Refrigeration systems
Choose from a range of refrigeration systems according to your temperature needs and facility size.
The freezing and refrigeration technologies that Mayekawa has developed through a long history of designing,
constructing, and servicing refrigeration plants support the reliability and trustworthiness the company’s products
have earned.
Additionally, in order to contribute to the prevention of global warming and ozone layer protection, we are increasing
our product lineup by continually developing extremely safe and efficient refrigeration systems that use natural
refrigerants.
Ultra-low temperatures -50 to -100℃ (-58 to -148℉)
PascalAir - air cycle system
PascalAir
Since air acts as the refrigerant, not an HFC, there is no refrigerant-induced impact on the global environment.
Furthermore, in the ultra-low temperature range from -50 to -100℃ (-58 to -148℉), it is possible to reduce CO2 emissions and achieve energy savings of up to 50 percent compared to conventional vapor pressure refrigeration systems.
*Cooling capacity depends on conditions.
SPECIFICATIONS
Open cycle type
- Cooling capacity: PAS15-R 15kW (4.3TR), inside temperature -60℃ (-76℉)
PAS30-R 30kW (8.5TR), inside temperature -60℃ (-76℉) - Inside temperature: -50 to -100℃ (-58 to -148℉)
- Refrigerant: N.A. (working fluid: air)
Closed cycle type (Brine cooler)
- Cooling capacity: 15/34kW (4.3/9.7TR)
- Brine supply temperature : -50 to -90℃ (-58 to -130℉)
- Refrigerant: Nitrogen or air
WHERE TO USE
- Cold storage for tuna/oceanic bonito
- Rapid freezing
- Freeze-drying
- Home appliance recycling (cryogenic grinding)
- Semiconductor manufacturing processes
- Ultra-low temperature storage (-70°C) of Vaccine.
- Markets requiring ultra-low temperatures such as the medical, pharmaceutical, and physics/chemistry fields
For freeze-drying and freezing, inside temperature -40 to -50℃ (-40 to -58℉)
NH3/CO2 cascade refrigeration system
NH3/CO2 cascade refrigeration system
An environmentally friendly cascade refrigeration system that uses ammonia as a refrigerant on the higher-temperature
side and CO2 on the lower-temperature side.
As only CO2 is supplied as the secondary refrigerant, the risks associated with ammonia are minimized.
This product is suited for use in situations where low temperatures are needed, such as freezers that have internal
temperatures of -40℃ (-40℉) or lower.
By controlling the number of refrigeration compressors on the high-and low-temperature sides, it is possible to
operate the system in line with the required load.
SPECIFICATIONS
- Cooling capacity: 150 to 800kW (42.6 to 227.4TR) -40℃ (-40℉)
- Inside temperature: -40 to -50℃ (-40 to -58℉)
- Refrigerant: HT side ammonia (R717), LT side CO2 (R744)
WHERE TO USE
- Ice cream hardening line
- product processing (freezing, freezer, freeze-drying)
7500m3(9800yd3) F class -20℃ (-4℉) or lower, C class -10 to -20℃ (14 to -4℉)
NewTon R/C/F/S - NH3/CO2 cooling system
Developed to counter the global warming impacts of the industrial refrigeration field, NewTon is a highly efficient non-freon refrigeration system that uses natural refrigerants.
Refrigeration compressor manufacturer Mayekawa employs the latest technologies in all of its compressor with IPM(Interior permanent magnet) motor, heat exchangers, and controllers.
Highly energy efficient, NewTon reduces the power consumption of the entire system, thus contributing to the reduction of energy-derived CO2.
Additionally, there is a rich lineup of NewTon products that have been designed to always operate efficiently in line with customer needs from freezer warehouses, cold storages, loading rooms, freezers, vacuum freezing, soil freezing, skating rinks and ice making.
