Catalog
Horizontal Water
Cooled Package
Models: MWH 011
MWH 012
MWH 015
MWH 020
MWH 025
MWH 030
MWH 040
MWH 050
MWH 060
MWH 070
B/BR
B/BR
B/BR
B/BR
B/BR
B/BR
B/BR
B/BR
B/BR
B/BR
MWH-B-2008
Table of Contents
Nomenclature........................................................................................................................1
- Product Line-Up
Features................................................................................................................................4
Application Information......................................................................................................... 5
- Operating Range
- Refrigerant Circuit Diagrams
- Controllers
- Precaution And Installation
Sound Data..........................................................................................................................19
Selection Process................................................................................................................25
- Fan Performance Chart
Engineering & Physical Data.............................................................................................. 30
- Specifications
Performance Data................................................................................................................48
- Performance Table
Dimensional Data.................................................................................................................68
Electrical Data......................................................................................................................71
Wiring Diagrams..................................................................................................................75
Servicing & Maintenance....................................................................................................87
Troubleshooting...................................................................................................................88
Exploded View & Part List....................................................................................................90
This manual supercedes MWH-B-2007
Note : Installation and maintenance are to be performed only by qualified personnel who are
familiar with local codes and regulations, and experienced with this type of equipment.
Caution : Sharp edges and coil surfaces are a potential injury hazard. Avoid contact with them.
Warning : Moving machinery and electrical power hazard. May cause severe personnel
injury or death. Disconnect and lock off power before servicing equipment.
“McQuay” is a registered trademark of McQuay International. All rights reserved.
© 2008 McQuay International. All rights reserved throughout the world.
Bulletin illustrations cover the general appearance of McQuay International products at the time of publication.
We reserve the right to change design and construction specifications at any time without notice.
Nomenclature
Production spec variation
Type of ref. connection
X:WaterConnection
Electrical
F:380-415V/3Ph/50Hz
M
WH
020
B
R
-
F
X
AA
Model Type
R:Heatpump
Omittedifcoolingonly
Series
B:Bseries
Capacity
20:20,000Btu/h
Model Name
WH: HorizontalWater
SourcePackage
Brand
M:McQuay
Product Line-up
HorizontalWaterSourcePackage(R22)
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Compressor
With Heater
Left Hand Side
Right Hand Side
Piping
Compressor
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Rotary
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Control
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
W/out Cap. Tube
APW04A (LCD)
APM01CB
SLM15A
X
X
Cap. Tube
025B
X
X
X
X
X
X
X
X
X
Fin
020B
X
X
Hydrophilic (Corr.)
015B
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Marking
Cooling Model
012B
FXAA
FXAB
FXAC
FXAA
FXAB
FXAC
FXAD
FXLA
FXLB
FXLC
FXLD
FXAA
FXAB
FXAC
FXAD
FXLA
FXLB
FXLC
FXLD
FXAA
FXAB
FXAC
FXAD
FXLA
FXLB
FXLC
FXLD
FXAA
FXAB
FXAC
FXAD
FXLA
FXLB
FXLC
FXLD
W/out Marking
011B
APM02D
WH
NOMENCLATURE
Control
Handset
CLASSIFICATION
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
2PL164D2AA02
2PL164D2AA02
2PL164D2AA02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2PS192DAD02
2PS192DAD02
2PS192DAD02
2PS192DAD02
2PS192DAD02
2PS192DAD02
2PS192DAD02
2PS192DAD02
HorizontalWaterSourcePackage(R22)
X
X
X
X
X
Piping
Compressor
Control
Refrigerant
Fin
Marking
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
With Heater
X
X
X
X
X
X
X
X
Left Hand Side
Right Hand Side
X
X
W/out Cap. Tube
SLM15A
APM01CB
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
Rotary
025BR
FXAA
FXAB
FXAC
FXLA
FXLC
FXAA
FXAB
FXAC
FXLA
FXLC
FXAA
FXAB
FXAC
FXLA
FXLC
FXAA
FXAB
FXAC
FXLA
FXLC
Cap. Tube
020BR
X
X
Hydrophilic (Corr.)
015BR
X
X
X
W/out Marking
Heat Pump Model
012BR
FXAA
FXAB
FXAC
Compressor
APW04A (LCD)
011BR
APM02D
WH
NOMENCLATURE
Control
Handset
CLASSIFICATION
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
2PL164D2AA02
2PL164D2AA02
2PL164D2AA02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2PS164D2AH02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS224D5BE02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2KS282D5CA02
2PS192DAD02
2PS192DAD02
2PS192DAD02
2PS192DAD02
2PS192DAD02
Features
High Energy Efficiency Rating
The McQuay MWH series of water source heat pumps have energy efficiency ratings as high as 16 and provide
better energy consumption than that of most conventional air-cooled systems.
Packaged Unit. Compact. Low Height Profile
The McQuay MWH series of horizontal water source heat pumps is a packaged unit consisting of compressor
(2 off in MWH025 and above), coil, tube in tube heat exchanger, expansion device and forward curved
centrifugal blower. All units in this series have a very low profile, from 250mm for the MWH011B/BR, which has
a horizontal compressor, to the largest unit in the range at 500mm.
No Separate Outdoor Unit
The packaged design concept eliminates the need for a separate outdoor unit. Also, the tube in tube heat
exchangers in the MWH range do not need a fan to transfer heat load, resulting in a much quieter environment
for building occupants.
Double Isolation Panel, Less Vibration
Unlike other conventional designs, the MWH series of water source heat pumps apply a double insulation
concept, where the compressor is mounted on an extra upper panel. Vibration generated by the compressor
is absorbed twice to the rubber grommets, before it reaches the unit casing.
Extremely Quiet Design
No outdoor fan, double isolation panel for compressor, superior insulation and use of twin rotary compressors
in models above MWH025B/BR all add up to a quieter design. Particularly in night set back mode.
Application Flexibility
The McQuay MWH B/BR series has a wide range of operational temperatures. This means the entering water
temperatures can be adjusted from 13°C – 45°C for cooling and 10°C – 32°C for heating.
Safety Protection Devices
Several safety protection devices are integrated into the MWH B/BR range of heat pumps to monitor their
operation as well as provide necessary protection for all standard operational functions.
Partial Loading Capability
For MWH025B/BR to MWH070B/BR, which are having two compressors in their system, the capacity
loading of compressors are able to controlled at 50% or 100%.
Sequencing Control
For the MWH025B/BR to MWH070B/BR, the compressors are able to operate in sequencing mode. This
will allow both compressors to cut in and out according to their accumulative run times. This dramatically
improves the compressor life and reliability.
Application Information
Operating Range
Ensuretheoperatingtemperatureisinallowablerange.
Cooling
Water Entering Temp. (°C)
Water Entering Temp. (°C)
Heating
32
20
STD
15
40
30
STD
13
152027
151924
Indoor Temp. (°C DB)
Indoor Temp. (°C WB)
DeltaT(LeavingWaterTemperature-EnteringWaterTemperature)isonlyavailablefor5°C.
Refrigerant Circuit Diagrams
MWH 011/012/015/020 B
MWH 025 B
MWH 030/040/050 B
SCHEMATIC DIAGRAM
LP1
LP1
WATEROUTLET
FANMOTOR
COIL
CHENCK
JOINT
CHENCK
JOINT
SEPARATOR
CHENCK
JOINT
CHENCK
JOINT
TUBEIN
TUBE2
TUBEIN
TUBE1
SEPARATOR
COMPRESSOR2
COMPRESSOR1
WATERINLET
COOLINGCAP.TUBE
STRAINER
STRAINER
COOLINGCAP.TUBE
STRAINER
STRAINER
COOLINGOPERATION
MWH 060/070 B
SCHEMATIC DIAGRAM
WATEROUTLET
HP2
HP1
FANMOTOR
COIL
CHENCK
JOINT
LP1
CHENCK
JOINT
LP2
CHENCK
JOINT
TUBEIN
TUBE2
TUBEIN
TUBE1
CHENCK
JOINT
COMPRESSOR2
COMPRESSOR1
COOLINGCAP.TUBE
STRAINER
STRAINER
COOLINGCAP.TUBE
STRAINER
STRAINER
COOLINGOPERATION
WATERINLET
MWH 011/012/015/020 BR
SCHEMATIC DIAGRAM
MWH 025 BR
SCHEMATIC DIAGRAM
MWH 030/040/050 BR
SCHEMATIC DIAGRAM
WATEROUTLET
FANMOTOR
LP1
LP1
4WV1 CHENCK
JOINT
CHENCK
JOINT
COIL
4WV2
SEPARATOR
CHENCK
JOINT
SEPARATOR
CHENCK
JOINT
TUBEIN
TUBE2
TUBEIN
TUBE1
SEPARATOR
COMPRESSOR2
COMPRESSOR1
WATERINLET
COOLINGCAP.TUBE HEATINGCAP.TUBE
CHECKVALVE
STRAINER
STRAINER
CHECKVALVE
HEATINGCAP.TUBE
COOLINGCAP.TUBE
STRAINER CHECKVALVE
STRAINER
CHECKVALVE
COOLINGOPERATION
HEATINGOPERATION
MWH 060/070 BR
SCHEMATIC DIAGRAM
WATEROUTLET
4WV1
FANMOTOR
COIL
4WV2
SEPARATOR
CHENCK
JOINT
SEPARATOR
LP1
LP2
CHENCK
JOINT
COOLINGCAP.TUBE
COMPRESSOR2
CHECKVALVE
HEATINGCAP.TUBE
STRAINER
CHECKVALVE
COOLINGCAP.TUBE
STRAINER
TUBEIN
TUBE2
CHENCK
JOINT
COMPRESSOR1
STRAINER
CHENCK
JOINT
TUBEIN
TUBE1
HEATINGCAP.TUBE
CHECKVALVE
CHECKVALVE
COOLINGOPERATION
HEATINGOPERATION
STRAINER
WATERINLET
Controllers
APW04A
1. ON/OFF
Press to toggle the air conditioner unit between on and off status.
2. Power up default setting
Temperature : 25°C, Mode : Cool, Fan speed : High
3. Mode setting
Press MODE key will advance the mode in following sequence
Cool ---Dry---Fan---Heat---Auto
4. Fan speed
Press FAN key will advance the fan speed in following sequence
Auto---Low---Medium---High
Under fan mode, auto fan speed selection is inhibited. Under dry mode, fan speed is automatically
controlled, fan speed selection is inhibited.
5. Temperature setting
Press
or
to increase or decrease the set temperature by 1°C with the range of 16°C to 30°C.
6. Real Time setting
Real time can be set through the operation panel.
Press CLOCK key, the set clock will be displayed on the LCD, press the HOUR, MIN and DAY
to the real time. The time is 00:00 when power source is on, it will disappear when power source is off.
7. Timer setting
Press TIMER key, the week timer and timer on flash on the LCD, press HOUR, MIN and DAY to
set the time when the air conditioner is required to be tunrned on.
Press TIMER key again, the week timer and timer on flash on the LCD, press HOUR, MIN and
DAY to set the time when the air conditioner is required to be tunrned off.
8. Sleep mode
Sleep function will automatically adjust the set temperature to provide more comfortable setting
and energy saving during sleep. Press SLEEP key to toggle sleep function, it is available in
cool, heat and auto mode.
9. When the unit has fault, the controller will give alarm through sound and light for 2 seconds and
the RUN LED flashes slowly and error code is displayed.
10
SLM15A
Heat Pump
1. "ON/OFF" button : Press to toggle the air conditioner unit between on and off status.
2. "MODE" button : Press to select operating mode, the operating modes are Cooling / Dry / Fan / Heating / Auto.
3. "FAN" button : Press to select fan speed in the following order, high - medium - low - auto.
4. "SLEEP" button : Press to select sleep mode. Press once to change in between Sleep Mode Activated or
Sleep Mode Deactivated.
5.
or
button : Press to increase or decrease the set temperature by 1°C with the range of 16°C to 30°C.
6. "TIMER" button : Press to activate the timer function. When the unit is on, timer is set to off the unit or
vise versa. Timer operating limit is 1 to 24 hours.
11
Controller Error Code
Model: MWH 011/012/015/020 B/BR
Error code
E1
E2
E3
E4
E5
E6
E7
E8
E9
EA
Eb
Ec
Description
Water level switch error
Compressor low pressure protection
Compressor high pressure protection
Return air sensor missing or damaged
Indoor coil sensor missing or damaged
Water outlet sensor missing or damaged
Suction sensor missing or damaged
Gas leak
Coil temperature exceed 68°C
Pump fault or water level fault
Temperature of water entering too high or low
Suction temperature too low
Model: MWH 025 B/BR
Error code
E1
E2
E3
E4
E5
E6
E7
E8
EA
Eb
Ec
EE
F0
F1
F2
F3
F4
F5
F6
F7
F8
F9
FA
Fb
Fd
FE
FF
Description
Water flow switch error
Compressor 1 low pressure
Compressor 1 high pressure
Return air sensor missing or damaged
Indoor coil 1 sensor missing or damaged
Water outlet 1 sensor missing or damaged
Suction temperature 1 missing or damaged
Compressor 1 gas leak
Water pump error
Temperature of water 1 entering too high or low
Suction temperature too low
Communication error
Water outlet 2 sensor missing or damaged
Suction temperature 2 missing or damaged
Compressor 2 low pressure
Compressor 2 high pressure
Compressor 2 gas leak
Compressor 1 indoor coil frosting
Compressor 2 indoor coil frosting
Compressor 1 overload
Compressor 2 overload
Water level switch error
Fan motor overload
Electric heater overload
Temperature of water 2 entering too high or low
Ambient sensor missing or damaged
Indoor coil 2 sensor missing or damaged
12
Controller Error Code
Model: MWH 030/040/050/060/070 B/BR
Error code
E0
E1
E2
E3
E4
E6
E7
Eb
Ec
Ed
EE
Ef
F0
F1
F2
F3
F4
F5
F6
F7
F8
F9
FA
Fb
Fd
FE
Description
Indoor coil 1 sensor missing or damaged
Indoor coil 2 sensor missing or damaged
Return air sensor missing or damaged
Water outlet 1 sensor missing or damaged
Water outlet 2 sensor missing or damaged
Suction 1 sensor missing or damaged
Suction 2 sensor missing or damaged
Compressor 1 gas leak
Compressor 2 gas leak
Compressor 1 indoor coil frosting
Network communication port error
Compressor 2 indoor coil frosting
Water flow failure input contact
Compressor 2 low pressure failure input contact
Compressor 2 high pressure failure input contact
Water flow failure input contact
Compressor 2 overload failure input contact
Compressor 1 overload failure input contact
Fan overload failure input contact
Water pump overload failure input contact
Compressor 1 high pressure failure input contact
Compressor 1 low pressure failure input contact
Electric heater overload failure input contact
Entering water temperature 1 failure
Entering water temperature 2 failure
Suction temperature too low
13
Precaution & Installation
Safety Precautions Before Installation
Before installing the air conditioner unit, please read the following safety precautions carefully.
WARNING
• Installation and maintenance should be performed by qualified persons who are familiar with local
code and regulation, and experienced with this type of appliance.
• All field wiring must be installed in accordance with the national wiring regulation.
• Ensure that the rated voltage of the unit corresponds to that of the name plate before commencing
wiring work
• According to the wiring diagram.
• The unit must be GROUNDED to prevent possible hazard due to insulation failure.
• All electrical wiring must not touch the refrigerant piping, compressor and any moving parts of the
fan motors.
• Confirm that the unit has been switched OFF before installing or servicing the unit.
Before installing the air conditioner unit, please read the following safety precautions carefully.
CAUTION
Please take note of the following important points when installing
• Do not install the unit where leakage of flammable gas may occur
If gas leaks and accumulates around the unit, it may cause fire ignition.
• Confirm drainage piping is connected properly
If the drainage piping is not connected perfectly, it may cause water leakage which will
dampen the furniture.
• Do not overcharge the unit
This unit is factory pre-charged. Over charge will cause over current or damage to the
compressor.
• Ensure that the unit panel is closed after service or installation.
Unsecured panel will cause unit to operate noisily.
14
Installation
Location & Mounting
•This unit is designed for indoor installation only and for air supply ducted application. It is not recommended for non-ducted return air units to be installed at location where noise is critical.
•There should be sufficient working space for piping connection, service and maintenance.
•Allow sufficient space for filter removal for cleaning.
•The unit has a sloping drain panel for water drainage.
•This unit is suspended on the ceiling by the support of four mounting rods. Always use hanger bracket supplied.
•Make sure the mounting rods are able to withstand the unit weight and properly anchored to the ceiling.
•Use isolator rubbers for better noise and vibration control.
•It is recommended the unit be mounted with spring mounting kit supplied as an optional item. The system will be able to minimize the vibration and noise transmission to other area.
SUPPLY DUCT FLANCE
ELECTRICAL BOX
DRAIN PIPE
ACCESS PANEL
ACCESS PANEL
WATER PIPING CONNECTION
MOUNTING BRACKET
SLOPING DRAIN PANEL
RETURN AIR
AIR FILTER (SLOT LEFT - RIGHT)
RETURN DUCT FLANCE
STANDARD MOUNTING
SPRING MOUNTING
THREADED ROD
RUBBER ISOLATOR
WASHER
NUT
15
Supply & Return Duct
• Used good acoustic lined ducts.
• It is recommended that return air ducts are installed where noise is critical.
• Make sure a flexible duct is installed before connecting to other rigid duct system.
• Insulate the duct sufficiently with a good thermal heat insulation to prevent water condensation.
• Make sure all ducts are connected firmly to prevent air leakage. If any air leak occurs, the air flow rate will be reduced and performance of the unit will be affected as well.
Water Piping Connection
• It is a must to install 40 – 60 mesh water strainer to ensure water quality is good.
• Use water flexible hoses (optional items) for easy piping connection to the unit.
• The piping need to be cleaned and flushed prior to operation.
• In the event of water condensation on the piping, insulate the piping sufficiently.
• Air vents must be installed at the highest position to eliminate air bubble while a drainage system at the lowest position of the water circuit for water system flushing.
• Installation of water flow switch, pressure differential switch or other components which can protect the unit from operating when loss of water flow occurs is recommended.
• There is a ¼” service port each at water inlet and outlet for connection to differential pressure switch if required.
BALANCING VALVE
BALL VALVE
WATER OUT
FLEXIBLE HOSE
WATER IN
WATER STRAINER
BALL VALVE
RUBBER BUSH
ENSURE WATER VALVE ADAPTERS ARE ALIGNED TO THE
CENTRE WITHOUT TOUCHING (min 2mm) THE RUBBER BUSH
WHEN MAKING PIPING CONNECTION.
Condensate Drain Connection
• Condensate drainage is to drain the condensate water out of the unit which to protect the unit from over-flowing.
• Make sure there is no blockage along the drain pipe connection.
• Pour water on the drain panel to check for water flowing out of the unit and there should be no water leaking.
16
Cleaning Systems Flushing
1. Prior to first operation of any conditioner, the water circulating system must be cleaned and flushed of all
construction dirt and debris.
If the conditioners are equipped with water shut off valves, either electric or pressure operated, the supply
and return run outs must be connected together at each conditioner location. This will prevent the
introduction of dirt into the unit.
2. Fill the system at the city water makeup connection with all air vents open. After filling, close all air vents.
The contractor should start main circulator with the pressure reducing valve open. Check vents in
sequence to bleed off any trapped air, ensuring circulation through all components of the system.
Power to the heat rejecter unit should be off, and the supplementary heat control set at 27ºC.
While circulating water, the contractor should check and repair any leaks in the piping. Drain at the lowest
point(s) in the system should be opened for initial flush and blow down, making sure city water fill valves
are set to make up water at the same rate. Check the pressure gauge at pump suction and manually
adjust the makeup to hold the same positive steady pressure both before and after opening the drain
valves. Flush should continue for at least two hours, or longer if required, to see clear, clean drain water.
3. Shut off supplemental heater and circulator pump and open all drains and vents to completely drain down
the system. Short circuited supply and return run outs should now be connected to the conditioner supply
and return connections. Do not use sealers at the swivel flare connections of hoses.
4. Trisodium phosphate was formerly recommended as a cleaning agent during flushing. However, many
states and localities ban the introduction of phosphates into their sewage systems. The current
recommendation is to simply flush longer with warm 27ºC water.
5. Refill the system with clean water. Test the water using litmus paper for acidity, and treat as required to
leave the water slightly alkaline (PH 7.5 to 8.5). The specified percentage of antifreeze may also be
added at this time. Use commercial grade antifreeze designed for HVAC systems only. Do not use
automotive grade antifreeze.
