer control or remote ON/OFF is switch to run mode, if any.
Staging ON and OFF sequence is accomplished based on controlled water temperature. The controller works to maintain
the required demand as constant as possible.
Below sequence of operation belongs to chiller unit with 2 scroll compressors. For 4, 6 & 8 scroll compressors chiller unit
the operation will be the same. Only that the capacity changes depend on the quantity of the compressor. For single scroll
compressor unit the capacity change to 100%.
COMPRESSOR STAGE - ON SEQUENCE
If the water temperature is above the temperature set point: The compressor with less running hours will start, and the
unit is now at the 50% capacity. After such interval of time, and if the water temperature is still high compared to the
temperature set point, the second compressor will start. The unit now is at 100% capacity.
COMPRESSOR STAGE - OFF SEQUENCE
Assume that the 2 compressors are running (capacity is at 100%). After such interval of time, if the water temperature is
decreases or below the temperature set point the compressor with more running hours will off. Now the unit is at 50%
capacity. After such interval of time, if water temperature still below the set point temperature, then second compressor
will off.
FAN - ON/OFF
The fan will switch ON & OFF together with the compressor ON and OFF operation respectively.
35
APPLICATION GUIDELINES
INTRODUCTION
These guidelines should be considered when designing systems and their installation utilizing Zamil ALY series liquid
chillers. Stable operation, performance and reliability of units is often dependent upon proper compliance with these
recommendations. When any application varies from these guidelines, it should be referred with Zamil Air Conditioners
for specific recommendations.
UNIT SELECTION/SIZING
Unit selection procedure and capacities are provided in this catalog for proper selection. The Zamil electronic selection
program may also be utilized for this purpose.
Over sizing chillers beyond a maximum limit of 5 – 10 % in order to assure adequate capacity or considering future
expansions is not recommended. Over sizing adversely affects the operating efficiency due to erratic system operation
and excessive compressor cycling which also results in reduced compressor life. It should be noted that, units operate
more efficiently when fully loaded rather than larger equipment operating at partial capacities. In addition, an oversized
unit is usually more costly to purchase, install and operate.
FOULING FACTOR AND WATER REQUIREMENT
The tabulated performance data provided in this catalog are based on a fouling factor of 0.00010 hr-ft2-0F/Btu (0.000018 m2-0C/W).
As fouling factor is increased, unit capacity decreases and power input increases. For unit selection at other fouling
factors, apply appropriate correction factor from the table provided in this catalog.
These chillers are suitable for operation with well maintained water systems. Using unclean and untreated water may
result in scale and deposit formation causing reduced cooler efficiency or heat transfer and corrosion or pitting leading to
possible equipment damage.
EFFECT OF ALTITUDE ON UNIT CAPACITY
The tabulated performance data provided in this catalog are for use at or near sea level altitude application. At altitudes
substantially above sea level, the decreased air density will reduce condenser capacity and therefore unit capacity. For unit
selection at these higher altitudes, apply appropriate correction factor from the table provided in this catalog.
HIGH AMBIENT CONSIDERATION
These chillers are designed for year round operation over a range of ambient temperatures. As a standard, these chillers
can start and operate satisfactorily up to 1220F (500C) ambient temperature at rated nominal voltage.
WATER FLOW RATES AND COOLER PRESSURE DROP
The maximum and minimum water flow rates for all unit models and the pressure drop chart are provided in this catalog.
The design water flow rate must be within this range. Design flow rates below the minimum limits will result in laminar
flow causing freeze-up problems, stratification and poor control and flow rates beyond the maximum limits cause excessive pressure drop and severe tube erosion.
During unit operation, water flow rate must not vary more than ± 5% from the design flow rate. The water flow switch should be
calibrated accordingly.
COOLER FLUID (WATER OR GLYCOL) TEMPERATURES RANGE
Unit can start and pull down from 950F (350C) entering fluid temperature. The design leaving chilled fluid temperature
(LCWT) range as mentioned earlier in the tabulated performance data is 40 to 500F. The design entering chilled fluid
temperature range is 50 to 600F. The design cooler temperature drop (∆T) range is 5 to 150F.
