Our Product / Services
FRP Round Type Cooling Tower belongs to the Counter-Flow Bottle Shaped Cooling towers. Our FRP Round Type Cooling Tower has features such as rotating sprinklers to distribute the hot water uniformly, compact design for space saving, etc. Also, FRP Round Type Cooling Tower consumes low-power, makes low-noise and produces low vibration. Also, we make it available at affordable prices. Available with the Cooling Capacity Range of 3TR to 700 TR Highlights
Cross Flow Type Cooling Tower is available in single Cell Cooling Capacity from 100 TR to 2000 TR. Our range of Cross Flow Type Cooling Tower including SFID (Single Flow Induced Draft) and DFID (Double Flow Induced Draft) Cooling Towers. In Cross Flow Type Cooling Tower the water flows vertically through the fills while the air flows horizontally across the flow of the falling water. Because of this, air does not have to pass through the distribution system, permitting the use of gravity flow hot water distribution basins mounted at the top of the unit above the fills. Key Benefits
Major Components :
FRP Multi Cell Cooling Towers. belongs to the series of Counter-Flow Rectangular Shaped Cooling towers. The FRP Multi Cell Cooling Towers is made by the combination of FRP Multi Cell Cooling Towers and facilitates minimum drift loss because of fully covering drift eliminators. Our FRP Multi Cell Cooling Towers makes low noise and vibration. Also, we make it available at affordable prices. Available with the Cooling Capacity Range of 30TR to 3000 TR in Multi-Cell Highlights
FRP Square Type Cooling Tower belongs to the Counter-Flow Square Shaped Cooling towers. The main features of FRP Square Type Cooling Tower are even water distribution through solid nozzles, minimum drift loss, etc. Our FRP Square Type Cooling Tower is manufactured using the best quality raw-material and consumes less power. We provide FRP Square Type Cooling Tower in simple designs in different cooling capacity range. Available with the Cooling Capacity Range of 30TR to 1000 TR in Single Cell Highlights