Once the system has been filled with clean water and antifreeze (if used), precautions should be taken to
protect the system from dirty water conditions. Dirty water will result in system wide degradation of
performance and solids may clog valves, strainers, flow regulators, etc. Additionally, the heat exchanger
may become clogged which reduces compressor service life or causes premature failure. A System
Saver® from McQuay International should be employed to continuously remove solids as the system
operates. Contact your local representative for further information on this device.
6. Set the loop water controller heat add set point to 21ºC and the heat rejection set point to 29ºC and
supply power to all motors and start the circulating pumps. After full flow has been established through al l
components including the heat rejecter (regardless of season) and air vented and loop temperatures
stabilized, each of the conditioners will be ready for check, test and start-up, air balancing, and water
balancing.
17
Startup
Open all valves to full open position and turn on power to the conditioner
.
1. Set mode to “Cool”. Set the cooling temperature to the coolest position. Again, many conditioners have
time delays which protect the compressor(s) against short cycling. After a few minutes of operation,
check the discharge grilles for cool air delivery. Measure the temperature difference between entering
and leaving water. It should be approximately 1 1/3 times greater than the heating mode temperature
difference. For example, if the cooling temperature difference is 6ºC, the heating temperature difference
should have been 5ºC.
Without automatic flow control valves, target a cooling temperature difference of 5ºC to 8ºC. Adjust the
combination shut off/balancing valve in the return line to a water flow rate which will result in the 5ºC to
8ºC difference.
2. Set mode to “Heat”. Set the heat setting to the warmest selection. Some conditioners have built-in time
delays which prevent the compressor from immediately starting. With most control schemes, the fan will
start immediately. After a few minutes of compressor operation, check for warm air delivery at discharge
grille. If this is a “cold building” start-up, leave unit running until return air to the unit is at least 18ºC.
Measure the temperature difference between entering and leaving air and entering and leaving water.
With entering water of 16ºC to 27ºC, leaving water should be 3.3ºC to 6.6ºC cooler, and the air
temperature rise through the machine should not exceed 19ºC. If the air temperature exceeds 19ºC, then
the water flow rate is inadequate.
3. Check the elevation and cleanliness of the condensate line. If the air is too dry for sufficient
dehumidification, slowly pour enough water into the condensate pan to ensure proper drainage.
4. If the conditioner does not operate, check the following points:
a. Is supply voltage to the machine compatible?
b. Is thermostat type appropriate?
c. Is thermostat wiring correct?
5. If the conditioner operates but stops after a brief period:
a. Is there proper airflow? Check for dirty filter, incorrect ductwork.
b. Is there proper water flow rate within temperature limits? Check water balancing; back flush unit if dirt
clogged.
6. Check for vibrating refrigerant piping, fan wheels, etc.
7. Do not lubricate the fan motor during the first year of operation as it is lubricated at the factory.
18
Sound Data
Sound Pressure Level (measured in anechoic room)
Model
MWH011B/BR
MWH012B/BR
MWH015B/BR
MWH020B/BR
MWH025B/BR
MWH030B/BR
MWH040B/BR
MWH050B/BR
MWH060B/BR
MWH070B/BR
Speed
Super High
High
Medium
Low
Super High
High
Medium
Low
Super High
High
Medium
Low
Super High
High
Medium
Low
Super High
High
Medium
Low
High
Medium
Low
High
Medium
Low
High
Medium
Low
High
Medium
Low
High
Medium
Low
125Hz
48
44
46
44
42
41
41
39
46
46
45
46
52
52
51
51
51
54
54
54
35
34
32
44
42
40
42
40
40
42
42
41
35
35
34
1/1 Octave Sound Pressure Level(dB, ref 20µPa)
250Hz
500Hz
1kHz
2kHz
4kHz
41
40
37
31
24
40
40
36
29
23
39
38
35
27
21
37
37
33
26
20
40
34
31
24
20
38
32
30
21
21
36
30
30
21
21
34
29
30
18
22
42
39
36
29
24
42
38
35
29
24
41
38
35
28
24
39
36
33
27
23
48
43
39
34
28
46
42
39
33
27
45
41
37
32
27
42
39
36
31
25
51
45
41
35
28
50
45
39
34
27
49
44
38
32
25
48
43
37
29
22
41
39
40
38
28
37
39
40
35
27
37
39
39
35
24
39
42
40
40
37
38
40
39
39
36
37
40
38
37
34
39
44
42
40
37
38
44
40
39
35
36
42
39
38
33
42
44
43
37
32
41
43
42
37
31
40
43
42
35
30
38
44
44
38
28
38
44
43
37
28
36
42
42
33
22
8kHz
14
15
13
13
17
18
17
16
24
24
24
23
23
23
22
22
22
20
18
16
19
17
16
30
28
25
30
29
27
22
21
20
19
17
14
Microphone position:
1.5m below the centre of the unit. (Tested with 2m length duct at the air discharge outlet and 1m duct at the air return inlet)
19
Overall
(dBA)
42
41
40
38
37
35
34
33
41
40
40
39
45
44
43
41
47
47
46
44
51
49
48
54
52
51
53
52
51
56
55
54
53
53
51
Noise
Criteria
36
35
34
32
30
29
29
29
35
34
34
32
38
38
36
35
40
40
39
38
39
39
38
41
40
38
41
40
39
42
41
41
43
42
41
MWH011B/BR NC CURVE
Sound pressure level (dB,reference 20 Pa)
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
NC-20
SH
H
10
0
125
M
L
250
500
1000
2000
4000
8000
Octave-band frequency (Hz)
Sound pressure level (dB,reference 20 Pa)
MWH012B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
NC-20
SH
H
10
M
L
0
125
250
500
1000
2000
Octave-band frequency (Hz)
20
4000
8000
Sound pressure level (dB,reference 20 Pa)
MWH015B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
SH
NC-20
H
10
M
L
0
125
250
500
1000
2000
4000
8000
Octave-band frequency (Hz)
Sound pressure level (dB,reference 20 Pa)
MWH020B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
SH
20
H
10
L
0
125
NC-25
NC-20
M
250
500
1000
2000
Octave-band frequency (Hz)
21
4000
8000
Sound pressure level (dB,reference 20 Pa)
MWH025B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
H
10
0
125
NC-20
SH
M
L
250
500
1000
2000
4000
8000
Octave-band frequency (Hz)
Sound pressure level (dB,reference 20 Pa)
MWH030B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
NC-20
H
10
0
125
M
L
250
500
1000
2000
Octave-band frequency (Hz)
22
4000
8000
Sound pressure level (dB,reference 20 Pa)
MWH040B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
NC-20
H
10
0
125
M
L
250
500
1000
2000
4000
8000
Octave-band frequency (Hz)
Sound pressure level (dB,reference 20 Pa)
MWH050B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
NC-20
H
10
0
125
M
L
250
500
1000
2000
Octave-band frequency (Hz)
23
4000
8000
Sound pressure level (dB,reference 20 Pa)
MWH060B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
NC-20
H
10
0
125
M
L
250
500
1000
2000
4000
8000
Octave-band frequency (Hz)
Sound pressure level (dB,reference 20 Pa)
MWH070B/BR NC CURVE
70
60
50
NC-50
NC-45
40
NC-40
NC-35
30
NC-30
NC-25
20
NC-20
H
10
M
L
0
125
250
500
1000
2000
Octave-band frequency (Hz)
24
4000
8000
Selection Process
Fan Performance Chart
FAN PERFORMANCE CURVE
MWH011B/BR
90
80
External Static Pressure (Pa)
70
60
50
Super High Speed
40
30
High Speed
20
Medium Speed
10
0
100
Low Speed
120
140
160
180
200
220
Air Flow Rate (L/s)
FAN PERFORMANCE CURVE
MWH012B/BR
90
80
External Static Pressure (Pa)
70
60
Super High Speed
30
High Speed
20
Medium Speed
10
0
100
Low Speed
120
140
160
Air Flow Rate (L/s)
25
180
200
220
FAN PERFORMANCE CURVE
MWH015B/BR
90
80
60
50
Super High Speed
40
30
High Speed
20
10
Medium Speed
Low Speed
0
100
120
140
160
180
200
220
240
260
280
300
Air Flow Rate (L/s)
FAN PERFORMANCE CURVE
MWH020B/BR
160
140
120
External Static Pressure (Pa)
External Static Pressure (Pa)
70
100
Super High Speed
80
60
High Speed
40
Medium Speed
20
Low Speed
0
150
170
190
210
230
250
270
Air Flow Rate (L/s)
26
290
310
330
350
370
FAN PERFORMANCE CURVE
MWH025B/BR
160
140
External Static Pressure (Pa)
120
Super High Speed
100
80
High Speed
60
Medium Speed
Low Speed
40
20
0
250
300
350
400
450
500
Air Flow Rate (L/s)
FAN PERFORMANCE CURVE
MWH030B/BR
250
Low Speed
200
High Speed
External Static Pressure (Pa)
Medium Speed
150
100
50
0
250
300
350
400
450
Air Flow Rate (L/s)
27
500
550
600
FAN PERFORMANCE CURVE
MWH040B/BR
350
300
External Static Pressure (Pa)
Medium Speed
250
Low Speed
High Speed
200
150
100
50
0
250
350
450
550
650
750
850
950
Air Flow Rate (L/s)
FAN PERFORMANCE CURVE
MWH050B/BR
350
300
Medium Speed
External Static Pressure (Pa)
Low Speed
High Speed
250
200
150
100
50
0
250
350
450
550
650
Air Flow Rate (L/s)
28
750
850
950
FAN PERFORMANCE CURVE
MWH060B/BR
350
High Speed
300
External Static Pressure (Pa)
Medium Speed
250
Low Speed
200
150
100
50
0
250
350
450
550
650
750
850
950
1050
Air Flow Rate (L/s)
FAN PERFORMANCE CURVE
MWH070B/BR
350
High Speed
300
External Static Pressure (Pa)
Medium Speed
250
Low Speed
200
150
100
50
0
250
350
450
550
650
750
Air Flow Rate (L/s)
29
850
950
1050
1150
1250
Engineering & Physical Data
Specifications
General Data - Cooling Only (R22)
MODEL
Btu/h
W
W
A
V/Ph/Hz
W/W
NOMINAL CAPACITY
CONDENSER
EVAPORATOR
NOMINAL TOTAL INPUT POWER
NOMINAL RUNNING CURRENT
POWER SOURCE
EER
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
PACKING DIMENSION
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
UNIT WEIGHT
PIPE CONNECTION
SIZE
TYPE
INLET
OUTLET
REFRIGERANT CHARGE
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
MWH 012B
12000
3520
775
3.5
220-240 / 1 / 50
4.30
4.54
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
180 / 380
60 (0.2)
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
UNIT DIMENSION
MWH 011B
11600
3400
790
42
37
19.1 / 3/4
0.17 / 0.60
6.70
250 / 9.8
1040 / 40.9
495 / 19.5
436 / 17.2
0.21 / 0.75
8.20
325 / 12.8
1035 / 40.7
500 / 19.7
520 / 20.5
1200 / 47.2
660 / 26.0
58 / 128
61 / 134
ADAPTOR (BSP) MALE
12.7 / 1/2
12.7 / 1/2
0.53 / 1.17
0.63 / 1.39
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 27.0°C DB / 19.0°C WB; ENTERING WATER TEMPERATURE 30.0°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 20.0°C DB; ENTERING WATER TEMPERATURE 20.0°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
MODEL
Btu/h
W
W
A
V/Ph/Hz
W/W
NOMINAL CAPACITY
CONDENSER
EVAPORATOR
NOMINAL TOTAL INPUT POWER
NOMINAL RUNNING CURRENT
POWER SOURCE
EER
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
PACKING DIMENSION
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
UNIT WEIGHT
PIPE CONNECTION
SIZE
TYPE
INLET
OUTLET
REFRIGERANT CHARGE
MWH 020B
19500
5720
1561
7.00
220-240 / 1 / 50
3.37
3.66
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
UNIT DIMENSION
MWH 015B
14400
4220
1253
5.90
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
222 / 470
60 (0.2)
41
19.1 / 3/4
0.25 / 0.90
9.80
337 / 13.3
1074 / 42.3
500 / 19.7
520 / 20.5
1200 / 47.2
688 / 27.1
68 / 150
ADAPTOR (BSP) MALE
12.7 / 1/2
12.7 / 1/2
0.75 / 1.65
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 27.0°C DB / 19.0°C WB; ENTERING WATER TEMPERATURE 30.0°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 20.0°C DB; ENTERING WATER TEMPERATURE 20.0°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
30
287 / 600
120 (0.5)
45
0.29 / 1.05
11.60
353 / 13.9
1183 / 46.6
540 / 21.3
536 / 21.1
1329 / 52.3
728 / 28.7
71 / 157
General Data - Cooling Only (R22)
MWH 025B
MODEL
Btu/h
26000
W
7620
NOMINAL TOTAL INPUT POWER
W
1894
NOMINAL RUNNING CURRENT
A
NOMINAL CAPACITY
8.9
V/Ph/Hz
POWER SOURCE
220-240 / 1 / 50
W/W
EER
4.02
REFRIGERANT TYPE
R22
EVAPORATOR
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
OUTDOOR CAP. TUBE
AIR DISCHARGE
APW04A or SLM15A
AIR FLOW
EXTERNAL STATIC PRESSURE
l/s / CFM
415 / 870
Pa (in.wg.)
129 (0.5)
SOUND PRESSURE LEVEL
dBA
CONDENSATE DRAIN SIZE
mm/in
19.1 / 3/4
l/s / m_/h
0.47 / 1.70
WATER FLOW RATE
47
kPa
WATER PRESSURE DROP
CONDENSER
DUCTED
OPERATION
22
HEIGHT
mm/in
340 / 13.4
UNIT DIMENSION
WIDTH
mm/in
1328 / 52.3
DEPTH
mm/in
540 / 21.3
HEIGHT
mm/in
526 / 20.7
WIDTH
mm/in
1484 / 58.4
DEPTH
mm/in
728 / 28.7
PACKING DIMENSION
UNIT WEIGHT
kg/lb
101 / 223
TYPE
PIPE CONNECTION
SIZE
ADAPTOR (BSP) MALE
LIQUID
mm/in
12.7 / 1/2
GAS
mm/in
12.7 / 1/2
REFRIGERANT CHARGE
kg/lb
(0.50 / 0.58) / (1.10 / 1.28)
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 27.0°C DB / 19.0°C WB; ENTERING WATER TEMPERATURE 30.0°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 20.0°C DB; ENTERING WATER TEMPERATURE 20.0°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
MWH 030B
MODEL
MWH 040B
Btu/h
29920
44870
W
8800
13200
NOMINAL TOTAL INPUT POWER
W
2485
3897
NOMINAL RUNNING CURRENT
A
11.9
NOMINAL CAPACITY
POWER SOURCE
18.6
220-240 / 1 / 50
V/Ph/Hz
EER
W/W
3.54
3.39
REFRIGERANT TYPE
R22
EVAPORATOR
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
OUTDOOR CAP. TUBE
AIR DISCHARGE
APW04A or SLM15A
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
l/s / CFM
450 / 940
Pa (in.wg.)