The tabulated performance data provided in this catalog is based on a chilled water temperature drop of 100F. Units may
be operated at any desired temperature drop within the range of 5 to 150F as long as the temperature and flow limits are
not violated and appropriate correction factors are applied on the capacity and power input. The Zamil electronic selection program can be very handy in selecting equipment at different temperature drops.
It should be noted that temperature drop outside the aforesaid range is not permitted as it is beyond the optimum range of control
and could adversely affect the functioning of microprocessor controller and may also prove to be detrimental for the equipment.
36
COOLER FREEZE PROTECTION
If the unit is located in an area where ambient temperatures fall below 320F (00C), cooler protection in the form of Ethylene
Glycol Solution is required to protect the cooler and fluid piping from low ambient freeze-up. This glycol solution must be
added to the water system loop to bring down the freezing point of water to a difference of 150F (8.30C) below minimum
operating ambient temperature.
Using this glycol solution causes a variation in unit performance, flow rate and pressure drop, therefore appropriate
correction factors from the aforementioned table in this catalog should be applied.
MULTIPLE CHILLER ARRANGEMENT OR PLANT CONFIGURATION
A multiple chiller system has two or more chillers connected by parallel or series piping to a common distribution system.
Multiple chiller arrangements offer the advantage of operational flexibility, standby capacity and less disruptive maintenance. Also, they offer some standby capacity if repair work must be done on a chiller from a set of duty chillers. Starting
in-rush current is reduced, as well as power costs at partial-load conditions.
A multiple chiller arrangement should be provided if the system load is greater than a single chiller capacity, standby
capability is desired, large temperature drop (greater than 150F) is desired or application calls for splitting the total
capacity for better part load operation.
In designing a multiple chiller plant, units of same size should be preferred over different sizes to facilitate balanced water
flow. It is mandatory that cooler flow rates must be balanced to ensure proper flow to each chiller based on its respective
capacity. As mentioned above, two basic multiple chiller systems are used: parallel and series chilled water flow.
Zamil recommends the parallel arrangement for design temperature drops (∆T) up to 150F and the series arrangement
beyond that i.e., 16 to 200F. Complete design details on these parallel and series chilled water flow arrangements can be
found in the ASHRAE handbooks and other design literature which should be referred by the designer in preparing his
detailed designs.
PIPING ARRANGEMENTS AND PLANT LAYOUT
Our chillers are suitable for incorporating in ‘Two Pipe’ single temperature systems or ‘Four Pipe’ independent load
systems. The system piping circuit (load distribution circuit) should be basically parallel piping either Direct Return or
Reverse Return system with a good pumping arrangement.
The method of circuiting and pumping is a judgment decision by the designer. The designer must weigh the pros and
cons of cost, nature of load and configuration of building, energy economics, flexibility, installation requirements and
others to determine the best arrangement for his project. In all cases, it must be ensured that the design water flow is
constantly maintained through the chillers at all stages of operation.
UNIT LOCATION AND INSTALLATION
These chillers are designed for outdoor installation and can be installed at ground level or on a suitable rooftop location.
In order to achieve good operation, performance and trouble-free service, it is essential that the proposed installation
location and subsequent installing procedures meet the following requirements:
• The most important consideration while deciding upon the location of air cooled chillers is the provision for supply of
adequate ambient air to the condenser and removal of heated discharge air from the condenser. This is accomplished
by maintaining sufficient clearances which have been specified in this Catalog around the units and avoiding obstructions in the condenser air discharge area to prevent the possibility of warm air circulation. Further, the condenser fans
are propeller type and are not recommended for use with ductwork or other hindrances in the condenser air stream.
Where these requirements are not complied, the supply or discharge airflow restrictions or warm air recirculation will
cause higher condensing temperatures resulting in poor unit operation, higher power consumption and possible eventual failure of equipment.
37
• The unit’s longitudinal axis should be parallel to the prevailing wind direction in order to ensure a balanced air flow
through the condenser coils. Consideration should also be given to the possibility of down-drafts caused by adjacent
buildings, which may cause recirculation or uneven unit airflow. For locations where significant cross winds are expected, an enclosure of solid or louver type is recommended to prevent wind turbulence interfering with the unit airflow.
When units are installed in an enclosure, the enclosure height should not exceed the height of the unit.
