Water Cooled Chillers
Water Cooled Chillers
Forged under harsh conditions around the world, Daikin water-cooled chillers provide high quality, operation efficiency, and energy savings. Various applications are possible including air conditioning applications, industry-type process cooling, and large-scale district heat source systems.
Daikin Advantage
Extensive Product Lineup
The optimum model can be selected from an extensive product lineup for medium- to large-scale facilities for use in a variety of applications.
Versatility
Daikin delivers energy efficiency to a wide range of process cooling applications with a lineup featuring a full range of capacities for all conditions and cooling requirements.
Outstanding Durability
The latest technology for magnetic bearings is used in the compressor, the heart of the centrifugal chiller. Daikin provides outstanding durability for lower maintenance costs.
Large Capacity
Our lineup of large-capacity chillers extends up to a maximum of 6,000 tons in one unit and corresponds to the heat source for district heating and cooling systems.
Application
Large-Size Facility
Daikin’s high-efficiency chillers feature outstanding economical operation that lowers electricity consumption, even at large facilities where large amounts of energy are consumed.
Process Cooling at Factory
Factories utilize Daikin chillers in a variety of ways including process cooling where harsh demands are placed for all types of temperature conditions, precision control, and stability.
District Cooling
High-performance, large centrifugal chillers deliver unmatched reliability and stability to district cooling systems of large building complexes and distinct areas.
Technology
Magnetic Bearing Compressors
Magnetic bearings have been newly adopted for the bearings of the centrifugal compressor, which is the heart of the centrifugal chiller. Running costs are significantly lower since the replacement of lubrication oil and filter is unnecessary at the time of maintenance. Operation efficiency has been improved due to low friction.