190 (0.8)
CONDENSATE DRAIN SIZE
WATER PRESSURE DROP
kPa
HEIGHT
UNIT DIMENSION
0.71 / 2.54
4.25
21.30
mm/in
370 / 14.6
434 / 17.1
1376 / 54.2
WIDTH
mm/in
mm/in
1297 / 51.1
745 / 29.3
HEIGHT
mm/in
521 / 20.5
585 / 23.0
WIDTH
mm/in
1356 / 53.4
1446 / 56.9
DEPTH
mm/in
778 / 30.6
833 / 32.8
kg/lb
107 / 238
146 / 322
UNIT WEIGHT
TYPE
REFRIGERANT CHARGE
0.47 / 1.70
DEPTH
PACKING DIMENSION
PIPE CONNECTION
270 (1.1)
19.1 / 3/4
mm/in
l/s / m_/h
625 / 1325
50
dBA
WATER FLOW RATE
CONDENSER
DUCTED
OPERATION
SIZE
792 / 31.2
OUTER GROOVE COPPER
LIQUID
mm/in
GAS
mm/in
kg/lb
19.1 / 3/4
19.1 / 3/4
0.7x2 / 1.55x2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 26.7°C DB / 19.4°C WB; ENTERING WATER TEMPERATURE 29.4°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 21.1°C DB; ENTERING WATER TEMPERATURE 21.1°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
31
0.8x2 / 1.77x2
General Data - Cooling Only (R22)
MODEL
Btu/h
W
W
A
V/Ph/Hz
W/W
NOMINAL CAPACITY
EVAPORATOR
NOMINAL TOTAL INPUT POWER
NOMINAL RUNNING CURRENT
POWER SOURCE
EER
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
CONDENSER
UNIT DIMENSION
PACKING DIMENSION
UNIT WEIGHT
PIPE CONNECTION
SIZE
TYPE
LIQUID
GAS
REFRIGERANT CHARGE
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
MWH 050B
49880
14600
4482
21.6
220-240 / 1 / 50
3.26
MWH 060B
63160
18500
5505
13.3
380-415 / 3 / 50
3.36
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
710 / 1470
900 / 1910
290 (1.2)
210 (0.8)
51
53
19.1 / 3/4
0.81 / 2.91
1.01 / 3.63
33.00
40.00
434 / 17.1
500 / 19.7
1376 / 54.2
1576 / 62.0
792 / 31.2
843 / 33.2
585 / 23.0
670 / 26.4
1446 / 56.9
1656 / 65.2
833 / 32.8
878 / 34.6
150 / 331
215 / 474
OUTER GROOVE COPPER
19.1 / 3/4
25.4 / 1.0
19.1 / 3/4
25.4 / 1.0
0.85x2 / 1.88x2
1.05x2 / 2.32x2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 26.7°C DB / 19.4°C WB; ENTERING WATER TEMPERATURE 29.4°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 21.1°C DB; ENTERING WATER TEMPERATURE 21.1°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
MODEL
Btu/h
W
W
A
V/Ph/Hz
W/W
NOMINAL CAPACITY
EVAPORATOR
NOMINAL TOTAL INPUT POWER
NOMINAL RUNNING CURRENT
POWER SOURCE
EER
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
CONDENSER
UNIT DIMENSION
PACKING DIMENSION
UNIT WEIGHT
PIPE CONNECTION
REFRIGERANT CHARGE
SIZE
TYPE
LIQUID
GAS
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
MWH 070B
76460
22400
6041
14.8
380-415 / 3 / 50
3.71
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
915 / 1940
270 (1.1)
53
19.05 / 3/4
1.24 / 4.45
58
500 / 19.7
1576 / 62.0
843 / 33.2
670 / 26.4
1656 / 65.2
878 / 34.6
225 / 496
OUTER GROOVE COPPER
25.4 / 1.0
25.4 / 1.0
1.2x2 / 2.65x2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 26.7°C DB / 19.4°C WB; ENTERING WATER TEMPERATURE 29.4°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 21.1°C DB; ENTERING WATER TEMPERATURE 21.1°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
32
General Data - Heat pump (R22)
MODEL
Btu/h
W
Btu/h
W
W
W
A
A
V/Ph/Hz
W/W
W/W
NOMINAL COOLING CAPACITY
NOMINAL HEATING CAPACITY
CONDENSER
EVAPORATOR
NOMINAL TOTAL INPUT POWER (COOLING)
NOMINAL TOTAL INPUT POWER (HEATING)
NOMINAL RUNNING CURRENT (COOLING)
NOMINAL RUNNING CURRENT (HEATING)
POWER SOURCE
EER
COP
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
UNIT DIMENSION
PACKING DIMENSION
UNIT WEIGHT
SIZE
TYPE
LIQUID
GAS
REFRIGERANT CHARGE
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
MWH 012BR
12000
3520
12700
3720
775
745
3.5
3.3
3.4
220-240 / 1 / 50
4.30
5.11
4.54
4.99
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
180 / 380
60 (0.2)
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
PIPE CONNECTION
MWH 011BR
11600
3400
13000
3810
790
745
42
37
19.1 / 3/4
0.17 / 0.60
6.70
250 / 9.8
1040 / 40.9
495 / 19.5
436 / 17.2
0.21 / 0.75
8.20
325 / 12.8
1035 / 40.7
500 / 19.7
520 / 20.5
1200 / 47.2
660 / 26.0
58 / 128
61 / 134
ADAPTOR (BSP) MALE
12.7 / 1/2
12.7 / 1/2
0.53 / 1.17
0.63 / 1.39
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 27.0°C DB / 19.0°C WB; ENTERING WATER TEMPERATURE 30.0°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 20.0°C DB; ENTERING WATER TEMPERATURE 20.0°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
MODEL
Btu/h
W
Btu/h
W
W
W
A
A
V/Ph/Hz
W/W
W/W
NOMINAL COOLING CAPACITY
NOMINAL HEATING CAPACITY
CONDENSER
EVAPORATOR
NOMINAL TOTAL INPUT POWER (COOLING)
NOMINAL TOTAL INPUT POWER (HEATING)
NOMINAL RUNNING CURRENT (COOLING)
NOMINAL RUNNING CURRENT (HEATING)
POWER SOURCE
EER
COP
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
UNIT DIMENSION
PACKING DIMENSION
UNIT WEIGHT
REFRIGERANT CHARGE
220-240 / 1 / 50
LIQUID
GAS
3.44
3.66
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
TYPE
SIZE
MWH020BR
19500
5720
17000
4980
1661
1361
7.5
6.2
3.37
3.76
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
PIPE CONNECTION
MWH015BR
14400
4220
14800
4340
1253
1153
5.9
5.5
mm/in
mm/in
kg/lb
222 / 470
60 (0.2)
41
19.1 / 3/4
0.25 / 0.90
9.80
337 / 13.3
1074 / 42.3
500 / 19.7
520 / 20.5
1200 / 47.2
688 / 27.1
68 / 150
ADAPTOR (BSP) MALE
12.7/ 1/2
12.7 / 1/2
0.75 / 1.65
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 27.0°C DB / 19.0°C WB; ENTERING WATER TEMPERATURE 30.0°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 20.0°C DB; ENTERING WATER TEMPERATURE 20.0°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
33
287 / 600
120 (0.5)
45
0.29 / 1.05
11.60
353 / 13.9
1183 / 46.6
540 / 21.3
536 / 21.1
1329 / 52.3
728 / 28.7
71 / 157
0.80 / 1.76
General Data - Heat pump (R22)
MWH 025BR
26000
7620
28800
8440
1894
1844
8.9
8.7
220-240 / 1 / 50
4.02
4.58
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
415 / 870
129 (0.5)
47
19.1 / 3/4
0.47 / 1.70
22
340 / 13.4
1328 / 52.3
540 / 21.3
526 / 20.7
1484 / 58.4
728 / 28.7
101 / 223
ADAPTOR (BSP) MALE
12.7/ 1/2
12.7 / 1/2
(0.50 / 0.58) / (1.10 / 1.28)
MODEL
Btu/h
W
Btu/h
W
W
W
A
A
V/Ph/Hz
W/W
W/W
NOMINAL COOLING CAPACITY
NOMINAL HEATING CAPACITY
EVAPORATOR
NOMINAL TOTAL INPUT POWER (COOLING)
NOMINAL TOTAL INPUT POWER (HEATING)
NOMINAL RUNNING CURRENT (COOLING)
NOMINAL RUNNING CURRENT (HEATING)
POWER SOURCE
EER
COP
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
CONDENSER
UNIT DIMENSION
PACKING DIMENSION
UNIT WEIGHT
PIPE CONNECTION
SIZE
TYPE
LIQUID
GAS
REFRIGERANT CHARGE
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 27.0°C DB / 19.0°C WB; ENTERING WATER TEMPERATURE 30.0°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 20.0°C DB; ENTERING WATER TEMPERATURE 20.0°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
MODEL
Btu/h
W
Btu/h
W
W
W
A
A
V/Ph/Hz
W/W
W/W
NOMINAL COOLING CAPACITY
NOMINAL HEATING CAPACITY
EVAPORATOR
NOMINAL TOTAL INPUT POWER (COOLING)
NOMINAL TOTAL INPUT POWER (HEATING)
NOMINAL RUNNING CURRENT (COOLING)
NOMINAL RUNNING CURRENT (HEATING)
POWER SOURCE
EER
COP
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
CONDENSER
UNIT DIMENSION
PACKING DIMENSION
UNIT WEIGHT
REFRIGERANT CHARGE
SIZE
TYPE
LIQUID
GAS
MWH 040BR
44870
13200
51520
15100
3897
3995
18.1
18.7
220-240 / 1 / 50
3.54
3.67
3.39
3.78
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
PIPE CONNECTION
MWH 030BR
29920
8800
31600
9300
2485
2533
11.9
12.1
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
450 / 940
190 (0.8)
50
19.1 / 3/4
0.47 / 1.70
4.25
370 / 14.6
0.71 / 2.54
21.30
434 / 17.1
1376 / 54.2
792 / 31.2
585 / 23.0
1446 / 56.9
833 / 32.8
146 / 322
1297 / 51.1
745 / 29.3
521 / 20.5
1356 / 53.4
778 / 30.6
107 / 238
OUTER GROOVE COPPER
19.1 / 3/4
19. / 3/4
0.75x2 / 1.66x2
0.85x2 / 1.88x2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 26.7°C DB / 19.4°C WB; ENTERING WATER TEMPERATURE 29.4°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 21.1°C DB; ENTERING WATER TEMPERATURE 21.1°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
34
625 / 1325
270 (1.1)
General Data - Heat pump (R22)
MODEL
Btu/h
W
Btu/h
W
W
W
A
A
V/Ph/Hz
W/W
W/W
NOMINAL COOLING CAPACITY
NOMINAL HEATING CAPACITY
NOMINAL TOTAL INPUT POWER (COOLING)
CONDENSER
EVAPORATOR
NOMINAL RUNNING CURRENT (COOLING)
NOMINAL RUNNING CURRENT (HEATING)
POWER SOURCE
EER
COP
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
UNIT DIMENSION
PACKING DIMENSION
UNIT WEIGHT
SIZE
TYPE
LIQUID
GAS
REFRIGERANT CHARGE
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
710 / 1470
290 (1.2)
51
MODEL
Btu/h
W
Btu/h
W
W
W
A
A
V/Ph/Hz
W/W
W/W
NOMINAL HEATING CAPACITY
CONDENSER
EVAPORATOR
NOMINAL TOTAL INPUT POWER (COOLING)
NOMINAL TOTAL INPUT POWER (HEATING)
NOMINAL RUNNING CURRENT (COOLING)
NOMINAL RUNNING CURRENT (HEATING)
POWER SOURCE
EER
COP
REFRIGERANT TYPE
REFRIGERANT CONTROL (EXPANSION DEVICE)
CONTROL
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
HEIGHT
WIDTH
DEPTH
HEIGHT
WIDTH
DEPTH
UNIT DIMENSION
PACKING DIMENSION
UNIT WEIGHT
PIPE CONNECTION
REFRIGERANT CHARGE
SIZE
TYPE
LIQUID
GAS
l/s / CFM
Pa (in.wg.)
dBA
mm/in
l/s / m_/h
kPa
mm/in
mm/in
mm/in
mm/in
mm/in
mm/in
kg/lb
mm/in
mm/in
kg/lb
MWH 070BR
76460
22400
76460
22400
6041
6236
14.8
15.2
380-415 / 3 / 50
3.71
3.59
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
915 / 1940
270 (1.1)
53
19.1 / 3/4
1.24 / 4.45
58
500 / 19.7
1576 / 62.0
843 / 33.2
670 / 26.4
1656 / 65.2
878 / 34.6
225 / 496
OUTER GROOVE COPPER
25.4 / 1.0
25.4 / 1.0
1.45x2 / 3.2x2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 26.7°C DB / 19.4°C WB; ENTERING WATER TEMPERATURE 29.4°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 21.1°C DB; ENTERING WATER TEMPERATURE 21.1°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
35
900 / 1910
210 (0.8)
53
19.1 / 3/4
0.81 / 2.91
1.01 / 3.63
33.00
40.00
434 / 17.1
500 / 19.7
1376 / 54.2
1576 / 62.0
792 / 31.2
843 / 33.2
585 / 23.0
670 / 26.4
1446 / 56.9
1656 / 65.2
833 / 32.8
878 / 34.6
150 / 331
215 / 474
OUTER GROOVE COPPER
19.1 / 3/4
25.4 / 1.0
19.1 / 3/4
25.4 / 1.0
1.0x2 / 2.2x2
1.45x2 / 3.2x2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) NOMINAL COOLING AND HEATING CAPACITY ARE BASED ON THE CONDITIONS BELOW :
a) COOLING - INDOOR 26.7°C DB / 19.4°C WB; ENTERING WATER TEMPERATURE 29.4°C, LEAVING WATER TEMPERATURE 35.0°C
b) HEATING - INDOOR 21.1°C DB; ENTERING WATER TEMPERATURE 21.1°C
3) EFFECTIVE POWER INPUT IS USED IN THE RATED EER/COP CALCULATION, ACCORDING TO ISO STANDARD: ISO 5151 & ISO 13253.
NOMINAL COOLING CAPACITY
MWH 060BR
63160
18500
68140
20000
5505
5846
13.4
13.9
380-415 / 3 / 50
3.36
3.42
R22
OUTDOOR CAP. TUBE
DUCTED
APW04A or SLM15A
AIR DISCHARGE
OPERATION
AIR FLOW
EXTERNAL STATIC PRESSURE
SOUND PRESSURE LEVEL
CONDENSATE DRAIN SIZE
WATER FLOW RATE
WATER PRESSURE DROP
PIPE CONNECTION
MWH 050BR
49880
14600
56500
16600
4482
4433
21.6
21.2
220-240 / 1 / 50
3.26
3.74
Components Data- Cooling Only (R22)
MWH 011B
MODEL
TYPE
MWH 012B
CENTRIFUGAL FORWARD CURVE
Q'TY
FAN BLOWER
2
MATERIAL
GALVANISED STEEL
DRIVE
DIRECT
DIAMETER
mm/in
113 / 4.45
134 / 5.28
LENGTH
mm/in
145 / 5.71
160 / 6.30
TYPE
FAN MOTOR
PERMANENT SPLIT CAPACITOR
Q'TY
2
INDEX OF PROTECTION (IP)
N/A
TYPE
COMPRESSOR
ROTARY
QUANTITY
1
OIL TYPE
ATMOS M60 OR SUNISO 4GDID
cm_ / fl.oz
OIL AMOUNT
300 / 10.56
MATERIAL
TUBE
DIAMETER
mm/in
9.52 / 3/8
THICKNESS
mm/in
0.33 / 0.013
MATERIAL
AIR COIL
FIN
ALUMINIUM
THICKNESS
mm/in
FACE AREA
m2/ft2
0.11 / 0.0043
0.1016 / 1.094
3
FIN PER INCH
14
TYPE
WASHABLE SARANET FILTER
pc
QUANTITY
FILTER
SIZE
1
LENGTH
mm/in
586 / 23.07
626 / 24.65
WIDTH
mm/in
185.5 / 7.30
725 / 28.54
THICKNESS
mm/in
N/A
N/A
MATERIAL
CASING
ELECTRO GALVANIZED STEEL
FINISHING
N/A
COLOUR
UNPAINTED
TYPE
NOMINAL WATER FLOW RATE
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
0.1509 / 1.624
3
ROW
AIR QUALITY
350 / 12.32
INNER GROOVE COPPER
TUBE IN TUBE (FINNED TUBE)
l/s / m_/h
0.17 / 0.60
kPa / psi
6.70 / 0.97
0.14 / 0.51
5.88 / 0.85
mm / in
12.7 / 1/2
WATER INLET (BSP) MALE
mm / in
12.7 / 1/2
WATER OUTLET (BSP) MALE
mm / in
12.7 / 1/2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
36
Components Data- Cooling Only (R22)
MWH 015B
MODEL
TYPE
MWH 020B
CENTRIFUGAL FORWARD CURVE
Q'TY
FAN BLOWER
2
MATERIAL
GALVANISED STEEL
DRIVE
DIRECT
DIAMETER
mm/in
134 / 5.28
200 / 7.87
LENGTH
mm/in
160 / 6.30
209 / 8.23
TYPE
FAN MOTOR
PERMANENT SPLIT CAPACITOR
Q'TY
2
INDEX OF PROTECTION (IP)
N/A
TYPE
COMPRESSOR
ROTARY
QUANTITY
1
OIL TYPE
ATMOS M60 OR SUNISO 4GDID
cm_ / fl.oz
OIL AMOUNT
410 / 14.43
TUBE
DIAMETER
mm/in
THICKNESS
mm/in
9.52 / 3/8
0.3 / 0.012
FIN
THICKNESS
mm/in
FACE AREA
m2/ft2
0.11 / 0.0043
0.1509 / 1.624
3
14
FIN PER INCH
TYPE
WASHABLE SARANET FILTER
pc
QUANTITY
SIZE
1
LENGTH
mm/in
626 / 24.65
726 / 28.58
WIDTH
mm/in
725 / 28.54
274.5 / 10.81
THICKNESS
mm/in
N/A
N/A
ELECTRO GALVANIZED STEEL
MATERIAL
CASING
N/A
FINISHING
UNPAINTED
COLOUR
TYPE
NOMINAL WATER FLOW RATE
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
0.1951 / 2.100
3
ROW
FILTER
0.33 / 0.013
ALUMINIUM
MATERIAL
AIR COIL
AIR QUALITY
430 / 15.13
INNER GROOVE COPPER
MATERIAL
TUBE IN TUBE (FINNED TUBE)
l/s / m_/h
0.25 / 0.90
kPa / psi
9.8 / 1.42
0.29 / 1.05
11.6 / 1.68
mm / in
12.7 / 1/2
WATER INLET (BSP) MALE
mm / in
12.7 / 1/2
WATER OUTLET (BSP) MALE
mm / in
12.7 / 1/2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
37
Components Data- Cooling Only (R22)
MWH 025B
MODEL
MWH 030B
CENTRIFUGAL FORWARD CURVE
TYPE
2
Q'TY
FAN BLOWER
MATERIAL
GALVANISED STEEL
DIAMETER
mm/in
LENGTH
mm/in
200 / 7.87
209 / 8.23
190 / 7.48
PERMANENT SPLIT CAPACITOR
TYPE
FAN MOTOR
2
Q'TY
N/A
INDEX OF PROTECTION (IP)
ROTARY
TYPE
COMPRESSOR
QUANTITY
2
OIL TYPE
ATMOS M60 OR SUNISO 4GDID
OIL AMOUNT
cm_ / fl.oz
350 / 12.32
TUBE
DIAMETER
mm/in
THICKNESS
mm/in
9.52 / 3/8
0.3 / 0.012
FIN
THICKNESS
mm/in
FACE AREA
m2/ft2
ROW
0.11 / 0.0043
0.1951 / 2.100
4
14
WASHABLE SARANET FILTER
TYPE
pc
1
2
LENGTH
mm/in
626 / 24.65
342 / 13.5
WIDTH
mm/in
725 / 28.54
283 / 11.1
THICKNESS
mm/in
N/A
8 / 0.315
QUANTITY
SIZE
ELECTRO GALVANIZED STEEL
MATERIAL
N/A
FINISHING
UNPAINTED