• The location should be selected for minimum sun exposure and away from hot air sources, steam, exhaust vents and
sources of airborne chemicals that could attack the condenser coils and steel parts of the unit. Avoid locations where
the sound output and air discharge from the units may be objectionable.
• If the location is an area which is accessible to unauthorized persons, steps must be taken to prevent access to the unit
by means of a protective fence. This will help to prevent the possibility of vandalism, accidental damage or possible
harm caused by unauthorized removal of panels or protective guards exposing rotating or high voltage components.
• The unit must be installed on a ONE-PIECE, FLAT and LEVELLED {within 1/2'' (13 mm) over its length and width} /
CONCRETE BASE that extends fully to support the unit. The carrying or supporting structure should be capable of
handling complete operating weight of the unit as given in the Physical Data tables in this Catalog.
• For ground level installations, it must be ensured that the concrete base is stable and does not settle or dislocate upon
installation of the unit which can strain the refrigerant lines resulting in leaks and may also cause compressor oil return
problems. It is recommended that the concrete slab is provided with appropriate footings. The slab should not be
connected to the main building foundation to avoid noise and vibration transmission.
• For rooftop installations, choose a place with adequate structural strength to safely support the entire operating weight
of the unit. The unit shall be mounted on a concrete slab similar to ground installations. The roof must be reinforced for
supporting the individual point loads at the mounting isolator locations. It must be checked and ensured that the
concrete base is perfectly horizontal and levelled, especially if the roof has been pitched to aid in water removal. It
should be determined prior to installation if any special treatment is required to assure a levelled installation else it
could lead to the above mentioned problems.
• Vibration isolators are necessary for installing these chillers in order to minimize the transmission of vibrations. The
two types of vibration isolators generally utilized for mounting these units are Neoprene Pads and Spring Isolators.
Neoprene Pads are recommended for ground level normal installations jobs where vibration isolation is not critical and
job costs must be kept to a minimum. Spring Isolators are recommended for ground level installations which are noisesensitive areas or exposed to wind loads and all roof top installations. For critical installations (extremely noise and
vibration sensitive areas), follow the recommendations of structural and acoustical consultants.
• Based on the specific project requirements, choose the type of vibration isolators best suited for the application.
Carefully select the vibration isolators’ models / configuration based on the respective point loads and place each
mount in its correct position following the Load Distribution Data and Mounting Drawings provided in this Catalog.
Refer to the Schematic Mounting Layout drawings provided in the IOM manual of these chillers for further details in this
regard.
COOLER PIPING CONNECTIONS
The following pertinent guidelines are served to ensure satisfactory operation of the units. Failure to follow these recommendations may cause improper operation and loss of performance, damage to the unit and difficulty in servicing and
maintenance:
• Water piping must be connected correctly to the unit i.e., water must enter from the inlet connection on the cooler and
leave from the outlet connection.
• A flow switch must be installed in the field piping at the outlet of the cooler (in horizontal piping) and wired back to the
unit control panel using shielded cable. There should be a straight run of piping of at least five pipe diameters on either
side of the flow switch. Paddle type flow switches can be obtained from Zamil which are supplied as optional items.
• The chilled water pump(s) installed in the piping system should discharge directly into the unit cooler. The pump(s)
may be controlled external to the unit - but an interlock must be wired to the unit control panel (as shown in the wiring
diagram) so that the unit can start only upon proof of pump operation.
38
• Flexible connections suitably selected for the fluid and pressure involved should be provided as mandatory in order to
minimize transmission of vibrations to the piping / building as some movement of the unit can be expected during
normal operation. The piping and fittings must be separately supported to prevent any loading on the cooler.
• The cooler must be protected by a strainer, preferably of 20 mesh, fitted as close as possible to the liquid inlet connection, and provided with a means of local isolation.
• Thermometer and pressure gauge connections should be provided on the inlet and outlet connections of each cooler.
Pressure gauges are recommended to check the water pressure before and after the cooler and to determine if any
variations occur in the cooler and system. When installing pressure taps to measure the amount of pressure drop
across the water side of the cooler, the taps should be located in the water piping a minimum of 24 inches downstream
from any connection (flange etc.) but as near to the cooler as possible.
