Popular Design for Laser Chiller System - Water-cooled Screw Chiller – Airwoods
Popular Design for Laser Chiller System - Water-cooled Screw Chiller – Airwoods Detail:
It is a kind of water-cooled screw chiller with flooded screw compressor that can be connected to all sorts of fan coil unit to realize cooling for large civil or industrial buildings.
1.Precision water temperature control thanks to stepless capacity adjustment from 25%~100%.(single comp.) or 12.5%~100%(dual comp.).
2.Higher heat exchange efficiency thanks to flooded evaporating method.
3. Higher efficiency under partial load thanks to paralleling operation design.
4. High reliability oil return technology to avoid compressor damage from oil lack.
5. Precision and stable volume adjusting thanks to orifice plus EXV throttle method.
6. Automatic operation and energy saving operation makes an easier management.
Product detail pictures:
Related Product Guide:
We believe that prolonged time period partnership is really a result of top of the range, benefit added provider, prosperous knowledge and personal contact for Popular Design for Laser Chiller System - Water-cooled Screw Chiller – Airwoods , The product will supply to all over the world, such as: Bangalore, Swansea, India, Our product quality is one of the major concerns and has been produced to meet the customer's standards. "Customer services and relationship" is another important area which we understand good communication and relationships with our customers is the most significant power to run it as a long term business.
By Stephen from Congo - 2018.06.28 19:27
As an international trading company, we have numerous partners, but about your company, I just want to say, you are really good, wide range, good quality, reasonable prices, warm and thoughtful service, advanced technology and equipment and workers have professional training, feedback and product update is timely, in short, this is a very pleasant cooperation, and we look forward to the next cooperation!
By Henry from Angola - 2018.06.26 19:27