COLOUR
TUBE IN TUBE (FINNED TUBE)
TYPE
NOMINAL WATER FLOW RATE
0.21 / 2.260
3
FIN PER INCH
FILTER
0.33 / 0.013
ALUMINIUM
MATERIAL
AIR COIL
CASING
430 / 15.13
INNER GROOVE COPPER
MATERIAL
AIR QUALITY
GI
DIRECT
DRIVE
0.47 / 1.70
l/s / m_/h
kPa / psi
22 / 3.19
4.25 / 0.62
mm / in
12.7 / 1/2
19.05 / 3/4
WATER INLET (BSP) MALE
mm / in
12.7 / 1/2
19.05 / 3/4
WATER OUTLET (BSP) MALE
mm / in
12.7 / 1/2
19.05 / 3/4
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
38
Components Data- Cooling Only (R22)
MWH 040B
MODEL
TYPE
FAN BLOWER
Q'TY
2
MATERIAL
GI
DIRECT
DRIVE
DIAMETER
mm/in
254 / 10
LENGTH
mm/in
203.2 / 8
PERMANENT SPLIT CAPACITOR
TYPE
FAN MOTOR
2
Q'TY
N/A
INDEX OF PROTECTION (IP)
ROTARY
TYPE
COMPRESSOR
QUANTITY
2
OIL TYPE
DIAMOND MS-56
cm_ / fl.oz
OIL AMOUNT
520 / 18.30
MATERIAL
TUBE
INNER GROOVE COPPER
DIAMETER
mm/in
9.52 / 3/8
THICKNESS
mm/in
0.33 / 0.013
MATERIAL
AIR COIL
FIN
ALUMINIUM
THICKNESS
mm/in
0.11 / 0.0043
FACE AREA
m2/ft2
0.32 / 3.444
ROW
4
11
FIN PER INCH
pc
3
LENGTH
mm/in
284 / 11.2
WIDTH
mm/in
354 / 13.9
THICKNESS
mm/in
QUANTITY
FILTER
SIZE
8 / 0.315
ELETCRO GALVANIZED STEEL
MATERIAL
CASING
14
WASHABLE SARANET FILTER
TYPE
AIR QUALITY
MWH 050B
CENTRIFUGAL FORWARD CURVE
FINISHING
N/A
UNPAINTED
COLOUR
TUBE IN TUBE (FINNED TUBE)
TYPE
NOMINAL WATER FLOW RATE
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
l/s / m_/h
0.71 / 2.54
kPa / psi
21.3 / 3.09
0.81 / 2.91
33 / 4.79
mm / in
19.05 / 3/4
WATER INLET (BSP) MALE
mm / in
19.05 / 3/4
WATER OUTLET (BSP) MALE
mm / in
19.05 / 3/4
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
39
Components Data- Cooling Only (R22)
MWH 060B
MODEL
TYPE
FAN BLOWER
Q'TY
2
MATERIAL
GI
DRIVE
DIRECT
DIAMETER
mm/in
LENGTH
mm/in
TYPE
FAN MOTOR
228.6 / 9
177.8 / 7
PERMANENT SPLIT CAPACITOR
Q'TY
2
INDEX OF PROTECTION (IP)
N/A
TYPE
COMPRESSOR
SCROLL
QUANTITY
2
OIL TYPE
N/A
cm_ / fl.oz
OIL AMOUNT
N/A
MATERIAL
TUBE
INNER GROOVE COPPER
DIAMETER
mm/in
9.52 / 3/8
THICKNESS
mm/in
0.33 / 0.013
MATERIAL
AIR COIL
FIN
ALUMINIUM
THICKNESS
mm/in
0.11 / 0.0043
FACE AREA
m2/ft2
0.4 / 4.306
ROW
4
FIN PER INCH
14
TYPE
WASHABLE SARANET FILTER
pc
2
LENGTH
mm/in
440 / 17.3
WIDTH
mm/in
417 / 16.4
THICKNESS
mm/in
QUANTITY
AIR QUALITY
FILTER
SIZE
MATERIAL
CASING
MWH 070B
CENTRIFUGAL FORWARD CURVE
8 / 0.315
ELECTRO GALVANIZED STEEL
FINISHING
N/A
COLOUR
UNPAINTED
TYPE
NOMINAL WATER FLOW RATE
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
TUBE IN TUBE (FINNED TUBE)
l/s / m_/h
1.01 / 3.63
kPa / psi
40 / 5.80
1.24 / 4.45
58 / 8.4
mm / in
25.4 / 1.0
WATER INLET (BSP) MALE
mm / in
25.4 / 1.0
WATER OUTLET (BSP) MALE
mm / in
25.4 / 1.0
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
40
Components Data- Heating (R22)
MODEL
MWH 011BR
TYPE
Q'TY
FAN BLOWER
2
GALVANISED STEEL
MATERIAL
DIRECT
DRIVE
DIAMETER
mm/in
113 / 4.45
134 / 5.28
LENGTH
mm/in
145 / 5.71
160 / 6.30
TYPE
FAN MOTOR
PERMANENT SPLIT CAPACITOR
Q'TY
2
N/A
INDEX OF PROTECTION (IP)
TYPE
COMPRESSOR
ROTARY
QUANTITY
1
OIL TYPE
ATMOS M60 OR SUNISO 4GDID
OIL AMOUNT
cm_ / fl.oz
300 / 10.56
MATERIAL
TUBE
FIN
DIAMETER
mm/in
9.52 / 3/8
THICKNESS
mm/in
0.33 / 0.013
ALUMINIUM
THICKNESS
mm/in
FACE AREA
m2/ft2
ROW
0.11 / 0.0043
0.1016 / 1.094
3
14
TYPE
WASHABLE SARANET FILTER
QUANTITY
FILTER
SIZE
pc
1
LENGTH
mm/in
586 / 23.07
626 / 24.65
WIDTH
mm/in
185.5 / 7.30
725 / 28.54
THICKNESS
mm/in
N/A
N/A
MATERIAL
ELECTRO GALVANIZED STEEL
FINISHING
N/A
COLOUR
UNPAINTED
TYPE
NOMINAL WATER FLOW RATE
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
0.1509 / 1.624
3
FIN PER INCH
CASING
350 / 12.32
INNER GROOVE COPPER
MATERIAL
AIR COIL
AIR QUALITY
MWH 012BR
CENTRIFUGAL FORWARD CURVE
TUBE IN TUBE (FINNED TUBE)
l/s / m_/h
0.17 / 0.60
0.14 / 0.51
kPa / psi
6.70 / 0.97
5.88 / 0.85
mm / in
12.7 / 1/2
WATER INLET (BSP) MALE
mm / in
12.7 / 1/2
WATER OUTLET (BSP) MALE
mm / in
12.7 / 1/2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
41
Components Data- Heating (R22)
MODEL
MWH 015BR
TYPE
Q'TY
FAN BLOWER
2
MATERIAL
GALVANISED STEEL
DRIVE
DIRECT
DIAMETER
mm/in
134 / 5.28
200 / 7.87
LENGTH
mm/in
160 / 6.30
209 / 8.23
TYPE
FAN MOTOR
PERMANENT SPLIT CAPACITOR
Q'TY
2
INDEX OF PROTECTION (IP)
NA
TYPE
COMPRESSOR
ROTARY
QUANTITY
1
OIL TYPE
ATMOS M60 OR SUNISO 4GDID
OIL AMOUNT
cm_ / fl.oz
410 / 14.43
MATERIAL
TUBE
FIN
DIAMETER
mm/in
THICKNESS
mm/in
9.52 / 3/8
0.3 / 0.012
THICKNESS
mm/in
FACE AREA
m2/ft2
0.11 / 0.0043
0.1509 / 1.624
3
14
TYPE
WASHABLE SARANET FILTER
QUANTITY
SIZE
pc
1
LENGTH
mm/in
626 / 24.65
726 / 28.58
WIDTH
mm/in
725 / 28.54
274.5 / 10.81
THICKNESS
mm/in
MATERIAL
N/A
ELECTRO GALVANIZED STEEL
FINISHING
N/A
COLOUR
UNPAINTED
TYPE
NOMINAL WATER FLOW RATE
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
0.1951 / 2.100
3
FIN PER INCH
FILTER
0.33 / 0.013
ALUMINIUM
ROW
CASING
430 / 15.13
INNER GROOVE COPPER
MATERIAL
AIR COIL
AIR QUALITY
MWH 020BR
CENTRIFUGAL FORWARD CURVE
TUBE IN TUBE (FINNED TUBE)
l/s / m_/h
0.25 / 0.90
kPa / psi
9.8 / 1.42
0.29 / 1.05
11.6 / 1.68
mm / in
12.7 / 1/2
WATER INLET (BSP) MALE
mm / in
12.7 / 1/2
WATER OUTLET (BSP) MALE
mm / in
12.7 / 1/2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
42
Components Data- heatpump (R22)
MWH 025BR
MODEL
2
Q'TY
FAN BLOWER
GALVANISED STEEL
MATERIAL
DIAMETER
mm/in
LENGTH
mm/in
200 / 7.87
209 / 8.23
190 / 7.48
PERMANENT SPLIT CAPACITOR
2
Q'TY
N/A
INDEX OF PROTECTION (IP)
ROTARY
TYPE
COMPRESSOR
QUANTITY
2
OIL TYPE
ATMOS M60 OR SUNISO 4GDID
cm_ / fl.oz
OIL AMOUNT
350 / 12.32
TUBE
DIAMETER
mm/in
THICKNESS
mm/in
9.52 / 3/8
0.3 / 0.012
MATERIAL
AIR COIL
FIN
THICKNESS
mm/in
FACE AREA
m2/ft2
0.11 / 0.0043
0.1951 / 2.100
4
14
WASHABLE SARANET FILTER
TYPE
pc
1
2
LENGTH
mm/in
626 / 24.65
342 / 13.5
WIDTH
mm/in
725 / 28.54
283 / 11.1
THICKNESS
mm/in
N/A
8 / 0.315
QUANTITY
SIZE
MATERIAL
ELECTRO GALVANIZED STEEL
N/A
FINISHING
UNPAINTED
COLOUR
TUBE IN TUBE (FINNED TUBE)
TYPE
NOMINAL WATER FLOW RATE
0.21 / 2.260
3
FIN PER INCH
FILTER
0.33 / 0.013
ALUMINIUM
ROW
CASING
430 / 15.13
INNER GROOVE COPPER
MATERIAL
AIR QUALITY
GI
DIRECT
DRIVE
TYPE
FAN MOTOR
MWH 030BR
CENTRIFUGAL FORWARD CURVE
TYPE
l/s / m_/h
0.47 / 1.70
kPa / psi
22 / 3.19
4.25 / 0.62
mm / in
12.7 / 1/2
19.05 / 3/4
WATER INLET (BSP) MALE
mm / in
12.7 / 1/2
19.05 / 3/4
WATER OUTLET (BSP) MALE
mm / in
12.7 / 1/2
19.05 / 3/4
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
43
Components Data- Heatpump (R22)
MWH 040BR
MODEL
TYPE
FAN BLOWER
Q'TY
2
MATERIAL
GI
DRIVE
DIRECT
DIAMETER
mm/in
254 / 10
LENGTH
mm/in
203.2 / 8
TYPE
FAN MOTOR
PERMANENT SPLIT CAPACITOR
Q'TY
2
INDEX OF PROTECTION (IP)
N/A
TYPE
COMPRESSOR
ROTARY
QUANTITY
2
OIL TYPE
DIAMOND MS-56
cm_ / fl.oz
OIL AMOUNT
520 / 18.30
INNER GROOVE COPPER
MATERIAL
TUBE
DIAMETER
mm/in
9.52 / 3/8
THICKNESS
mm/in
0.33 / 0.013
MATERIAL
AIR COIL
FIN
ALUMINIUM
THICKNESS
mm/in
0.11 / 0.0043
FACE AREA
m2/ft2
0.32 / 3.444
ROW
4
11
FIN PER INCH
TYPE
FILTER
SIZE
pc
3
LENGTH
mm/in
284 / 11.2
WIDTH
mm/in
354 / 13.9
THICKNESS
mm/in
MATERIAL
CASING
14
WASHABLE SARANET FILTER
QUANTITY
AIR QUALITY
MWH 050BR
CENTRIFUGAL FORWARD CURVE
8 / 0.315
ELETCRO GALVANIZED STEEL
FINISHING
N/A
COLOUR
UNPAINTED
TYPE
NOMINAL WATER FLOW RATE
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
TUBE IN TUBE (FINNED TUBE)
l/s / m_/h
0.71 / 2.54
kPa / psi
21.3 / 3.09
0.81 / 2.91
33 / 4.79
mm / in
19.05 / 3/4
WATER INLET (BSP) MALE
mm / in
19.05 / 3/4
WATER OUTLET (BSP) MALE
mm / in
19.05 / 3/4
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
44
Components Data- Heatpump (R22)
MODEL
MWH 060BR
TYPE
FAN BLOWER
Q'TY
2
MATERIAL
GI
DRIVE
DIRECT
DIAMETER
mm/in
LENGTH
mm/in
TYPE
FAN MOTOR
228.6 / 9
177.8 / 7
PERMANENT SPLIT CAPACITOR
Q'TY
2
INDEX OF PROTECTION (IP)
N/A
TYPE
COMPRESSOR
SCROLL
QUANTITY
2
OIL TYPE
N/A
cm_ / fl.oz
OIL AMOUNT
N/A
MATERIAL
TUBE
INNER GROOVE COPPER
DIAMETER
mm/in
9.52 / 3/8
THICKNESS
mm/in
0.33 / 0.013
MATERIAL
AIR COIL
FIN
ALUMINIUM
THICKNESS
mm/in
0.11 / 0.0043
FACE AREA
m2/ft2
0.4 / 4.306
ROW
4
FIN PER INCH
14
WASHABLE SARANET FILTER
TYPE
pc
2
LENGTH
mm/in
440 / 17.3
WIDTH
mm/in
417 / 16.4
THICKNESS
mm/in
QUANTITY
AIR QUALITY
FILTER
SIZE
MATERIAL
CASING
MWH 070BR
CENTRIFUGAL FORWARD CURVE
8 / 0.315
ELECTRO GALVANIZED STEEL
FINISHING
N/A
COLOUR
UNPAINTED
TUBE IN TUBE (FINNED TUBE)
TYPE
NOMINAL WATER FLOW RATE
OUTDOOR (HEAT NOMINAL WATER PRESSURE DROP
EXCHANGER)
WATER PIPE SIZE
l/s / m_/h
1.01 / 3.63
kPa / psi
40 / 5.80
1.24 / 4.45
58 / 8.4
mm / in
25.4 / 1.0
WATER INLET (BSP) MALE
mm / in
25.4 / 1.0
WATER OUTLET (BSP) MALE
mm / in
25.4 / 1.0
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
45
Safety Devices- Cooling Only (R22)
MODEL
MWH 011B
TYPE
HIGH PRESSURE SWITCH
SAFETY DEVICE
OPEN
kPa / psi
2344.22 / 340
CLOSE
kPa / psi
2937.17 / 426
TYPE
LOW PRESSURE SWITCH
NO
OPEN
kPa / psi
48.26 / 7
CLOSE
kPa / psi
151.69 / 22
N/A
PHASE SEQUENCER
DISCHARGE THERMOSTAT SETTING
N/A
°C / °F
MODEL
MWH 015B
TYPE
HIGH PRESSURE SWITCH
SAFETY DEVICE
OPEN
kPa / psi
2344.22 / 340
CLOSE
kPa / psi
2937.17 / 426
NO
TYPE
LOW PRESSURE SWITCH
OPEN
kPa / psi
48.26 / 7
CLOSE
kPa / psi
151.69 / 22
N/A
DISCHARGE THERMOSTAT SETTING
N/A
°C / °F
MODEL
MWH 025B
TYPE
HIGH PRESSURE SWITCH
NC
OPEN
kPa / psi
2344.22 / 340
CLOSE
kPa / psi
2937.17 / 426
NO
TYPE
LOW PRESSURE SWITCH
2800 / 406
2400 / 348
AUTO RESET CATRIDGE
kPa / psi
48.26 / 7
50 / 7.25
CLOSE
kPa / psi
151.69 / 22
150 / 21.76
PHASE SEQUENCER
N/A
°C / °F
N/A
MWH 040B
MODEL
TYPE
HIGH PRESSURE SWITCH
OPEN
kPa / psi
CLOSE
kPa / psi
TYPE
LOW PRESSURE SWITCH
MWH 050B
AUTO RESET CATRIDGE
2800 / 406
2400 / 348
AUTO RESET CATRIDGE
OPEN
kPa / psi
50 / 7.25
CLOSE
kPa / psi
150 / 21.76
N/A
PHASE SEQUENCER
DISCHARGE THERMOSTAT SETTING
°C / °F
N/A
MWH 060B
MODEL
HIGH PRESSURE SWITCH
OPEN
kPa / psi
CLOSE
kPa / psi
TYPE
LOW PRESSURE SWITCH
MWH 070B
AUTO RESET CATRIDGE
TYPE
SAFETY DEVICE
MWH 030B
AUTO RESET CATRIDGE
OPEN
DISCHARGE THERMOSTAT SETTING
SAFETY DEVICE
MWH 020B
NC
PHASE SEQUENCER
SAFETY DEVICE
MWH 012B
NC
2800 / 406
2400 / 348
AUTO RESET CATRIDGE
OPEN
kPa / psi
50 / 7.25
CLOSE
kPa / psi
150 / 21.76
PHASE SEQUENCER
YES
DISCHARGE THERMOSTAT SETTING
°C / °F
46
N/A
Safety Devices- Heatpump (R22)
MODEL
MWH 011BR
TYPE
HIGH PRESSURE SWITCH
SAFETY DEVICE
OPEN
kPa / psi
2344.22 / 340
CLOSE
kPa / psi
2937.17 / 426
OPEN
kPa / psi
48.26 / 7
CLOSE
kPa / psi
151.69 / 22
NO
TYPE
LOW PRESSURE SWITCH
N/A
PHASE SEQUENCER
DISCHARGE THERMOSTAT SETTING
N/A
°C / °F
MODEL
MWH 015BR
HIGH PRESSURE SWITCH
OPEN
kPa / psi
2344.22 / 340
CLOSE
kPa / psi
2937.17 / 426
OPEN
kPa / psi
48.26 / 7
CLOSE
kPa / psi
151.69 / 22
TYPE
LOW PRESSURE SWITCH
NO
N/A
PHASE SEQUENCER
DISCHARGE THERMOSTAT SETTING
N/A
°C / °F
MODEL
MWH 025BR
TYPE
HIGH PRESSURE SWITCH
SAFETY DEVICE
AUTO RESET CATRIDGE
OPEN
kPa / psi
2344.22 / 340
CLOSE
kPa / psi
2937.17 / 426
TYPE
LOW PRESSURE SWITCH
2800 / 406
2400 / 348
NO
AUTO RESET CATRIDGE
OPEN
kPa / psi
48.26 / 7
50 / 7.25
CLOSE
kPa / psi
151.69 / 22
150 / 21.76
N/A
DISCHARGE THERMOSTAT SETTING
N/A
°C / °F
MODEL
MWH 040BR
TYPE
HIGH PRESSURE SWITCH
OPEN
kPa / psi
CLOSE
kPa / psi
TYPE
LOW PRESSURE SWITCH
MWH 050BR
AUTO RESET CATRIDGE
2800 / 406
2400 / 348
AUTO RESET CATRIDGE
OPEN
kPa / psi
50 / 7.25
CLOSE
kPa / psi
150 / 21.76
PHASE SEQUENCER
N/A
DISCHARGE THERMOSTAT SETTING
N/A
°C / °F
MODEL
MWH 060BR
TYPE
HIGH PRESSURE SWITCH
SAFETY DEVICE
MWH 030BR
NC
PHASE SEQUENCER
SAFETY DEVICE
MWH 020BR
NC
TYPE
SAFETY DEVICE
MWH 012BR
NC
OPEN
kPa / psi
CLOSE
kPa / psi
TYPE
LOW PRESSURE SWITCH
MWH 070BR
AUTO RESET CATRIDGE
2800 / 406
2400 / 348
AUTO RESET CATRIDGE
OPEN
kPa / psi
50 / 7.25
CLOSE
kPa / psi
150 / 21.76
PHASE SEQUENCER
YES
DISCHARGE THERMOSTAT SETTING
°C / °F
47
N/A
Performance Table
Performance Data
MWH 011B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 0.36 m3/hr
Capacity
(kW)
TC
SC
TC
SC
TC
SC
TC
SC
TC
SC
TC
SC
13
3.37
3.30
3.50
3.02
3.66
2.65
3.71
2.43
3.83
1.80
3.87
1.59
20
3.22
3.16
3.34
2.92
3.49
2.59
3.55
2.38
3.73
1.76
3.79
1.56
Entering Water Temperature, (°C)
25
30
35
3.12
3.02
2.85
3.07
2.97
2.82
3.23
3.12
2.93
2.85
2.78
2.66
3.37
3.25
3.04
2.55
2.70
2.45
3.45
3.34
3.14
2.34
2.30
2.25
3.66
3.60
3.44
1.73
1.71
1.66
3.74
3.68
3.53
1.54
1.52
1.48
40
2.68
2.67
2.75
2.55
2.83
2.39
2.94
2.19
3.28
1.62
3.39
1.43
45
2.52
2.51
2.56
2.44
2.62
2.34
2.75
2.14
3.12
1.57
3.24
1.39
Water Flow Rate = 0.60 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
3.52
3.45
3.66
3.16
3.83
2.78
3.88
2.54
4.00
1.88
4.05
1.66
20
3.37
3.31
3.49
3.05
3.65
2.71
3.72
2.49
3.90
1.84
3.97
1.63
Entering Water Temperature, (°C)
25
30
35
3.26
3.15
2.98
3.21
3.11
2.95
3.38
3.26
3.07
2.98
2.90
2.79
3.53
3.40
3.18
2.67
2.82
2.56
3.60
3.49
3.28
2.45
2.41
2.35
3.83
3.76
3.59
1.81
1.79
1.74
3.91
3.85
3.70
1.61
1.59
1.54
40
2.81
2.79
2.87
2.67
2.96
2.50
3.08
2.29
3.43
1.69
3.54
1.50
45
2.63
2.63
2.68
2.55
2.74
2.45
2.87
2.24
3.26
1.64
3.39
1.45
Water Flow Rate = 0.84 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
3.60
3.52
3.73
3.23
3.91
2.84
3.96
2.60
4.09
1.92
4.13
1.70
20
3.44
3.38
3.57
3.12
3.73
2.77
3.80
2.54
3.99
1.88
4.05
1.67
Entering Water Temperature, (°C)
25
30
35
3.33
3.22
3.04
3.28
3.17
3.01
3.45
3.33
3.13
3.04
2.97
2.85
3.60
3.47
3.25
2.73
2.88
2.62
3.68
3.57
3.35
2.50
2.46
2.40
3.91
3.84
3.67
1.85
1.83
1.78
3.99
3.93
3.78
1.65
1.63
1.58
40
2.87
2.85
2.94
2.73
3.03
2.56
3.14
2.34
3.50
1.73
3.62
1.53
45
2.69
2.69
2.74
2.61
2.80
2.50
2.93
2.29
3.33
1.68
3.46
1.48
Indoor, DB
(°C)
Indoor, WB
(°C)
15.5
17
19
27.0
20
23
24
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
48
MWH 012B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 0.45 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
3.49
3.41
3.62
3.13
3.79
2.75
3.84
2.52
3.96
1.86
4.01
1.65
20
3.34
3.27
3.46
3.02
3.62
2.68
3.68
2.46
3.86
1.82
3.93
1.62
Entering Water Temperature, (°C)
25
30
35
3.23
3.12
2.95
3.18
3.08
2.92
3.34
3.23
3.04
2.95
2.88
2.76
3.49
3.37
3.15
2.64
2.66
2.54
3.57
3.46
3.25
2.42
2.38
2.32