• Drain and air vent connections should be provided at all low and high points in the piping system to permit complete
drainage of the cooler and piping as well as to vent any air in the pipes. Hand shut-off valves are recommended for use
in all lines to facilitate servicing.
• The system water piping must be flushed thoroughly before connecting to the unit cooler. The cooler must not be
exposed to flushing velocities or debris released during flushing. It is recommended that a suitably sized bypass and
valve arrangement is installed to allow flushing of the piping system. The bypass can be used during maintenance to
isolate the cooler without disrupting flow to other units.
• The following is a suggested piping arrangement at the chiller for single unit installations. For multiple chiller installations, each unit should be piped as shown:
OUT
IN
Isolating Valve - Normally Open
Pressure tapping
Isolating Valve - Normally Closed
Flow Switch
Balancing Valve
Connection (flanged / Victaulic)
Flow meter
Pipe work
Strainer
Flexible connection
39
CHILLED FLUID VOLUME REQUIREMENT
The volume of water in a piping system loop is critical to the smooth and proper operation of a chilled water system. If
sufficient volume of water is not there in the system, the temperature control can be lost resulting in erratic system
operation and excessive compressor cycling. Therefore, to prevent this effect of a ‘Short Water Loop’ ensure that total
volume of water in the piping system loop equals or exceeds 3 Gallons per Nominal Ton of cooling capacity for standard
air conditioning applications and 6 Gallons per Nominal Ton of cooling capacity for process cooling jobs where accuracy
is vital and applications requiring operation at very low ambient temperatures and low loading conditions.
For example, chiller model ALY080 operating with a design water flow rate of 180 GPM for a standard air conditioning
application would require 80 (Nom. Cap.) x 3 = 240 Gallons of water in the piping system loop.
To achieve the aforementioned water volume requirements, it may be necessary to install a tank in the piping system loop
to increase the volume of water in the system and therefore, reduce the rate of change of return water temperature. This
tank should be provided on the return water side to the chiller and the tank should be baffled to ensure that there is no
stratification and the entering stream thoroughly mixes with the tank water. See recommended tank design schematics
below:
TANK SCHEMATIC
40
RIGGING INSTRUCTIONS
ATTENTION TO RIGGERS
Hook rigging sling thru holes on the lifting plates, as shown below.
Lifting plates or holes in base rail are centered around the unit center of gravity.
Center of gravity is not unit center line.
Ensure center of gravity aligns with the main lifting point before lifting.
Use spreader bar when rigging, to prevent the slings from damaging the unit.
CAUTION
All panels should be in place when rigging.
Care must be taken to avoid damage to the coils during handling.
Insert packing material between coils & slings as necessary.
MODELS: ALY010A - ALY015A
MODELS: ALY020A - ALY045A
MODELS: ALY055A - ALY090A
MODELS: ALY100A - ALY140A
MODELS: ALY160A - ALY190A
LIFT
41
INSTALLATION CLEARANCE
1500
1500
WALL
2000
1500
FIGURE - 1
STRAIGHT WALL
1500
FIGURE - 2
CORNER WALL
NOTE: 1. All dimensions are in mm.
2. Pit installations are not recommended. Re-circulation of hot condenser air in combination with surface air
turbulence can not be predicted, hot air re-circulation will severely affect unit efficiency (EER) and can cause
high pressure or fan motor temperature trips.
42
MOUNTING LOCATION
MODELS: ALY010A - ALY015A
MODELS: ALY020A - ALY045A
MODELS: ALY055A - ALY090A
MODELS: ALY100A - ALY140A
MODELS: ALY160A - ALY190A
NOTE: All dimensions are in mm. Tolerance: ±2mm.
43
LOAD DISTRIBUTION (kg.), ALUMINUM CONDENSER COIL
(Without hydronic kit option)
MODEL No.
