The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).? Energy saving is substantially increased by exchanging cooling water and heat directly.? The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
Cooling Capacity: 015 (15 kW), Type: 2 (Clean/DI Water), Pump Inverter Control: S (Pump Inverter Type), Option: D (DeviceNet Communication)
Cooling Capacity: 15 kW, Type: Clean/DI Water, Pump Inverter Control: Pump Inverter Type, Option: DeviceNet Communication
Cooling Capacity: 008 (8 kW), Type: Fluorinated Fluid, Pump Inverter Control: None, Option: D (DeviceNet Communication)
Cooling Capacity: 008 (8 kW), Type: 1 (Ethylene Glycol), Pump Inverter Control: None, Option: D (DeviceNet Communication)
Cooling Capacity: 008 (8 kW), Type: 2 (Clean/DI Water), Pump Inverter Control: None, Option: D (DeviceNet Communication)
Cooling Capacity: 008 (8 kW), Type: 1 (Ethylene Glycol), Pump Inverter Control: S (Pump Inverter Type), Option: D (DeviceNet Communication)
Cooling Capacity: 8 kW, Type: Fluorinated Fluid, Pump Inverter Control: None, Option: DeviceNet Communication
Cooling Capacity: 8 kW, Type: Ethylene Glycol, Pump Inverter Control: None, Option: DeviceNet Communication
Cooling Capacity: 8 kW, Type: Clean/DI Water, Pump Inverter Control: None, Option: DeviceNet Communication
Cooling Capacity: 8 kW, Type: Ethylene Glycol, Pump Inverter Control: Pump Inverter Type, Option: DeviceNet Communication
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
Cooling Capacity: 030 (30 kW), Type: 2 (Clean/DI Water), Pump Inverter Control: S (Pump Inverter Type)
Cooling Capacity: 002 (2 kW), Type: 2 (Clean/DI Water), Pump Inverter Control: S (Pump Inverter Type)