3.79
3.72
3.56
1.79
1.77
1.72
3.87
3.81
3.66
1.60
1.58
1.53
40
2.78
2.76
2.84
2.64
2.93
2.48
3.05
2.27
3.39
1.67
3.51
1.48
45
2.61
2.60
2.65
2.53
2.72
2.42
2.84
2.22
3.23
1.63
3.35
1.44
Water Flow Rate = 0.75 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
3.65
3.57
3.78
3.27
3.97
2.87
4.01
2.63
4.15
1.94
4.19
1.72
20
3.49
3.42
3.62
3.16
3.78
2.81
3.85
2.57
4.04
1.90
4.11
1.69
Entering Water Temperature, (°C)
25
30
35
3.38
3.27
3.09
3.32
3.22
3.05
3.50
3.37
3.17
3.08
3.01
2.88
3.65
3.52
3.29
2.76
2.78
2.65
3.73
3.61
3.40
2.53
2.49
2.43
3.97
3.89
3.72
1.88
1.85
1.80
4.05
3.99
3.83
1.67
1.65
1.60
40
2.91
2.89
2.97
2.76
3.07
2.59
3.19
2.37
3.55
1.75
3.67
1.55
45
2.73
2.72
2.77
2.64
2.84
2.53
2.97
2.32
3.37
1.70
3.51
1.50
Water Flow Rate = 1.05 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
3.73
3.65
3.87
3.34
4.05
2.94
4.10
2.69
4.23
1.99
4.28
1.76
20
3.57
3.50
3.69
3.23
3.86
2.87
3.93
2.63
4.13
1.95
4.19
1.73
Entering Water Temperature, (°C)
25
30
35
3.45
3.34
3.15
3.39
3.29
3.12
3.57
3.45
3.24
3.15
3.07
2.95
3.73
3.60
3.36
2.82
2.84
2.71
3.81
3.69
3.47
2.59
2.54
2.48
4.05
3.98
3.80
1.92
1.89
1.84
4.13
4.07
3.91
1.70
1.68
1.63
40
2.97
2.95
3.04
2.82
3.13
2.65
3.26
2.42
3.62
1.79
3.75
1.58
45
2.78
2.78
2.83
2.70
2.90
2.59
3.04
2.37
3.45
1.74
3.58
1.54
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
49
MWH 015B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 0.54 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
4.18
4.09
4.34
3.75
4.55
3.29
4.60
3.02
4.75
2.23
4.80
1.97
20
4.00
3.93
4.15
3.62
4.34
3.22
4.41
2.95
4.63
2.18
4.71
1.94
Entering Water Temperature, (°C)
25
30
35
3.87
3.74
3.54
3.81
3.69
3.50
4.01
3.87
3.64
3.54
3.45
3.31
4.19
4.04
3.78
3.17
3.11
3.04
4.28
4.14
3.90
2.90
2.86
2.79
4.55
4.46
4.26
2.15
2.12
2.06
4.64
4.57
4.39
1.91
1.89
1.83
40
3.33
3.31
3.41
3.17
3.52
2.97
3.65
2.72
4.07
2.01
4.20
1.78
45
3.12
3.12
3.18
3.03
3.26
2.90
3.41
2.66
3.87
1.95
4.02
1.72
Water Flow Rate = 0.90 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
4.37
4.28
4.54
3.92
4.76
3.45
4.81
3.16
4.97
2.33
5.02
2.06
20
4.18
4.10
4.33
3.79
4.54
3.37
4.61
3.09
4.85
2.28
4.92
2.03
Entering Water Temperature, (°C)
25
30
35
4.05
3.92
3.70
3.98
3.86
3.66
4.19
4.05
3.81
3.70
3.60
3.46
4.38
4.22
3.95
3.31
3.25
3.18
4.47
4.33
4.08
3.04
2.99
2.91
4.76
4.67
4.46
2.25
2.22
2.16
4.85
4.78
4.59
2.00
1.98
1.92
40
3.48
3.46
3.57
3.31
3.68
3.11
3.82
2.85
4.25
2.10
4.40
1.86
45
3.27
3.26
3.33
3.17
3.40
3.04
3.56
2.78
4.04
2.04
4.20
1.80
Water Flow Rate = 1.26 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
4.47
4.37
4.64
4.01
4.86
3.52
4.91
3.23
5.08
2.38
5.13
2.11
20
4.27
4.19
4.43
3.87
4.63
3.44
4.71
3.15
4.95
2.33
5.03
2.07
Entering Water Temperature, (°C)
25
30
35
4.14
4.00
3.78
4.07
3.94
3.74
4.28
4.13
3.89
3.78
3.68
3.53
4.47
4.31
4.03
3.38
3.32
3.25
4.57
4.43
4.16
3.10
3.05
2.98
4.86
4.77
4.56
2.30
2.27
2.20
4.96
4.88
4.69
2.04
2.02
1.96
40
3.56
3.54
3.64
3.38
3.76
3.17
3.90
2.91
4.34
2.14
4.49
1.90
45
3.34
3.33
3.40
3.24
3.48
3.10
3.64
2.84
4.13
2.08
4.30
1.84
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
50
MWH 020B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 0.63 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
5.67
5.55
5.88
5.08
6.17
4.47
6.23
4.09
6.44
3.02
6.51
2.67
20
5.42
5.32
5.62
4.91
5.88
4.36
5.98
4.00
6.28
2.96
6.38
2.63
Entering Water Temperature, (°C)
25
30
35
5.25
5.07
4.80
5.16
5.00
4.74
5.43
5.24
4.93
4.79
4.67
4.48
5.67
5.47
5.12
4.29
4.05
4.12
5.80
5.61
5.28
3.93
3.87
3.78
6.17
6.05
5.78
2.92
2.87
2.80
6.29
6.19
5.95
2.59
2.56
2.48
40
4.52
4.49
4.62
4.29
4.77
4.03
4.95
3.69
5.51
2.72
5.70
2.41
45
4.24
4.23
4.31
4.10
4.41
3.93
4.62
3.60
5.24
2.65
5.45
2.34
Water Flow Rate = 1.05 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
5.93
5.80
6.15
5.31
6.45
4.67
6.52
4.28
6.74
3.16
6.81
2.80
20
5.67
5.56
5.88
5.14
6.15
4.56
6.25
4.18
6.57
3.10
6.67
2.75
Entering Water Temperature, (°C)
25
30
35
5.49
5.31
5.01
5.40
5.23
4.96
5.68
5.48
5.16
5.01
4.89
4.69
5.93
5.72
5.35
4.49
4.23
4.31
6.06
5.87
5.52
4.11
4.05
3.95
6.45
6.33
6.04
3.05
3.01
2.92
6.57
6.48
6.22
2.71
2.68
2.60
40
4.72
4.69
4.83
4.49
4.98
4.21
5.18
3.86
5.76
2.84
5.96
2.52
45
4.43
4.42
4.51
4.29
4.61
4.11
4.83
3.77
5.48
2.77
5.70
2.44
Water Flow Rate = 1.47 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
6.06
5.92
6.28
5.43
6.59
4.77
6.66
4.37
6.88
3.23
6.96
2.86
20
5.79
5.68
6.00
5.25
6.28
4.66
6.39
4.27
6.71
3.16
6.82
2.81
Entering Water Temperature, (°C)
25
30
35
5.61
5.42
5.12
5.51
5.34
5.07
5.80
5.60
5.27
5.12
4.99
4.79
6.06
5.84
5.47
4.58
4.32
4.41
6.19
6.00
5.64
4.20
4.13
4.04
6.59
6.46
6.18
3.12
3.07
2.99
6.72
6.62
6.35
2.77
2.73
2.65
40
4.82
4.79
4.94
4.59
5.09
4.30
5.29
3.94
5.89
2.91
6.09
2.57
45
4.52
4.52
4.61
4.39
4.71
4.20
4.94
3.85
5.60
2.83
5.82
2.50
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
51
MWH 025B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 1.02 m3/hr
Indoor, DB
(°C)
Indoor, WB
(°C)
Capacity
(kW)
TC
SC
TC
SC
TC
SC
TC
SC
TC
SC
TC
SC
13
7.55
7.39
7.83
6.77
8.21
5.95
8.31
5.45
8.58
4.02
8.67
3.56
20
7.23
7.09
7.49
6.54
7.83
5.81
7.97
5.33
8.37
3.94
8.50
3.50
Entering Water Temperature, (°C)
25
30
35
6.99
6.76
6.39
6.87
6.66
6.32
7.24
6.99
6.57
6.38
6.22
5.97
7.56
7.29
6.82
5.72
5.90
5.49
7.72
7.48
7.04
5.24
5.16
5.03
8.21
8.06
7.70
3.89
3.83
3.72
8.38
8.25
7.92
3.46
3.41
3.31
40
6.02
5.98
6.16
5.72
6.35
5.36
6.60
4.91
7.34
3.62
7.59
3.21
45
5.64
5.63
5.74
5.47
5.88
5.24
6.15
4.80
6.98
3.52
7.26
3.11
Water Flow Rate = 1.70 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
7.90
7.73
8.19
7.08
8.59
6.22
8.68
5.70
8.97
4.21
9.07
3.73
20
7.56
7.41
7.83
6.84
8.19
6.08
8.33
5.57
8.75
4.12
8.89
3.66
Entering Water Temperature, (°C)
25
30
35
7.31
7.07
6.68
7.19
6.96
6.61
7.57
7.31
6.87
6.68
6.51
6.24
7.90
7.62
7.13
5.98
6.17
5.74
8.08
7.82
7.36
5.48
5.39
5.26
8.59
8.43
8.05
4.06
4.00
3.89
8.76
8.63
8.28
3.61
3.57
3.46
40
6.29
6.25
6.44
5.98
6.64
5.61
6.90
5.14
7.68
3.79
7.94
3.36
45
5.90
5.89
6.01
5.72
6.15
5.48
6.44
5.02
7.30
3.68
7.59
3.25
Water Flow Rate = 2.38 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
8.07
7.89
8.37
7.23
8.77
6.36
8.87
5.83
9.17
4.30
9.27
3.81
20
7.72
7.57
8.00
6.99
8.37
6.21
8.51
5.69
8.94
4.21
9.08
3.74
Entering Water Temperature, (°C)
25
30
35
7.47
7.22
6.82
7.34
7.11
6.75
7.73
7.46
7.02
6.82
6.65
6.38
8.08
7.78
7.28
6.11
6.31
5.87
8.25
7.99
7.52
5.60
5.51
5.38
8.77
8.61
8.23
4.15
4.09
3.98
8.95
8.82
8.46
3.69
3.64
3.54
40
6.43
6.38
6.58
6.11
6.78
5.73
7.05
5.25
7.84
3.87
8.11
3.43
45
6.03
6.02
6.14
5.84
6.28
5.60
6.58
5.13
7.46
3.76
7.76
3.32
15.5
17
19
27.0
20
23
24
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
52
MWH 030B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 1.02 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
8.69
8.50
9.02
7.79
9.45
6.85
9.56
6.28
9.88
4.63
9.98
4.10
20
8.32
8.16
8.62
7.53
9.01
6.69
9.17
6.13
9.63
4.54
9.78
4.03
Entering Water Temperature, (°C)
25
30
35
8.05
7.78
7.35
7.91
7.66
7.27
8.33
8.04
7.56
7.35
7.16
6.87
8.70
8.39
7.85
6.58
6.79
6.32
8.89
8.61
8.10
6.03
5.93
5.79
9.45
9.28
8.86
4.47
4.41
4.29
9.64
9.50
9.12
3.98
3.93
3.81
40
6.92
6.88
7.09
6.58
7.31
6.17
7.59
5.66
8.45
4.17
8.74
3.69
45
6.49
6.48
6.61
6.29
6.77
6.03
7.08
5.52
8.04
4.06
8.36
3.58
Water Flow Rate = 1.70 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
9.09
8.89
9.43
8.15
9.88
7.16
10.00
6.56
10.33
4.84
10.44
4.29
20
8.70
8.53
9.01
7.88
9.43
6.99
9.59
6.41
10.07
4.75
10.23
4.21
Entering Water Temperature, (°C)
25
30
35
8.42
8.14
7.69
8.27
8.02
7.60
8.71
8.41
7.91
7.68
7.49
7.19
9.10
8.77
8.20
6.88
7.10
6.61
9.29
9.00
8.47
6.31
6.21
6.06
9.88
9.70
9.27
4.68
4.61
4.48
10.08
9.93
9.53
4.16
4.10
3.98
40
7.24
7.19
7.41
6.88
7.64
6.46
7.94
5.91
8.84
4.36
9.14
3.86
45
6.79
6.78
6.91
6.58
7.07
6.31
7.41
5.78
8.41
4.24
8.74
3.74
Water Flow Rate = 2.38 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
9.28
9.08
9.63
8.32
10.10
7.31
10.21
6.71
10.55
4.95
10.66
4.38
20
8.88
8.71
9.20
8.05
9.63
7.15
9.79
6.55
10.29
4.85
10.45
4.30
Entering Water Temperature, (°C)
25
30
35
8.60
8.31
7.85
8.45
8.19
7.77
8.90
8.59
8.08
7.85
7.65
7.34
9.29
8.96
8.38
7.03
7.26
6.75
9.50
9.20
8.65
6.44
6.34
6.19
10.10
9.91
9.47
4.78
4.71
4.58
10.30
10.15
9.74
4.25
4.19
4.07
40
7.40
7.35
7.57
7.03
7.80
6.60
8.11
6.04
9.03
4.45
9.33
3.95
45
6.94
6.93
7.06
6.72
7.23
6.44
7.57
5.90
8.59
4.33
8.93
3.83
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
53
MWH 040B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 1.52 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
13.03
12.75
13.52
11.68
14.17
10.27
14.33
9.41
14.81
6.94
14.97
6.15
20
12.47
12.23
12.92
11.29
13.52
10.03
13.75
9.20
14.44
6.80
14.67
6.04
Entering Water Temperature, (°C)
25
30
35
12.07
11.67
11.02
11.86
11.49
10.90
12.49
12.06
11.34
11.02
10.74
10.30
13.05
12.58
11.77
9.87
9.93
9.48
13.33
12.91
12.15
9.04
8.90
8.68
14.17
13.91
13.29
6.71
6.61
6.43
14.45
14.24
13.67
5.96
5.89
5.71
40
10.38
10.31
10.63
9.87
10.95
9.26
11.38
8.48
12.67
6.25
13.10
5.54
45
9.74
9.72
9.91
9.44
10.14
9.05
10.62
8.28
12.05
6.08
12.53
5.37
Water Flow Rate = 2.54 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
13.63
13.33
14.14
12.22
14.82
10.74
14.99
9.84
15.49
7.26
15.65
6.43
20
13.04
12.79
13.51
11.81
14.13
10.49
14.37
9.62
15.10
7.12
15.34
6.32
Entering Water Temperature, (°C)
25
30
35
12.62
12.20
11.53
12.40
12.02
11.40
13.06
12.61
11.86
11.52
11.23
10.77
13.64
13.15
12.30
10.32
10.39
9.91
13.94
13.50
12.70
9.46
9.30
9.08
14.82
14.54
13.90
7.01
6.91
6.72
15.12
14.89
14.30
6.23
6.15
5.97
40
10.85
10.78
11.11
10.32
11.46
9.68
11.90
8.87
13.25
6.54
13.70
5.79
45
10.18
10.17
10.36
9.87
10.61
9.46
11.11
8.66
12.60
6.36
13.10
5.62
Water Flow Rate = 3.56 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
13.92
13.62
14.44
12.48
15.14
10.97
15.31
10.06
15.82
7.42
15.99
6.57
20
13.32
13.07
13.80
12.06
14.44
10.71
14.68
9.82
15.42
7.27
15.67
6.45
Entering Water Temperature, (°C)
25
30
35
12.89
12.46
11.78
12.67
12.28
11.65
13.34
12.88
12.12
11.77
11.48
11.01
13.94
13.43
12.57
10.54
10.61
10.13
14.24
13.79
12.98
9.66
9.50
9.28
15.14
14.86
14.20
7.16
7.06
6.87
15.44
15.21
14.60
6.37
6.29
6.10
40
11.09
11.02
11.35
10.54
11.70
9.89
12.16
9.06
13.54
6.68
13.99
5.92
45
10.40
10.39
10.59
10.08
10.84
9.66
11.35
8.85
12.88
6.50
13.39
5.74
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
54
MWH 050B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 1.75 m3/hr
Capacity
(kW)
TC
SC
TC
SC
TC
SC
TC
SC
TC
SC
TC
SC
13
14.49
14.18
15.03
12.99
15.76
11.41
15.94
10.47
16.47
7.72
16.64
6.84
20
13.86
13.60
14.36
12.55
15.03
11.15
15.28
10.22
16.05
7.56
16.31
6.71
Entering Water Temperature, (°C)
25
30
35
13.42
12.97
12.26
13.19
12.78
12.12
13.88
13.40
12.61
12.25
11.94
11.45
14.50
13.98
13.08
10.97
10.77
10.54
14.82
14.35
13.50
10.06
9.89
9.66
15.76
15.46
14.78
7.46
7.35
7.15
16.07
15.83
15.20
6.63
6.54
6.35
40
11.54
11.47
11.81
10.97
12.18
10.29
12.66
9.43
14.09
6.95
14.57
6.16
45
10.83
10.81
11.02
10.49
11.28
10.06
11.81
9.21
13.40
6.76
13.93
5.97
Water Flow Rate = 2.91 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
15.15
14.82
15.72
13.58
16.48
11.94
16.66
10.94
17.22
8.07
17.40
7.15
20
14.50
14.22
15.02
13.13
15.71
11.66
15.98
10.69
16.79
7.91
17.05
7.02
Entering Water Temperature, (°C)
25
30
35
14.03
13.56
12.82
13.79
13.36
12.67
14.52
14.02
13.19
12.81
12.49
11.98
15.17
14.62
13.68
11.47
11.26
11.02
15.49
15.01
14.12
10.51
10.34
10.10
16.48
16.17
15.45
7.80
7.68
7.47
16.81
16.56
15.89
6.93
6.84
6.64
40
12.07
11.99
12.35
11.47
12.74
10.76
13.23
9.86
14.73
7.27
15.23
6.44
45
11.32
11.30
11.52
10.97
11.79
10.52
12.35
9.63
14.01
7.07
14.57
6.24
Water Flow Rate = 4.07 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
15.48
15.14
16.06
13.88
16.83
12.19
17.02
11.18
17.59
8.25
17.78
7.30
20
14.81
14.53
15.34
13.41
16.05
11.91
16.33
10.92
17.15
8.08
17.42
7.17
Entering Water Temperature, (°C)
25
30
35
14.33
13.86
13.09
14.09
13.65
12.95
14.83
14.32
13.47
13.08
12.76
12.24
15.49
14.94
13.97
11.72
11.50
11.26
15.83
15.33
14.43
10.74
10.57
10.31
16.83
16.52
15.78
7.96
7.85
7.63
17.17
16.91
16.24
7.08
6.99
6.78
40
12.33
12.25
12.62
11.72
13.01
11.00
13.52
10.07
15.05
7.43
15.56
6.58
45
11.57
11.55
11.77
11.21
12.05
10.74
12.62
9.84
14.32
7.22
14.88
6.38
Indoor, DB
(°C)
Indoor, WB
(°C)
15.5
17
19
27.0
20
23
24
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
55
MWH 060B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 2.18 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
18.34
17.95
19.03
16.45
19.95
14.45
20.18
13.25
20.85
9.77
21.07
8.65
20
17.55
17.22
18.18
15.90
19.02
14.12
19.35
12.94
20.32
9.58
20.65
8.50
Entering Water Temperature, (°C)
25
30
35
16.99
16.42
15.52
16.70
16.18
15.35
17.58
16.97
15.96
15.51
15.12
14.50
18.36
17.70
16.56
13.89
13.28
13.35
18.76
18.17
17.10
12.73
12.52
12.22
19.95
19.58
18.71
9.44
9.30
9.05
20.35
20.05
19.24
8.39
8.28
8.04
40
14.61
14.52
14.96
13.89
15.42
13.03
16.02
11.94
17.84
8.80
18.44
7.80
45
13.71
13.69
13.95
13.28
14.28
12.73
14.95
11.66
16.97
8.56
17.64
7.56
Water Flow Rate = 3.63 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
19.18
18.77
19.90
17.20
20.86
15.11
21.10
13.86
21.80
10.22
22.03
9.05
20
18.35
18.00
19.01
16.62
19.89
14.76
20.23
13.53
21.25
10.02
21.59
8.89
Entering Water Temperature, (°C)
25
30
35
17.76
17.17
16.23
17.46
16.92
16.05
18.38
17.75
16.69
16.21
15.81
15.16
19.20
18.51
17.32
14.52
13.88
13.96
19.62
19.00
17.88
13.31
13.10
12.78
20.86
20.47
19.56
9.87
9.73
9.46
21.28
20.96
20.12
8.78
8.66
8.41
40
15.28
15.18
15.64
14.52
16.12
13.63
16.76
12.48
18.65
9.20
19.28
8.15
45
14.33
14.31
14.59
13.89
14.93
13.31
15.63
12.19
17.74
8.95
18.44
7.90
Water Flow Rate = 5.08 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
19.59
19.17
20.33
17.57
21.31
15.44
21.55
14.15
22.27
10.44
22.51
9.24
20