SPECIFICATIONS
- Cooling capacity*:
NewTon C 237.0kW (77.6TR)
NewTon R 99.0 to 270.0kW (28.1 to 76.8TR)
NewTon F 71.7 to 170.0kW (20.4 to 48.3TR)
NewTon S 182.5kW (51.9TR)
NewTon CH 123.6 to 247.2kW (35.1 to 70.3TR)
*In the case of cooling water at 32 ℃ (90℉) - Inside temperature:
NewTon C 2 to -10℃ (36 to 14℉)
NewTon R -20 to -30℃ (-4 to -22℉)
NewTon F -30 to -40℃ (-22 to -40℉)
NewTon S (ice rink) -3 to -5℃ (27 to 23℉)
NewTon CH 7 to -10℃ (44.6 to 14℉)
- Refrigerant: primary ammonia (R717), secondary CO2 (R744)
- Remote monitoring service
WHERE TO USE
- Cold storage
- Ice making plant
- Frozen, chilled food
- Ice arena
5000m3(6500yd3) F class -20℃ (-4℉) or lower
REABEL - NH3/CO2 cooling system
REABEL
Equipped with a highly efficient semi-hermetic reciprocating compressor, REABEL is a natural refrigerant cooling system for small-scale installations such as freezer storages, small-sized freezers, and other freezing applications.
Using the natural refrigerants ammonia and CO2, it is environmentally friendly while also demonstrating excellence in efficiency, reliability, and safety.
SPECIFICATIONS
- Cooling capacity:
RCS-22L-PR2I 37.1kW (10.5TR)
RCS-22L-NN2I 37.1kW (10.5TR) - Inside temperature: -20 to -35℃ (-4 to -31℉)
- Refrigerant: primary ammonia (R717), secondary CO2 (R744)
WHERE TO USE
- Refrigerated storage installations, nominal capacity of 500 to 2,000 t (1102311 to 4409245lb) *when two units are connected.
- Flake ice making facility, 10 t/day (22046lb/day)
- Freezing facilities using small-scale freezers, freezer processing capacity 100 to 200kg/h (220 to 441lb/h)
- Batch freezing facility, 1 to 3t/day (2205 to 6614lb/day)
- Process cooling equipment
- Food processing, fats and oils manufacturing, etc.
For use with small to medium-sized cold storages and freezing (inside temperature -35℃(-31℉) to 5℃ (41℉) and higher)
COPEL-F/C - transcritical CO2 condensing unit
COPEL-C
COPEL is an Air-cooled transcritical CO2 condensing unit for small to medium-sized frozen and chilled storages, as well as for freezing/cooling process in food factories.
This unit is for those who want to save machine space and cut down water consumption.
SPECIFICATIONS
- Cooling capacity:
COPEL-C70 63 to 73kW (17.9 to 20.8TR)
COPEL-F30 25.4 to 34kW (6.6 to 9.7TR)
COPEL-F70 56 to 74.5kW (15.9 to 21.2TR)
COPEL-F140 115.5 to 140kW (32.8 to 39.8TR)
COPEL-F140_high-capacity type 185kW (52.6TR) - Inside temperature:
COPELーC70 0 to 5℃ (32 to 41℉)
COPEL-F30 -25 to -35℃ (-13 to -31℉)
COPEL-F70 -25 to -35℃ (-13 to -31℉)
COPEL-F140 -25 to -35℃ (-13 to -31℉)
COPEL-F140_high-capacity type -13℃ (9℉)
WHERE TO USE
- Cold storage and loading room
- Freezing process for food factory
- Ice cream freezer
- Margarine kneader
- CO2 liquefy plant
Heavy duty F class -25 to -40℃ (-13 to -40℉)
South Polar - NH3/CO2 cooling system
South Polar
South Polar is developed based on the technology cultivated through NewTon R&D, which is a CO2 brine cooler unit that uses safe, highly efficient, eco-friendly ammonia as a refrigerant.
The unit is safe as ammonia only circulates in the machine room, and the amount of the charge is kept to a minimum.
SPECIFICATIONS
- Cooling capacity: 440kW (125.1TR)
- Inside temperature: -25 to -40℃ (-13 to -40℉)
- Refrigerant: primary ammonia (R717), secondary CO2 (R744)
WHERE TO USE
- Cold storage
- Frozen and chilled food
Condensing unit
With a core utilizing the MYCOM compressor, which is produced in-house and
boasts a wide-ranging lineup, a diverse range of condensing units can be designed and manufactured.
The control panel is also produced in-house.
We will propose the condensing unit most suited to client needs.
SPECIFICATIONS
- Cooling capacity:
30 to 3000 kW (8.5 to 852.9TR) *NH3, Te=-10℃ (14℉)
30 to 8500 kW (8.5 to 2416.6TR) *NH3, Te=-40℃ (-40℉) - Inside temperature: -60 to 5℃ (-76 to 41℉)
- Refrigerant: ammonia (R717), HFCs
WHERE TO USE
- Cold storage
- Processed food production processes
- Industrial product processes
- Ice-making plants, etc.