ALY010A
ALY015A
ALY020A
ALY025A
ALY030A
ALY035A
ALY040A
ALY045A
ALY055A
ALY065A
ALY070A
ALY080A
ALY090A
ALY100A
ALY110A
ALY120A
ALY130A
ALY140A
ALY160A
ALY170A
ALY180A
ALY190A
R1
111
121
240
254
261
359
398
409
517
597
675
723
784
642
694
731
753
774
741
708
801
818
R2
128
147
235
249
256
355
378
389
510
591
669
718
784
628
680
718
740
761
692
660
761
779
R3
111
121
189
199
203
232
272
274
401
422
441
471
513
611
663
701
724
745
692
659
763
781
R4
128
147
183
194
198
229
252
254
394
416
435
465
513
447
460
485
495
503
666
633
735
752
R5
433
445
471
482
490
497
455
539
547
R6
416
429
455
465
474
449
407
499
508
R7
-
R8
-
448
406
502
510
423
381
473
481
LOAD DISTRIBUTION (kg.), COPPER CONDENSER COIL (Without hydronic kit option)
MODEL No.
ALY010A
ALY015A
ALY020A
ALY025A
ALY030A
ALY035A
ALY040A
ALY045A
ALY055A
ALY065A
ALY070A
ALY080A
ALY090A
ALY100A
ALY110A
ALY120A
ALY130A
ALY140A
ALY160A
ALY170A
ALY180A
ALY190A
R1
143
167
256
278
277
383
431
442
549
638
724
796
870
686
743
799
830
859
806
744
879
903
R2
138
162
251
273
272
380
430
441
542
632
718
790
869
671
729
785
817
846
752
690
831
855
R3
117
137
204
223
219
257
305
307
433
462
490
543
599
655
712
769
800
830
763
701
851
875
R4
112
132
199
218
214
253
304
306
426
456
484
537
598
491
509
552
571
588
731
669
813
837
R1
R2
R1
R2
R3
R3
R4
R4
R5
R6
44
R5
476
494
539
558
575
563
491
618
632
R6
459
478
522
542
559
508
437
569
584
R7
-
R8
-
519
448
589
604
488
416
552
566
R1
R2
R3
R4
R5
R6
R7
R8
LOAD DISTRIBUTION (kg.), ALUMINUM CONDENSER COIL
(With hydronic kit option)
MODEL No.
ALY010A
ALY015A
ALY020A
ALY025A
ALY030A
ALY035A
ALY040A
ALY045A
ALY055A
ALY065A
ALY070A
ALY080A
ALY090A
ALY100A
ALY110A
ALY120A
ALY130A
ALY140A
ALY160A
ALY170A
ALY180A
ALY190A
R1
137
147
270
284
297
389
428
439
564
639
710
758
819
660
712
749
771
792
759
726
819
836
R2
154
173
265
279
292
385
408
419
558
633
704
753
819
646
698
736
758
779
710
678
779
797
R3
215
225
309
319
329
352
392
394
551
566
579
609
651
629
681
719
742
763
710
677
781
799
R4
232
251
303
314
324
349
372
374
545
560
573
603
651
576
589
614
624
632
684
651
753
770
R5
543
555
581
592
600
632
590
674
682
R6
490
503
529
539
548
557
515
607
616
R7
-
R8
-
516
474
570
578
491
449
541
549
LOAD DISTRIBUTION (kg.), COPPER CONDENSER COIL (With hydronic kit option)
MODEL No.
ALY010A
ALY015A
ALY020A
ALY025A
ALY030A
ALY035A
ALY040A
ALY045A
ALY055A
ALY065A
ALY070A
ALY080A
ALY090A
ALY100A
ALY110A
ALY120A
ALY130A
ALY140A
ALY160A
ALY170A
ALY180A
ALY190A
R1
168
192
286
308
322
413
461
472
613
688
759
831
905
704
761
817
848
877
824
762
897
921
R2
163
187
281
303
317
410
460
471
607
682
753
825
904
689
747
803
835
864
770
708
849
873
R3
220
240
324
343
353
377
425
427
600
615
628
681
737
673
730
787
818
848
781
719
869
893
R4
215
235
319
338
349
373
424
426
594
609
622
675
736
620
638
681
700
717
749
687
831
855
R1
R2
R1
R2
R3
R3
R4
R4
R5
R6
45
R5
586
604
649
668
685
698
626
753
767
R6
533
552
596
616
633
616
545
677
692
R7
-
R8
-
587
516
657
672
556
484
620
634
R1
R2
R3
R4
R5
R6
R7
R8
PL-AP-ALY-11-2M-E