18.75
18.39
19.42
16.98
20.32
15.08
20.67
13.83
21.71
10.23
22.06
9.08
Entering Water Temperature, (°C)
25
30
35
18.15
17.54
16.58
17.84
17.28
16.39
18.78
18.13
17.05
16.56
16.15
15.49
19.62
18.91
17.69
14.84
14.18
14.26
20.04
19.41
18.26
13.60
13.38
13.06
21.31
20.91
19.98
10.08
9.94
9.67
21.74
21.41
20.56
8.97
8.85
8.59
40
15.61
15.51
15.98
14.84
16.47
13.92
17.12
12.75
19.05
9.40
19.70
8.33
45
14.64
14.62
14.90
14.19
15.25
13.60
15.97
12.45
18.12
9.14
18.84
8.07
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
56
MWH 070B/BR
Cooling Only/ Cooling Mode (Heatpump)
Water Flow Rate = 2.67 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
22.21
21.73
23.04
19.91
24.15
17.50
24.43
16.04
25.24
11.83
25.51
10.48
20
21.25
20.85
22.01
19.24
23.03
17.09
23.43
15.67
24.61
11.60
25.00
10.29
Entering Water Temperature, (°C)
25
30
35
20.57
19.88
18.79
20.22
19.59
18.58
21.28
20.55
19.33
18.77
18.31
17.56
22.23
21.43
20.05
16.81
15.64
16.16
22.71
22.00
20.70
15.41
15.16
14.80
24.15
23.70
22.65
11.43
11.26
10.95
24.63
24.27
23.30
10.16
10.03
9.73
40
17.69
17.57
18.11
16.82
18.67
15.78
19.40
14.45
21.59
10.65
22.33
9.44
45
16.59
16.57
16.89
16.08
17.29
15.41
18.10
14.11
20.54
10.36
21.35
9.15
Water Flow Rate = 4.45 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
23.22
22.72
24.09
20.82
25.26
18.30
25.54
16.77
26.39
12.37
26.67
10.96
20
22.22
21.80
23.02
20.12
24.09
17.87
24.50
16.39
25.73
12.13
26.14
10.76
Entering Water Temperature, (°C)
25
30
35
21.51
20.79
19.64
21.14
20.48
19.43
22.25
21.48
20.21
19.63
19.14
18.36
23.25
22.41
20.97
17.58
16.36
16.90
23.75
23.00
21.65
16.12
15.86
15.48
25.26
24.78
23.68
11.95
11.77
11.45
25.76
25.38
24.36
10.63
10.49
10.18
40
18.50
18.38
18.94
17.58
19.52
16.50
20.29
15.11
22.58
11.14
23.35
9.87
45
17.35
17.33
17.66
16.82
18.08
16.12
18.93
14.76
21.48
10.84
22.33
9.57
Water Flow Rate = 6.23 m3/hr
Indoor, DB Indoor, WB Capacity
(°C)
(°C)
(kW)
TC
15.5
SC
TC
17
SC
TC
19
SC
27.0
TC
20
SC
TC
23
SC
TC
24
SC
13
23.72
23.21
24.61
21.27
25.80
18.69
26.09
17.14
26.96
12.64
27.25
11.19
20
22.70
22.27
23.52
20.56
24.61
18.26
25.03
16.74
26.29
12.39
26.71
11.00
Entering Water Temperature, (°C)
25
30
35
21.97
21.24
20.07
21.60
20.92
19.85
22.73
21.95
20.65
20.05
19.56
18.76
23.75
22.89
21.42
17.96
16.71
17.26
24.26
23.50
22.11
16.47
16.20
15.81
25.80
25.32
24.19
12.21
12.03
11.70
26.32
25.93
24.89
10.85
10.71
10.40
40
18.90
18.77
19.35
17.96
19.94
16.86
20.72
15.44
23.07
11.38
23.85
10.08
45
17.73
17.70
18.04
17.18
18.47
16.47
19.34
15.08
21.94
11.07
22.81
9.78
Note:
1. DB = Dry Bulb, WB = Wet Bulb, TC = Total Capacity, SC = Sensible Capacity
2. All datas above are generated at delta T = Leaving Water Temperature - Entering Water Temperature = 5°C
57
MWH 011BR
Heating mode (Heatpump)
Water Flow Rate = 0.36 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
10
(kW)
15
17
19
20
22
24
27
30
TC
3.00
2.94
2.88
2.85
2.79
2.73
2.65
2.56
12
TC
3.15
3.09
3.03
3.00
2.94
2.88
2.79
2.70
15
TC
3.38
3.32
3.25
3.22
3.16
3.10
3.00
2.91
20
TC
3.75
3.69
3.63
3.60
3.53
3.46
3.35
3.25
25
TC
4.05
3.98
3.91
3.88
3.81
3.73
3.61
3.49
30
TC
4.35
4.28
4.20
4.16
4.09
4.00
3.86
3.72
32
TC
4.47
4.39
4.31
4.28
4.20
4.10
3.96
3.82
35
TC
4.65
4.57
4.49
4.45
4.36
4.26
4.11
3.96
Water Flow Rate = 0.60 m3/hr
EWT
Capacity
(°C)
10
(kW)
15
17
19
20
22
24
27
30
TC
3.18
3.11
3.05
3.02
2.96
2.90
2.81
2.72
12
TC
3.34
3.27
3.21
3.18
3.11
3.05
2.96
2.86
15
TC
3.58
3.51
3.45
3.41
3.35
3.28
3.18
3.08
20
TC
3.98
3.91
3.84
3.81
3.74
3.67
3.55
3.44
25
TC
4.29
4.22
4.15
4.11
4.04
3.95
3.82
3.69
30
TC
4.61
4.53
4.45
4.41
4.33
4.23
4.09
3.94
32
TC
4.73
4.65
4.57
4.53
4.45
4.35
4.20
4.04
35
TC
4.92
4.84
4.75
4.71
4.62
4.52
4.36
4.20
INDOOR DB (°C)
Water Flow Rate = 0.84 m3/hr
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
3.31
3.24
3.18
3.14
3.08
3.02
2.92
2.83
TC
3.48
3.41
3.34
3.31
3.24
3.18
3.08
2.98
15
TC
3.73
3.66
3.59
3.56
3.49
3.42
3.31
3.21
20
TC
4.14
4.07
4.00
3.97
3.90
3.82
3.70
3.58
25
TC
4.47
4.39
4.32
4.28
4.20
4.11
3.98
3.84
30
TC
4.80
4.72
4.63
4.59
4.51
4.41
4.26
4.11
32
TC
4.93
4.85
4.76
4.72
4.63
4.53
4.37
4.21
35
TC
5.13
5.04
4.95
4.90
4.81
4.70
4.54
4.37
INDOOR DB (°C)
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
58
MWH 012BR
Heating mode (Heatpump)
Water Flow Rate = 0.45m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
TC
2.93
2.87
2.81
2.78
2.73
2.67
2.59
2.50
12
TC
3.08
3.02
2.96
2.93
2.87
2.81
2.72
2.64
15
TC
3.30
3.24
3.18
3.15
3.09
3.03
2.93
2.84
20
TC
3.67
3.60
3.54
3.51
3.45
3.38
3.28
3.17
25
TC
3.96
3.89
3.82
3.79
3.72
3.64
3.52
3.40
30
TC
4.25
4.17
4.10
4.06
3.99
3.90
3.77
3.64
32
TC
4.36
4.29
4.21
4.17
4.10
4.01
3.87
3.73
35
TC
4.54
4.46
4.38
4.34
4.26
4.16
4.02
3.87
Water Flow Rate = 0.75 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
TC
3.10
3.04
2.98
2.95
2.89
2.83
2.74
2.65
12
TC
3.26
3.20
3.13
3.10
3.04
2.98
2.89
2.79
15
TC
3.49
3.43
3.37
3.33
3.27
3.20
3.10
3.00
20
TC
3.88
3.82
3.75
3.72
3.66
3.58
3.47
3.36
25
TC
4.19
4.12
4.05
4.01
3.94
3.86
3.73
3.60
30
TC
4.50
4.42
4.34
4.30
4.23
4.13
3.99
3.85
32
TC
4.62
4.54
4.46
4.42
4.34
4.24
4.10
3.95
35
TC
4.81
4.72
4.64
4.60
4.51
4.41
4.25
4.10
Water Flow Rate = 1.05 m3/hr
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
TC
3.23
3.17
3.10
3.07
3.01
2.95
2.85
2.76
12
TC
3.39
3.33
3.26
3.23
3.17
3.10
3.01
2.91
15
TC
3.64
3.57
3.51
3.47
3.41
3.34
3.23
3.13
20
TC
4.04
3.98
3.91
3.88
3.81
3.73
3.61
3.50
25
TC
4.37
4.29
4.22
4.18
4.11
4.02
3.89
3.75
30
TC
4.69
4.61
4.52
4.48
4.40
4.30
4.16
4.01
32
TC
4.81
4.73
4.65
4.61
4.52
4.42
4.27
4.11
35
TC
5.01
4.92
4.83
4.79
4.70
4.59
4.43
4.27
INDOOR DB (°C)
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
59
MWH 015BR
Heating mode (Heatpump)
Water Flow Rate = 0.54 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
TC
3.42
3.35
3.28
3.25
3.18
3.11
3.02
2.92
12
TC
3.59
3.52
3.45
3.42
3.35
3.28
3.18
3.08
15
TC
3.85
3.78
3.71
3.67
3.60
3.53
3.42
3.31
20
TC
4.28
4.21
4.13
4.10
4.03
3.94
3.82
3.70
25
TC
4.62
4.54
4.46
4.42
4.34
4.25
4.11
3.97
30
TC
4.96
4.87
4.78
4.74
4.66
4.55
4.40
4.24
32
TC
5.09
5.00
4.91
4.87
4.78
4.67
4.51
4.35
35
TC
5.30
5.20
5.11
5.06
4.97
4.86
4.69
4.51
Water Flow Rate = 0.90 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
TC
3.62
3.55
3.47
3.44
3.37
3.30
3.20
3.09
12
TC
3.80
3.73
3.66
3.62
3.55
3.47
3.37
3.26
15
TC
4.07
4.00
3.93
3.89
3.82
3.74
3.62
3.50
20
TC
4.53
4.45
4.38
4.34
4.26
4.18
4.05
3.92
25
TC
4.89
4.81
4.72
4.68
4.60
4.50
4.35
4.20
30
TC
5.25
5.16
5.07
5.02
4.93
4.82
4.66
4.49
32
TC
5.39
5.30
5.20
5.16
5.06
4.95
4.78
4.61
35
TC
5.61
5.51
5.41
5.36
5.26
5.14
4.96
4.78
Water Flow Rate = 1.26 m3/hr
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
TC
3.77
3.69
3.62
3.58
3.51
3.44
3.33
3.22
12
TC
3.96
3.88
3.81
3.77
3.69
3.62
3.51
3.39
15
TC
4.24
4.17
4.09
4.05
3.97
3.89
3.77
3.65
20
TC
4.72
4.64
4.56
4.52
4.44
4.35
4.22
4.08
25
TC
5.09
5.01
4.92
4.88
4.79
4.69
4.53
4.38
30
TC
5.47
5.37
5.28
5.23
5.14
5.02
4.85
4.68
32
TC
5.62
5.52
5.42
5.37
5.28
5.16
4.98
4.80
35
TC
5.84
5.74
5.64
5.59
5.48
5.36
5.17
4.98
INDOOR DB (°C)
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
60
MWH 020BR
Heating mode (Heatpump)
Water Flow Rate = 0.63 m3/hr
INDOOR DB (°C)
EWT
(°C)
Capacity
(kW)
15
17
19
20
22
24
27
30
10
12
TC
3.92
3.84
3.76
3.73
3.65
3.57
3.46
3.35
TC
4.12
4.04
3.96
3.92
3.84
3.76
3.65
3.53
15
TC
4.41
4.33
4.25
4.21
4.13
4.05
3.92
3.80
20
TC
4.91
4.83
4.74
4.70
4.62
4.53
4.38
4.24
25
TC
5.30
5.21
5.12
5.07
4.98
4.87
4.72
4.56
30
TC
5.69
5.59
5.49
5.44
5.34
5.22
5.05
4.87
32
TC
5.84
5.74
5.64
5.59
5.49
5.36
5.18
4.99
35
TC
6.08
5.97
5.86
5.81
5.70
5.57
5.38
5.18
Water Flow Rate = 1.05 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
4.15
4.07
3.99
3.95
3.86
3.79
3.67
3.55
TC
4.36
4.28
4.19
4.15
4.07
3.99
3.86
3.74
15
TC
4.67
4.59
4.51
4.46
4.38
4.29
4.16
4.02
20
TC
5.20
5.11
5.02
4.98
4.89
4.79
4.64
4.49
25
TC
5.61
5.51
5.42
5.37
5.28
5.16
4.99
4.82
30
TC
6.02
5.92
5.81
5.76
5.66
5.53
5.34
5.15
32
TC
6.19
6.08
5.97
5.92
5.81
5.68
5.48
5.29
35
TC
6.43
6.32
6.21
6.15
6.04
5.90
5.69
5.48
Water Flow Rate = 1.47 m3/hr
EWT
Capacity
(°C)
10
12
(kW)
15
17
19
20
22
24
27
30
TC
4.32
4.24
4.15
4.11
4.02
3.94
3.82
3.70
TC
4.54
4.46
4.37
4.33
4.24
4.15
4.02
3.89
15
TC
4.87
4.78
4.69
4.65
4.56
4.47
4.33
4.19
20
TC
5.41
5.32
5.23
5.19
5.10
4.99
4.84
4.68
25
TC
5.84
5.74
5.64
5.60
5.50
5.38
5.20
5.03
30
TC
6.27
6.17
6.06
6.00
5.89
5.76
5.57
5.37
32
TC
6.45
6.33
6.22
6.17
6.05
5.92
5.71
5.51
35
TC
6.70
6.59
6.47
6.41
6.29
6.15
5.93
5.71
INDOOR DB (°C)
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
61
MWH 025BR
Heating mode (Heatpump)
Water Flow Rate = 1.02 m3/hr
INDOOR DB (°C)
EWT
(°C)
Capacity
(kW)
15
17
19
20
22
24
27
30
10
12
TC
6.64
6.51
6.38
6.31
6.18
6.06
5.87
5.68
TC
6.98
6.85
6.71
6.65
6.51
6.38
6.18
5.98
15
TC
7.48
7.35
7.21
7.14
7.01
6.86
6.65
6.44
20
TC
8.32
8.18
8.04
7.97
7.83
7.67
7.43
7.19
25
TC
8.98
8.82
8.67
8.60
8.44
8.26
7.99
7.72
30
TC
9.64
9.47
9.30
9.22
9.05
8.85
8.55
8.25
32
TC
9.90
9.73
9.56
9.47
9.30
9.09
8.78
8.46
35
TC
10.30
10.12
9.94
9.85
9.67
9.44
9.11
8.78
Water Flow Rate = 1.70 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
7.04
6.90
6.76
6.69
6.55
6.42
6.22
6.02
TC
7.39
7.25
7.11
7.04
6.90
6.76
6.55
6.34
15
TC
7.92
7.78
7.64
7.56
7.42
7.27
7.04
6.82
20
TC
8.81
8.66
8.51
8.44
8.29
8.12
7.87
7.62
25
TC
9.51
9.35
9.18
9.10
8.94
8.75
8.46
8.18
30
TC
10.21
10.03
9.85
9.77
9.59
9.38
9.06
8.74
32
TC
10.49
10.30
10.12
10.03
9.85
9.63
9.29
8.96
35
TC
10.91
10.71
10.52
10.43
10.24
10.00
9.65
9.30
Water Flow Rate = 2.38 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
7.33
7.18
7.04
6.97
6.82
6.68
6.47
6.27
TC
7.70
7.55
7.40
7.33
7.18
7.04
6.82
6.60
15
TC
8.25
8.10
7.95
7.88
7.73
7.57
7.34
7.10
20
TC
9.18
9.02
8.87
8.79
8.64
8.46
8.20
7.93
25
TC
9.90
9.74
9.57
9.48
9.31
9.11
8.82
8.52
30
TC
10.63
10.45
10.26
10.17
9.99
9.77
9.43
9.10
32
TC
10.92
10.73
10.54
10.45
10.26
10.03
9.68
9.33
35
TC
11.36
11.16
10.96
10.86
10.66
10.42
10.05
9.68
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
62
MWH 030BR
Heating mode (Heatpump)
Water Flow Rate = 1.02 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
7.48
7.33
7.18
7.11
6.96
6.82
6.61
6.39
TC
7.85
7.71
7.56
7.48
7.33
7.18
6.96
6.73
15
TC
8.42
8.27
8.12
8.04
7.89
7.73
7.49
7.24
20
TC
9.36
9.21
9.05
8.97
8.81
8.63
8.36
8.09
25
TC
10.11
9.93
9.76
9.67
9.50
9.30
8.99
8.69
30
TC
10.85
10.66
10.47
10.38
10.19
9.97
9.63
9.28
32
TC
11.15
10.95
10.76
10.66
10.47
10.23
9.88
9.52
35
TC
11.59
11.39
11.19
11.08
10.88
10.63
10.26
9.88
Water Flow Rate = 1.70 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
7.92
7.76
7.61
7.53
7.37
7.22
7.00
6.77
TC
8.32
8.16
8.00
7.92
7.76
7.61
7.37
7.13
15
TC
8.92
8.76
8.59
8.51
8.35
8.18
7.93
7.67
20
TC
9.91
9.75
9.58
9.50
9.33
9.14
8.86
8.57
25
TC
10.70
10.52
10.34
10.25
10.06
9.85
9.53
9.20
30
TC
11.49
11.29
11.09
10.99
10.79
10.55
10.19
9.83
32
TC
11.80
11.60
11.39
11.29
11.09
10.84
10.46
10.08
35
TC
12.27
12.06
11.85
11.74
11.52
11.26
10.86
10.46
Water Flow Rate = 2.38 m3/hr
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
8.25
8.09
7.92
7.84
7.68
7.52
7.29
7.05
TC
8.67
8.50
8.33
8.25
8.09
7.92
7.68
7.43
15
TC
9.29
9.12
8.95
8.87
8.70
8.52
8.26
7.99
20
TC
10.33
10.16
9.98
9.90
9.72
9.53
9.23
8.93
25
TC
11.15
10.96
10.77
10.67
10.48
10.26
9.92
9.59
30
TC
11.97
11.76
11.55
11.45
11.24
10.99
10.62
10.24
32
TC
12.30
12.08
11.87
11.76
11.55
11.29
10.90
10.51
35
TC
12.79
12.56
12.34
12.23
12.00
11.73
11.31
10.90
INDOOR DB (°C)
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
63
MWH 040BR
Heating mode (Heatpump)
Water Flow Rate = 1.52 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
12.20
11.96
11.72
11.60
11.36
11.12
10.78
10.43
TC
12.82
12.57
12.33
12.20
11.96
11.72
11.35
10.99
15
TC
13.74
13.49
13.24
13.12
12.87
12.61
12.21
11.82
20
TC
15.28
15.02
14.76
14.64
14.38
14.09
13.65
13.21
25
TC
16.49
16.21
15.93
15.79
15.50
15.17
14.68
14.18
30
TC
17.70
17.39
17.09
16.93
16.63
16.26
15.70
15.15
32
TC
18.18
17.87
17.55
17.39
17.08
16.69
16.12
15.54
35
TC
18.91
18.58
18.25
18.08
17.75
17.34
16.73
16.12
Water Flow Rate = 2.54m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
12.92
12.67
12.41
12.28
12.03
11.78
11.42
11.05
TC
13.57
13.31
13.05
12.92
12.67
12.41
12.02
11.64
15
TC
14.55
14.29
14.02
13.89
13.63
13.35
12.93
12.52
20
TC
16.18
15.91
15.64
15.50
15.23
14.92
14.45
13.99
25
TC
17.46
17.16
16.87
16.72
16.42
16.07
15.54
15.01
30
TC
18.74
18.42
18.10
17.93
17.61
17.22
16.63
16.04
32
TC
19.26
18.92
18.59
18.42
18.09
17.68
17.07
16.45
35
TC
20.03
19.68
19.33
19.15
18.80
18.37
17.72
17.07
Water Flow Rate = 3.56 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
10
(kW)
15
17
19
20
22
24
27
30
TC
13.46
13.19
12.93
12.79
12.53
12.27
11.89
11.51
12
TC
14.14
13.87
13.60
13.46
13.19
12.93
12.52
12.12
15
TC
15.16
14.88
14.61
14.47
14.20
13.91
13.47
13.04
20
TC
16.85
16.57
16.29
16.15
15.86
15.54
15.06
14.57
25
TC
18.19
17.88
17.57
17.41
17.10
16.74
16.19
15.64
30
TC
19.53
19.19
18.85
18.68
18.34
17.94
17.32
16.71
32
TC
20.06
19.71
19.36
19.19
18.84
18.42
17.78
17.14
35
TC
20.86
20.50
20.13
19.95
19.59
19.13
18.46
17.78
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
64
MWH 050BR
Heating mode (Heatpump)
Water Flow Rate = 1.75m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
13.38
13.12
12.85
12.72
12.45
12.20
11.82
11.44
TC
14.06
13.79
13.52
13.39
13.12
12.85
12.45
12.05
15
TC
15.07
14.79
14.52
14.39
14.11
13.83
13.39
12.96
20
TC
16.75
16.47
16.19
16.05
15.77
15.45
14.97
14.49
25
TC
18.08
17.77
17.47
17.31
17.01
16.64
16.10
15.55
30
TC
19.41
19.08
18.74
18.57
18.24
17.83
17.22
16.61
32
TC
19.94
19.60
19.25
19.08
18.73
18.31
17.67
17.04
35
TC
20.74
20.38
20.02
19.83
19.47
19.02
18.35
17.68
Water Flow Rate = 2.91 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
14.17
13.89
13.61
13.47
13.19
12.92
