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The performance of high-powered lasers depends on effective cooling. High-powered lasers generate a significant amount of heat that must be removed from the laser system to avoid overheating critical components. Carbon dioxide (CO2) lasers, excimer lasers, ion lasers, solid-state lasers, and dye lasers all use liquid cooling to remove excess heat. Laser liquid cooling can help accomplish three goals: 

• Maintaining a precise laser wavelength and higher output efficiency
• Achieving desired beam quality 
• Reducing thermal stress on a laser system.

Features:

• Complete solution, easy to install and manage

• Non-ferrous hydraulic circuit including non-ferrous water tank

• A differential pressure switch ensures system shut down if the circuit runs dry.

• Maximum ambient temperature up to 48°C on standard units, tropicalization up to 53°C 

• Use of compliant scroll compressors (on ICEP007 and larger) 

• Low ambient speed-control (optional)

Benefits:

• Compact design provides a space saving and easy to install solution

• High reliability and low energy consumption even in extreme ambient conditions

• Non-ferrous hydraulic circuit maintains the quality of the coolant ensuring stable working conditions, improved productivity and decreased maintenance costs.

For more information or a detailed discussion about your specific requirements please contact Parker or an authorised Parker distributor.
Print Product Overview