12.52
12.12
TC
14.89
14.60
14.32
14.18
13.89
13.61
13.19
12.76
15
TC
15.96
15.67
15.38
15.23
14.95
14.64
14.19
13.73
20
TC
17.74
17.45
17.15
17.00
16.70
16.36
15.85
15.34
25
TC
19.15
18.82
18.50
18.33
18.01
17.62
17.05
16.47
30
TC
20.56
20.20
19.85
19.67
19.31
18.88
18.24
17.60
32
TC
21.12
20.75
20.39
20.20
19.84
19.39
18.72
18.05
35
TC
21.97
21.58
21.20
21.00
20.62
20.15
19.43
18.72
Water Flow Rate = 4.07 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
14.76
14.47
14.18
14.03
13.74
13.46
13.04
12.62
TC
15.51
15.21
14.91
14.77
14.47
14.18
13.74
13.29
15
TC
16.62
16.32
16.02
15.87
15.57
15.25
14.78
14.30
20
TC
18.48
18.17
17.86
17.71
17.40
17.04
16.51
15.98
25
TC
19.95
19.61
19.27
19.10
18.76
18.36
17.76
17.15
30
TC
21.42
21.05
20.68
20.49
20.12
19.67
19.00
18.33
32
TC
22.00
21.62
21.24
21.05
20.66
20.20
19.50
18.80
35
TC
22.88
22.48
22.08
21.88
21.48
20.99
20.25
19.50
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
65
MWH 060BR
Heating mode (Heatpump)
Water Flow Rate = 2.18 m3/hr
INDOOR DB (°C)
EWT
(°C)
Capacity
(kW)
15
17
19
20
22
24
27
30
10
TC
16.14
15.82
15.50
15.34
15.02
14.71
14.26
13.80
12
TC
16.95
16.63
16.30
16.14
15.82
15.50
15.01
14.53
15
TC
18.17
17.84
17.51
17.35
17.02
16.67
16.15
15.63
20
TC
20.20
19.86
19.53
19.36
19.02
18.63
18.05
17.47
25
TC
21.81
21.43
21.06
20.88
20.51
20.07
19.41
18.75
30
TC
23.41
23.00
22.60
22.40
21.99
21.50
20.77
20.04
32
TC
24.05
23.63
23.21
23.01
22.59
22.08
21.31
20.55
35
TC
25.01
24.57
24.14
23.92
23.48
22.94
22.13
21.32
Water Flow Rate = 3.63 m3/hr
INDOOR DB (°C)
EWT
(°C)
Capacity
(kW)
15
17
19
20
22
24
27
30
10
TC
17.09
16.75
16.41
16.24
15.90
15.58
15.10
14.61
12
TC
17.95
17.61
17.27
17.09
16.75
16.41
15.90
15.39
15
TC
19.24
18.89
18.55
18.37
18.02
17.66
17.11
16.56
20
TC
21.39
21.04
20.68
20.50
20.14
19.73
19.11
18.50
25
TC
23.09
22.70
22.31
22.11
21.72
21.25
20.56
19.86
30
TC
24.79
24.36
23.93
23.72
23.29
22.77
22.00
21.22
32
TC
25.47
25.03
24.58
24.36
23.92
23.38
22.57
21.76
35
TC
26.49
26.02
25.56
25.33
24.87
24.29
23.44
22.58
Water Flow Rate = 5.08 m3/hr
EWT
(°C)
Capacity
(kW)
15
17
19
20
22
24
27
30
10
12
TC
17.80
17.45
17.10
16.92
16.57
16.23
15.73
15.22
TC
18.70
18.34
17.99
17.81
17.45
17.10
16.56
16.03
15
TC
20.04
19.68
19.32
19.14
18.77
18.39
17.82
17.25
20
TC
22.29
21.91
21.54
21.36
20.98
20.55
19.91
19.27
25
TC
24.06
23.65
23.24
23.03
22.62
22.14
21.41
20.69
30
TC
25.82
25.38
24.93
24.71
24.26
23.72
22.91
22.10
32
TC
26.53
26.07
25.61
25.38
24.92
24.36
23.51
22.67
35
TC
27.59
27.11
26.63
26.39
25.90
25.31
24.41
23.52
INDOOR DB (°C)
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
66
MWH 070BR
Heating mode (Heatpump)
Water Flow Rate = 2.67 m3/hr
INDOOR DB (°C)
EWT
(°C)
Capacity
(kW)
15
17
19
20
22
24
27
30
10
12
TC
18.10
17.75
17.39
17.21
16.85
16.51
15.99
15.48
TC
19.02
18.65
18.29
18.11
17.75
17.39
16.85
16.30
15
TC
20.39
20.02
19.65
19.46
19.09
18.71
18.12
17.54
20
TC
22.67
22.29
21.91
21.72
21.34
20.90
20.25
19.60
25
TC
24.46
24.05
23.63
23.42
23.01
22.51
21.78
21.04
30
TC
26.26
25.81
25.36
25.13
24.68
24.13
23.30
22.48
32
TC
26.98
26.51
26.05
25.81
25.34
24.77
23.91
23.06
35
TC
28.06
27.57
27.08
26.83
26.34
25.74
24.83
23.92
Water Flow Rate = 4.45 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
TC
19.17
18.79
18.41
18.22
17.84
17.48
16.94
16.40
20.14
19.76
19.37
19.18
18.79
18.41
17.84
17.27
15
TC
21.59
21.20
20.81
20.61
20.22
19.81
19.19
18.57
20
TC
24.00
23.60
23.20
23.00
22.60
22.14
21.45
20.75
25
TC
25.91
25.47
25.03
24.81
24.36
23.84
23.06
22.28
30
TC
27.81
27.33
26.85
26.61
26.13
25.55
24.68
23.81
32
TC
28.58
28.08
27.58
27.33
26.84
26.23
25.32
24.42
35
TC
29.72
29.20
28.68
28.42
27.90
27.26
26.29
25.33
Water Flow Rate = 6.23 m3/hr
INDOOR DB (°C)
EWT
Capacity
(°C)
(kW)
15
17
19
20
22
24
27
30
10
12
TC
TC
19.97
19.58
19.18
18.98
18.59
18.21
17.64
17.08
20.98
20.58
20.18
19.98
19.58
19.18
18.58
17.99
15
TC
22.49
22.08
21.68
21.47
21.06
20.64
19.99
19.35
20
TC
25.01
24.59
24.17
23.96
23.54
23.06
22.34
21.62
25
TC
26.99
26.53
26.07
25.84
25.38
24.84
24.02
23.21
30
TC
28.97
28.47
27.97
27.72
27.22
26.62
25.71
24.80
32
TC
29.77
29.25
28.73
28.47
27.96
27.33
26.38
25.43
35
TC
30.96
30.42
29.87
29.60
29.06
28.39
27.39
26.39
Note:
1. TC = Total Capacity, EWT = Entering Water Temperature
2. All datas above are generated at delta T = Entering Water Temperature - Leaving Water Temperature = 5°C
67
Dimensional Data
Outlines And Dimensions
Model : MWH 011/012/015/020/025 B/BR
Dimension in mm
F
G
H
I
J
K
L
M
N
O
MWH011B/BR 250.0
MWH012B/BR 325.0
1084.0 547.0
174.0 502.0
28.5
36.5
396.0
3.0
586.0
1026.0
32.0
40.0
29.0
195.5
1072.0 552.0
248.0 542.0
29.5
36.5
401.0
4.0
626.0
1046.0
60.0
65.0
35.0
269.5
MWH015B/BR 337.0
MWH020B/BR 353.0
MWH025B/BR 340.0
1072.0 552.0
248.0 542.0
29.5
36.5
401.0
4.0
626.0
1045.0
60.0
65.0
35.0
269.5
1152.0 592.0
263.0 642.0
29.5
38.5
437.0
4.0
726.0
1155.0
100.0
65.0
45.0
284.5
1327.0 592.0
263.0 642.0
29.5
38.5
437.0
3.5
726.0
1300.0
62.0
59.0
59.0
284.5
Model
A
B
C
D
E
68
174
Model : MWH 030 B/BR
POWER INLET
35
O 25
246
309
1297. 2
1217
SYS1 HIGH PRESSURE
657
743. 4
702. 9
435
35
21
1161. 2
DRAINING
15
608
IN G3/4 ?
MAINTAIN PANEL
O 25
27
51
OUT G3/4 ?
49
O 19
4- O 17
DRAINING
60
180
310
686
45. 7
68. 7
289. 3
Dimension in mm
31. 5
291
Model : MWH 040/050 B/BR
246. 5
270
1376
1277
SYS2 HI GH PRESSURE
1221. 2
702
688
MAINTAIN PANEL
O 19
56. 5
4-O 7
258
44
434
850
2-O 25
47
62
DRAIN
G3/4 ?
O 25
DRAI N
51
51. 1
G3/4 ?
POWER INLET
358
752
792
435
SYS1 HI GH PRESSURE
69
Dimension in mm
Model : MWH 060/070 B/BR
Dimension in mm
70
Electrical Data
Electrical Data - Cooling Only (R22)
MODEL
MWH 011B
INSULATION GRADE
POWER SOURCE
EVAPORATOR MOTOR
220 - 240 / 1 / 50
V/Ph/Hz
RATED INPUT POWER
W
90
83
RATED RUNNING CURRENT
A
0.43
0.37
MOTOR OUTPUT
W
60
POLES
36
4
CLASS E
INSULATION GRADE
POWER SOURCE
COMPRESSOR
MWH 012B
CLASS B
220 - 240 / 1 / 50
V/Ph/Hz
CAPACITOR
µF
30.0
RATED INPUT POWER
W
700
RATED RUNNING CURRENT
A
LOCKED ROTOR AMP.
A
25.0
692
3.1
19
18
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ISO 13256-1.
MODEL
EVAPORATOR MOTOR
COMPRESSOR
MWH 015B
INSULATION GRADE
POWER SOURCE
RATED INPUT POWER
RATED RUNNING CURRENT
MOTOR OUTPUT
POLES
INSULATION GRADE
POWER SOURCE
CAPACITOR
RATED INPUT POWER
RATED RUNNING CURRENT
LOCKED ROTOR AMP.
V/Ph/Hz
W
A
W
V/Ph/Hz
µF
W
A
A
MWH 020B
CLASS B
220 - 240 / 1 / 50
102
0.45
51
211
0.92
120
4
CLASS E
220 - 240 / 1 / 50
40.0
1151
5.5
32
45.0
1350
6.1
35
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ISO 13256-1.
Electrical Data - Cooling Only (R22)
MODEL
MWH 025B
INSULATION GRADE
POWER SOURCE
EVAPORATOR MOTOR
CLASS B
V/Ph/Hz
220 - 240 / 1 / 50
RATED INPUT POWER
W
317
RATED RUNNING CURRENT
A
1.42
MOTOR OUTPUT
W
200
POLES
4
INSULATION GRADE
POWER SOURCE
COMPRESSOR
CLASS E
V/Ph/Hz
220 - 240 / 1 / 50
CAPACITOR
µF
25.0
RATED INPUT POWER
W
1577
RATED RUNNING CURRENT
A
7.5
LOCKED ROTOR AMP.
A
22x2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ISO 13256-1.
MWH 030B
MODEL
POWER SOURCE
EVAPORATOR MOTOR
V/Ph/Hz
CLASS F
220 - 240 / 1 / 50
RATED INPUT POWER
W
450
900
RATED RUNNING CURRENT
A
1.90
3.70
MOTOR OUTPUT
W
425
POLES
POWER SOURCE
CAPACITOR
830
4
N/A
INSULATION GRADE
COMPRESSOR
MWH 040B
CLASS B
INSULATION GRADE
V/Ph/Hz
CLASS E
220 - 240 / 1 / 50
µF
W
60.0
50.0
2035
2997
RATED RUNNING CURRENT
A
10.0
14.9
LOCKED ROTOR AMP.
A
28
42
RATED INPUT POWER
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ARI 320.
71
Electrical Data - Cooling Only (R22)
MODEL
MWH 050B
INSULATION GRADE
POWER SOURCE
EVAPORATOR MOTOR
V/Ph/Hz
CLASS B
220 - 240 / 1 / 50
380 - 415 / 3 / 50
600x2
RATED INPUT POWER
W
950
RATED RUNNING CURRENT
A
3.90
5.10
MOTOR OUTPUT
W
880
375x2
POLES
4
INSULATION GRADE
POWER SOURCE
COMPRESSOR
MWH 060B
CLASS F
V/Ph/Hz
CLASS E
N/A
220 - 240 / 1 / 50
380 - 415 / 3 / 50
CAPACITOR
µF
50.0
N/A
RATED INPUT POWER
W
3532
4305
RATED RUNNING CURRENT
A
17.7
8.2
LOCKED ROTOR AMP.
A
48
40
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ARI 320.
MODEL
MWH 070B
INSULATION GRADE
POWER SOURCE
EVAPORATOR MOTOR
CLASS B
V/Ph/Hz
380 - 415 / 3 / 50
RATED INPUT POWER
W
650x2
RATED RUNNING CURRENT
A
5.4
MOTOR OUTPUT
W
400x2
POLES
4
INSULATION GRADE
POWER SOURCE
COMPRESSOR
N/A
V/Ph/Hz
380 - 415 / 3 / 50
RATED INPUT POWER
µF
W
4741
RATED RUNNING CURRENT
A
9.4
LOCKED ROTOR AMP.
A
46
CAPACITOR
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ARI 320.
72
N/A
Electrical Data - Heatpump (R22)
MODEL
MWH 011BR
INSULATION GRADE
POWER SOURCE
EVAPORATOR MOTOR
220 - 240 / 1 / 50
V/Ph/Hz
RATED INPUT POWER
W
90
83
RATED RUNNING CURRENT
A
0.43
0.37
MOTOR OUTPUT
W
60
INSULATION GRADE
POWER SOURCE
36
4
POLES
COMPRESSOR
MWH 012BR
CLASS B
CLASS E
V/Ph/Hz
220 - 240 / 1 / 50
CAPACITOR
µF
30.0
RATED INPUT POWER (COOLING)
W
700
25.0
692
RATED INPUT POWER (HEATING)
W
655
712
RATED RUNNING CURRENT (COOLING)
A
3.1
3.1
RATED RUNNING CURRENT (HEATING)
A
2.9
3.2
LOCKED ROTOR AMP.
A
19
18
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ISO 13256-1.
MODEL
EVAPORATOR MOTOR
COMPRESSOR
MWH 015BR
INSULATION GRADE
POWER SOURCE
RATED INPUT POWER
RATED RUNNING CURRENT
MOTOR OUTPUT
POLES
INSULATION GRADE
POWER SOURCE
CAPACITOR
V/Ph/Hz
W
A
W
MWH 020BR
CLASS B
220 - 240 / 1 / 50
102
0.45
51
211
0.92
120
4
CLASS E
220 - 240 / 1 / 50
40.0
45.0
RATED INPUT POWER (COOLING)
V/Ph/Hz
µF
W
1151
1450
RATED INPUT POWER (HEATING)
W
1051
1150
RATED RUNNING CURRENT (COOLING)
A
5.5
6.5
RATED RUNNING CURRENT (HEATING)
A
5.1
5.2
LOCKED ROTOR AMP.
A
32
35
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ISO 13256-1.
Electrical Data - Heatpump (R22)
MODEL
MWH 025BR
INSULATION GRADE
POWER SOURCE
EVAPORATOR MOTOR
CLASS B
V/Ph/Hz
220 - 240 / 1 / 50
RATED INPUT POWER
W
317
RATED RUNNING CURRENT
A
1.42
MOTOR OUTPUT
W
200
4
POLES
INSULATION GRADE
POWER SOURCE
COMPRESSOR
CLASS E
V/Ph/Hz
220 - 240 / 1 / 50
CAPACITOR
µF
25.0
RATED INPUT POWER (COOLING)
W
1577
RATED INPUT POWER (HEATING)
W
1637
RATED RUNNING CURRENT (COOLING)
A
7.5
RATED RUNNING CURRENT (HEATING)
A
8.0
LOCKED ROTOR AMP.
A
22x2
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ISO 13256-1.
MWH 030BR
CLASS B
MODEL
EVAPORATOR MOTOR
COMPRESSOR
INSULATION GRADE
POWER SOURCE
RATED INPUT POWER
RATED RUNNING CURRENT
MOTOR OUTPUT
POLES
INSULATION GRADE
POWER SOURCE
CAPACITOR
V/Ph/Hz
W
A
W
MWH 040BR
CLASS F
220 - 240 / 1 / 50
450
1.90
425
900
3.70
830
4
N/A
CLASS E
220 - 240 / 1 / 50
60.0
50.0
RATED INPUT POWER (COOLING)
V/Ph/Hz
µF
W
2035
2997
RATED INPUT POWER (HEATING)
W
2083
3095
RATED RUNNING CURRENT (COOLING)
A
10.0
14.4
RATED RUNNING CURRENT (HEATING)
A
10.2
15.0
LOCKED ROTOR AMP.
A
28
42
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ARI 320.
73
Electrical Data - Heatpump (R22)
MODEL
MWH 050BR
INSULATION GRADE
POWER SOURCE
EVAPORATOR MOTOR
V/Ph/Hz
CLASS B
220 - 240 / 1 / 50
380 - 415 / 3 / 50
600x2
RATED INPUT POWER
W
950
RATED RUNNING CURRENT
A
3.90
5.10
MOTOR OUTPUT
W
880
375x2
POLES
4
CLASS E
N/A
V/Ph/Hz
220 - 240 / 1 / 50
380 - 415 / 3 / 50
CAPACITOR
µF
50.0
RATED INPUT POWER (COOLING)
W
RATED INPUT POWER (HEATING)
W
3483
4646
RATED RUNNING CURRENT (COOLING)
A
17.7
8.3
RATED RUNNING CURRENT (HEATING)
A
17.3
8.8
LOCKED ROTOR AMP.
A
48
40
INSULATION GRADE
POWER SOURCE
COMPRESSOR
MWH 060BR
CLASS F
N/A
4305
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ARI 320.
MODEL
MWH 070BR
CLASS B
INSULATION GRADE
V/Ph/Hz
380 - 415 / 3 / 50
RATED INPUT POWER
W
650x2
RATED RUNNING CURRENT
A
5.4
MOTOR OUTPUT
W
400x2
POWER SOURCE
EVAPORATOR MOTOR
4
POLES
N/A
INSULATION GRADE
V/Ph/Hz
380 - 415 / 3 / 50
RATED INPUT POWER (COOLING)
µF
W
4741
RATED INPUT POWER (HEATING)
W
4936
RATED RUNNING CURRENT (COOLING)
A
9.4
RATED RUNNING CURRENT (HEATING)
A
9.8
LOCKED ROTOR AMP.
A
46
POWER SOURCE
CAPACITOR
COMPRESSOR
1) ALL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE.
2) ALL UNITS ARE BEING TESTED AND COMPLY TO ARI 320.
74
N/A
Wiring Diagrams
Model : MWH 011/012/015 B
Model : MWH 011/012/015 B (Heater)
75
Model : MWH 020 B
Model : MWH 020 B (Heater)
76
Model : MWH 025 B
Model : MWH 025 B (Heater)
77
Model : MWH 030 B
Model : MWH 030 BD (Heater)
78
Model : MWH 040/050 B
Model : MWH 040/050 BD (Heater)
79
Model : MWH 060 B
SYMBOL
DESCRI PTI ON
SYMBOL
DESCRI PTI ON
THERMAL OVERLOAD RELAY SETTI NG AMPS AND CONTROLLER JP SETTI NG
MODEL
LEGEND:
FI ELD WI RI NG
FACTORY WI RED
Model : MWH 060 BD (Heater)
SYMBOL
DESCRI PTI ON
SYMBOL
DESCRI PTI ON
THERMAL OVERLOAD RELAY SETTI NG AMPS AND CONTROLLER JP SETTI NG
MODEL
LEGEND:
FI ELD WI RI NG
FACTORY WI RED
80
Model : MWH 070 B
SYMBOL
DESCRI PTI ON
SYMBOL
DESCRI PTI ON
THERMAL OVERLOAD RELAY SETTI NG AMPS AND CONTROLLER JP SETTI NG
MODEL
LEGEND:
FI ELD WI RI NG
FACTORY WI RED
Model : MWH 070 BD (Heater)
SYMBOL
LEGEND:
DESCRI PTI ON
FAN MOTOR
FLOW SWI TCTH
FUSE
PHASE PROTECTOR
POWER SWI TCH
TERMI NAL BLOCK
WATER LEVEL SWI TCH
CONTROLLER
WATER VALVE
RELAY
THERMAL FUSE
SYMBOL
DESCRI PTI ON
CONTACTOR
OVERLOAD
COMPRESSOR
WI RED REMOTE CONTROLLER
HI GH PRESSURE SWI TCH
LOW PRESSURE SWI TCH
CONDENSATE PUMP
HEATER
CAPACI TOR
THERMOSTAT
THERMAL OVERLOAD RELAY SETTI NG AMPS AND CONTROLLER JP SETTI NG
MODEL
FI ELD WI RI NG
FACTORY WI RED
81
Model : MWH 011/012/015 BR
Model : MWH 011/012/015 BR (Heater)
82
Model : MWH 020 BR
Model : MWH 020 BR (Heater)
83
Model : MWH 025 BR
Model : MWH 025 BR (Heater)
84
TH1
TH2
TH3
TH4
TH5
Model : MWH 030 BR
M
Model : MWH 040/050 BR
85
M
M
M
Model : MWH 060 BR
SYMBOL
DESCRI PTI ON
SYMBOL
DESCRI PTI ON
THERMAL OVERLOAD RELAY SETTI NG AMPS AND COTROLLER JP SETTI NG
MODEL
LEGEND:
FI ELD WI RI NG
FACTORY WI RED
Model : MWH 070 BR
SYMBOL
DESCRI PTI ON
SYMBOL
DESCRI PTI ON
THERMAL OVERLOAD RELAY SETTI NG AMPS AND COTROLLER JP SETTI NG
MODEL
LEGEND:
FI ELD WI RI NG
FACTORY WI RED
86
Servicing And Maintenance
•
•
•
•
•
•
Service and maintenance should be performed by authorized dealer or qualified contractor.
Clean the air filter at least once a month. More frequently is recommended.
Internal components can be accessed through two access service panels. Electrical box placed
externally for easy access of electrical components.
Regular checks (once a month) on the water strainer are recommended. Clean the strainer if dirty or
clogged.
Check internal compartment for refrigerant leak. Compressor oil stain may indicate leakage.
Maintain a log data on measurement of volts, amps, and water temperature difference (heating and
cooling) is recommended. A comparison of the data during start-up and periodic data is useful as
indicator of general condition of the equipment.
!
Caution
• Do not attempt to do any service or maintenance when the unit is operating.
• Off the main power supply before doing maintenance.
• Unauthorized modification of the unit is not allowed.
87
Troubleshooting
• Troubleshooting must be performed by authorized dealer or qualified contractor.
Fault
Unit cannot start
Neither fan motor and
compressor run
Compressor does not operate
1.
2.
3.
4.
1.
2.
3.
4.
1.
2.
3.
a)
b)
c)
d)
e)
4.
5.
Insufficient cooling or
heating
1.
2.
3.
4.
5.
6.
Insufficient water flow
through heat exchanger
Noisy operation
7.
8.
1.
2.
3.
1.
2.
3.
4.
5.
6.
Causes/ Check Point
Power supply plug disconnected.
Circuit breaker or fuse tripped/ blown.
Wiring connection.
If fault persist, contact your installer.
The fuse may be blown or circuit breaker opened.
Check electrical circuit or motor winding for shorts or grounds.
Check wiring connections. Wire may be loosening. Replace or
tighten.
Control system may be faulty.
Check capacitor if available. Replace capacitor if faulty.
Check wiring connection. Wire may be loosening. Replace or
tighten.
The high pressure switch may tripped due to:
No or insufficient water flows into and leaves heat exchanger.
May be clogged.
Water entering temperature higher than the maximum operating
conditions.
Not enough air flow into fan coil units. May be due to dirty filter
or block by object, cardboard and etc (heating mode).
Fan coil motor failure (heating mode).
Unit over-charged. Release some of the refrigerant charge.
The compressor internal/ external overload protection is
triggered. If the compressor body is extremely hot, the overload
will not reset until it cooled down.
The compressor winding may be grounded to the compressor
shell. If so, replace the compressor.
Check handset for temperature setting.
Filter may be clogged. Check and clean the filter.
Check capillary tube for possible restriction of refrigerant flow.
Replace capillary tube if proven so.
The reversing valve may be defective (valve position is not
shifted properly), creating a bypass of refrigerant. Check the
reversing valve coil connection.
Check for restriction of air and water flow.
Refrigerant leakage. Check all piping bends and connection for
leakage. Repair the leakage area or replace with new piping.
Window or door wide open.
Unit may be under-sized.
Valves are not opened fully.
Circulating water pump is faulty.
Water pipes or strainers are clogged.
Check for loose bolts or screws.
Make sure rubber isolators are used for installation.
Check for water balance to units for proper water flow rate.
Check for tubing touching compressor or other surface. Readjust
tubing by bending it slightly.
Fan blower knocking/ hitting on its housing.
May be due to worn compressor bearing.
88
Overall Checking
Ensure that:
1) The unit has been mounted solidly and rigid in position.
2) The piping and connections are leak-proof.
3) Proper wiring has been installed.
Drainage Check
Pour some water into the left side of the drain pan (the drainage is at the right side of the unit).
Test run:
1) Conduct a test run on the unit after having performed the water drainage test and the gas leakage test.
2) Check the following items:
a) Is the electrical plug inserted firmly into the socket?
b) Is there any abnormal sound from the unit?
c) Is there any abnormal vibration on the unit or the piping?
d) Is the drainage of water smooth?
Confirm that:
1) The compressor is running.
2) The evaporator blower is running and discharge cool air.
3) The suction (low side) pressure is as recommended.
4) The remote controller incorporates a 3-minute delay protection in the circuit, whereby the outdoor
condensing unit requires about 3 minutes delay before it can start operating.
Pre Start Up Maintenance
After long Shutdown
1) Inspect thoroughly and clean the units.
2) Clean or replace air filter.
3) Clean condense drain line.
4) Clean clogged coil.
5) Check fan imbalance before operation and panels.
6) Tighten all wiring connections and panels.
7) Check for refrigerant leakage.
89
Exploded View & Part List
Model : MWH 011B
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
DESCRIPTION
ASSY., DRAIN PAN
ASSY., FRONT PANEL
ASSY., PANEL BACK
ASSY., COIL
ASSY., COMP. BASE LOWER
PANEL, FAN DECK HANGER
ASSY., FAN DECK
RIGHT BLOWER
PANEL, WATER CONDENSATE
GUIDE
ASSY., COMP. BASE UPPER
COMPRESSOR
ASSY., TUBING
DUCT, FLANGE
ASSY., FAN DECK SUPPORT
90
NO.
15
16
17
18
19
20
21
22
23
DESCRIPTION
ASSY., FILTER FLANGE
PANEL, SERVICE FRONT
MOTOR
HANGING, BRACKET
PANEL, TOP
PANEL, SERVICE RIGHT
ASSY., CONTROL BOX
AIR FILTER
COVER, PCB MOUNTING
24
25
26
27
28
BRACKET, PACKING
THERMISTER HOLDER
GROMMET, RUBBER 7070817
GROMMET, RUBBER 7070815
LEFT BLOWER
Model : MWH 012/015B
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
DESCRIPTION
ASSY., DRAIN PAN
ASSY., FRONT PANEL
ASSY., BACK PANEL
ASSY., COIL
ASSY., COMP. BASE LOWER
PANEL, FAN DECK HANGER
ASSY., FAN DECK
RIGHT BLOWER
PANEL, WATER CONDENSATE
GUIDE
GROMMET, RUBBER
ASSY., COMP. BASE UPPER
ASSY., UNIT TUBING
GROMMET RUBBER
COMPRESSOR
NO.
15
16
17
18
19
20
21
22
23
DESCRIPTION
DUCT, FLANGE
ASSY., FAN DECK SUPPORT
ASSY., FILTER FLANGE
ASSY., SERVICE FRONT
PANEL, TOP
ASSY., HANGING BRACKET
BRACKET, PACKING
PANEL, SERVICE RIGHT
ASSY., CONTROL BOX
24
25
26
27
28
MOTOR
COVER, PCB MOUNTING
THERMISTER HOLDER
AIR FILTER
LEFT BLOWER
91
Model : MWH 020B
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DESCRIPTION
ASSY., DRAIN PAN
ASSY., FRONT PANEL
ASSY., BACK PANEL
ASSY., COIL
ASSY., COMP. BASE LOWER
PANEL, FAN DECK HANGER
ASSY., FAN DECK
RIGHT BLOWER
PANEL, WATER CONDENSATE
GUIDE
GROMMET, RUBBER 7070817
ASSY., COMP. BASE UPPER
GROMMET, RUBBER 7070823
FLANGE, DUCT
ASSY., FAN DECK SUPPORT
ASSY., FILTER FLANGE
92
NO.
16
17
18
19
20
21
22
23
24
DESCRIPTION
PANEL, SERVICE FRONT
PANEL, TOP
PANEL, SERVICE RIGHT
ASSY., HANGING BRACKET
ASSY., UNIT TUBING
COMPRESSOR
BRACKET, PACKING
ASSY., CONTROL BOX
COVER, PCB MOUNTING
25
26
27
28
29
MOTOR
ASSY., MOTOR SUPPORT
THERMISTER HOLDER
AIR FILTER
LEFT BLOWER
Model : MWH 025B
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DESCRIPTION
ASSY., DRAIN PAN
ASSY., FRONT PANEL
ASSY., BACK PANEL
ASSY., COIL
ASSY., COMP. BASE LOWER
PANEL, FAN DECK HANGER
ASSY., FAN DECK
RIGHT BLOWER
PANEL, WATER CONDENSATE
GUIDE
GROMMET, RUBBER 7070817
ASSY., COMP. BASE UPPER
GROMMET, RUBBER 7070823
COMPRESSOR
CLAMP, TUBE IN TUBE
FLANGE, DUCT
93
NO.
16
17
18
19
20
21
22
23
24
DESCRIPTION
ASSY., FAN DECK SUPPORT
PANEL, SERVICE FRONT
PANEL, TOP
PANEL, SERVICE RIGHT
ASSY., HANGING BRACKET
ASSY., CONTROL BOX
ASSY., UNIT TUBING
BRACKET, PACKING
COVER, PCB MOUNTING
25
26
27
28
29
30
MOTOR
ASSY., MOTOR SUPPORT
FLANGE, FILTER
THERMISTER HOLDER
AIR FILTER
LEFT BLOWER
Model : MWH 030B
NO.
DESCRIPTION
1
ASSY., COMPRESSOR SUPPORT
PANEL
2
ASSY., FRONT RIGHT PANEL
3
COMPRESSOR
4
ASSY., BASE
5
ASSY., CONTROL BOX
6
ASSY., CONDENSER
7
ASSY., BACK RIGHT PANEL
8
AIRPROOF PANEL
9
ASSY., BACK MIDDLE PANEL
10 ASSY., TOP PANEL
11 ASSY., FILTER & SUPPORT PANEL
12 ASSY., DRAIN PANEL
DESCRIPTION
NO.
13 ASSY., COIL
14
15
16
17
18
19
20
21
22
23
94
ASSY., BACK LEFT PANEL
ASSY., MIDDLE LEFT PANEL
ASSY., MAINTAIN PANEL
ASSY., WELD HOOK
ASSY., BLOWER & MOTOR
ASSY., MIDDLE PANEL
ASSY., TUBE UNIT 2
ASSY., TUBE UNIT 1
ASSY., FRONT PANEL
ASSY., FRONT RIGHT PANEL
Model : MWH 040/050B
NO.
DESCRIPTION
1
ASSY., COMPRESSOR SUPPORT
PANEL
2
ASSY., FRONT RIGHT PANEL
3
COMPRESSOR
4
ASSY., BASE
5
ASSY., CONTROL BOX
6
ASSY., CONDENSER
7
ASSY., BACK RIGHT PANEL
8
AIRPROOF PANEL
9
ASSY., BACK MIDDLE PANEL
10 ASSY., TOP PANEL
11 ASSY., FILTER & SUPPORT PANEL
12 ASSY., DRAIN PANEL
NO.
DESCRIPTION
13 ASSY., COIL
14
15
16
17
18
19
20
21
22
23
95
ASSY., BACK LEFT PANEL
ASSY., MIDDLE LEFT PANEL
ASSY., MAINTAIN PANEL
ASSY., WELD HOOK
ASSY., BLOWER & MOTOR
ASSY., MIDDLE PANEL
ASSY., TUBE UNIT 2
ASSY., TUBE UNIT 1
ASSY., FRONT PANEL
ASSY., FRONT RIGHT PANEL
Model : MWH 060/070B
NO.
DESCRIPTION
1
ASSY., CONTROL BOX ASSEMBLY
2
ASSY., COMPRESSOR SUPPORT
PANEL
3
ASSY., BASE PANEL
4
ASSY., BOTTOM CHECK PANEL
5
6
7
8
9
10
11
12
NO.
DESCRIPTION
13 ASSY., DRAIN PANEL
14 ASSY., MIDDLE PANEL
15
16
ASSY., WELD HOOK
ASSY., FRONT CHECK PANEL
ASSY., BLOWER FLANGE
ASSY., SIDE PANEL RIGHT
ASSY., COMPRESSOR
ASSY., FRONT PANEL
ASSY., BLOWER
ASSY., CHECK PANEL LEFT
17
18
19
20
21
22
23
96
COIL ASSEMBLY
ASSY., FILTER SUPPORT PANEL TOP
& BOTTOM
TUBE (1 SUIT)
ASSY., TOP PANEL
ASSY., CHECK PANEL BACK
FILTER
ASSY., SIDE PANEL BACK MIDDLE
ASSY., SIDE PANEL BACK RIGHT
ASSY., CONDENSER
R
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
DESCRIPTION
ASSY., DRAIN PAN
ASSY., FRONT PANEL
ASSY., PANEL BACK
ASSY., COIL
ASSY., COMP. BASE LOWER
PANEL, FAN DECK HANGER
ASSY., FAN DECK
RIGHT BLOWER
PANEL, WATER CONDENSATE
GUIDE
ASSY., COMP. BASE UPPER
COMPRESSOR
ASSY., TUBING
DUCT, FLANGE
ASSY., FAN DECK SUPPORT
NO.
15
16
17
18
19
20
21
22
23
DESCRIPTION
ASSY., FILTER FLANGE
PANEL, SERVICE FRONT
MOTOR
HANGING, BRACKET
PANEL, TOP
PANEL, SERVICE RIGHT
ASSY., CONTROL BOX
AIR FILTER
COVER, PCB MOUNTING
24
25
26
27
28
BRACKET, PACKING
THERMISTER HOLDER
GROMMET, RUBBER 7070817
GROMMET, RUBBER 7070815
LEFT BLOWER
97
Model : MWH 012/015BR
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
DESCRIPTION
ASSY., DRAIN PAN
ASSY., FRONT PANEL
ASSY., BACK PANEL
ASSY., COIL
ASSY., COMP. BASE LOWER
PANEL, FAN DECK HANGER
ASSY., FAN DECK
RIGHT BLOWER
PANEL, WATER CONDENSATE
GUIDE
GROMMET, RUBBER
ASSY., COMP. BASE UPPER
ASSY., UNIT TUBING
GROMMET RUBBER
COMPRESSOR
98
NO .
15
16
17
18
19
20
21
22
23
DESCRIPTION
DUCT, FLANGE
ASSY., FAN DECK SUPPORT
ASSY., FILTER FLANGE
ASSY., SERVICE FRONT
PANEL, TOP
ASSY., HANGING BRACKET
BRACKET, PACKING
PANEL, SERVICE RIGHT
ASSY., CONTROL BOX
24
25
26
27
28
MOTOR
COVER, PCB MOUNTING
THERMISTER HOLDER
AIR FILTER
LEFT BLOWER
Model : MWH 020BR
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DESCRIPTION
ASSY., DRAIN PAN
ASSY., FRONT PANEL
ASSY., BACK PANEL
ASSY., COIL
ASSY., COMP. BASE LOWER
PANEL, FAN DECK HANGER
ASSY., FAN DECK
RIGHT BLOWER
PANEL, WATER CONDENSATE
GUIDE
GROMMET, RUBBER 7070817
ASSY., COMP. BASE UPPER
GROMMET, RUBBER 7070823
FLANGE, DUCT
ASSY., FAN DECK SUPPORT
ASSY., FILTER FLANGE
99
NO.
16
17
18
19
20
21
22
23
24
DESCRIPTION
PANEL, SERVICE FRONT
PANEL, TOP
PANEL, SERVICE RIGHT
ASSY., HANGING BRACKET
ASSY., UNIT TUBING
COMPRESSOR
BRACKET, PACKING
ASSY., CONTROL BOX
COVER, PCB MOUNTING
25
26
27
28
29
MOTOR
ASSY., MOTOR SUPPORT
THERMISTER HOLDER
AIR FILTER
LEFT BLOWER
Model : MWH 025BR
NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DESCRIPTION
ASSY., DRAIN PAN
ASSY., FRONT PANEL
ASSY., BACK PANEL
ASSY., COIL
ASSY., COMP. BASE LOWER
PANEL, FAN DECK HANGER
ASSY., FAN DECK
RIGHT BLOWER
PANEL, WATER CONDENSATE
GUIDE
GROMMET, RUBBER 7070817
ASSY., COMP. BASE UPPER
GROMMET, RUBBER 7070823
COMPRESSOR
CLAMP, TUBE IN TUBE
FLANGE, DUCT
100
NO.
16
17
18
19
20
21
22
23
24
DESCRIPTION
ASSY., FAN DECK SUPPORT
PANEL, SERVICE FRONT
PANEL, TOP
PANEL, SERVICE RIGHT
ASSY., HANGING BRACKET
ASSY., CONTROL BOX
ASSY., UNIT TUBING
BRACKET, PACKING
COVER, PCB MOUNTING
25
26
27
28
29
30
MOTOR
ASSY., MOTOR SUPPORT
FLANGE, FILTER
THERMISTER HOLDER
AIR FILTER
LEFT BLOWER
Model : MWH 030BR
NO.
DESCRIPTION
1
ASSY., COMPRESSOR SUPPORT
PANEL
2
ASSY., FRONT RIGHT PANEL
3
COMPRESSOR
4
ASSY., BASE
5
ASSY., CONTROL BOX
6
ASSY., CONDENSER
7
ASSY., BACK RIGHT PANEL
8
AIRPROOF PANEL
9
ASSY., BACK MIDDLE PANEL
10 ASSY., TOP PANEL
11 ASSY., FILTER & SUPPORT PANEL
12 ASSY., DRAIN PANEL
No.
Description
13 ASSY., COIL
14
15
16
17
18
19
20
21
22
23
101
ASSY., BACK LEFT PANEL
ASSY., MIDDLE LEFT PANEL
ASSY., MAINTAIN PANEL
ASSY., WELD HOOK
ASSY., BLOWER & MOTOR
ASSY., MIDDLE PANEL
ASSY., TUBE UNIT 2
ASSY., TUBE UNIT 1
ASSY., FRONT PANEL
ASSY., FRONT RIGHT PANEL
Model : MWH 040/050BR
NO.
DESCRIPTION
1
ASSY., COMPRESSOR SUPPORT
PANEL
2
ASSY., FRONT RIGHT PANEL
3
COMPRESSOR
4
ASSY., BASE
5
ASSY., CONTROL BOX
6
ASSY., CONDENSER
7
ASSY., BACK RIGHT PANEL
8
AIRPROOF PANEL
9
ASSY., BACK MIDDLE PANEL
10 ASSY., TOP PANEL
11 ASSY., FILTER & SUPPORT PANEL
12 ASSY., DRAIN PANEL
NO.
DESCRIPTION
13 ASSY., COIL
14
15
16
17
18
19
20
21
22
23
102
ASSY., BACK LEFT PANEL
ASSY., MIDDLE LEFT PANEL
ASSY., MAINTAIN PANEL
ASSY., WELD HOOK
ASSY., BLOWER & MOTOR
ASSY., MIDDLE PANEL
ASSY., TUBE UNIT 2
ASSY., TUBE UNIT 1
ASSY., FRONT PANEL
ASSY., FRONT RIGHT PANEL
Model : MWH 060/070BR
NO.
DESCRIPTION
1
ACCUMULATOR
2
ASSY., COMPRESSOR SUPPORT
PANEL
3
ASSY., BASE PANEL
4
5
6
7
8
9
10
11
12
13
NO.
DESCRIPTION
14 ASSY., MIDDLE PANEL
15 COIL ASSEMBLY
16
ASSY., BOTTOM CHECK PANEL
ASSY., WELD HOOK
ASSY., FRONT CHECK PANEL
ASSY., BLOWER FLANGE
ASSY., SIDE PANEL RIGHT
4 WAY VALVE
ASSY., FRONT PANEL
ASSY., BLOWER
ASSY., CHECK PANEL LEFT
ASSY., DRAIN PANEL
17
18
19
20
21
22
23
24
25
103
ASSY., FILTER SUPPORT PANEL TOP
& BOTTOM
TUBE (1 SUIT)
ASSY., TOP PANEL
ASSY., CHECK PANEL BACK
FILTER
ASSY., SIDE PANEL BACK MIDDLE
ASSY., SIDE PANEL BACK RIGHT
ASSY., CONDENSER
ASSY., COMPRESSOR
ASSY., CONTROL BOX
Products manufactured in an ISO certified facility.
This document contains the most current product information as of this printing. For the
most up-to-date product information, please go to www.mcquay.com.
© 2008 McQuay International
+1 (800) 432-1342
www.mcquay.com