Timber Cooling Tower

Timber Cooling Tower

Rcc Cooling Tower

Rcc Cooling Tower

Air Cooled Condenser

Air Cooled Condenser

Oil Cooler

Oil Cooler

Plate Finned Type Heat Exchanger

Plate Finned Type Heat Exchanger

Plate Heat Exchanger

Plate Heat Exchanger

Tube Bundle Heat Exchanger

Tube Bundle Heat Exchanger

Finned Tube Heat Exchanger

Finned Tube Heat Exchanger

Shell and Tube Heat Exchanger

Shell and Tube Heat Exchanger

Fin Fan Cooler

Fin Fan Cooler

Surface Condenser

Surface Condenser

Pressure Vessel Heat Exchanger

Pressure Vessel Heat Exchanger

Kettle Reboiler Type Heat Exchanger

Kettle Reboiler Type Heat Exchanger

Air Cooled Heat Exchanger

Air Cooled Heat Exchanger

shell and tube heat exchanger

shell and tube heat exchanger

plate type heat exchanger

plate type heat exchanger

Vertical Shell and Tube Heat Exchanger

Vertical Shell and Tube Heat Exchanger

FRP Cooling Tower

FRP Cooling Tower

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FRP Cooling Tower

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FRP Cooling Tower is manufactured with Glass reinforced plastic mostly in wind with standing bottle type and square type models. It is a mechanical type Counter Flow Tower. FRP Cooling tower intakes the air from bottom and discharge the waste heat at the top. Since the water is traveling from top and the air passes from bottom to top, the water droplet have more direct contact time with air. The wet cooling Towers are cooled with the help of evaporating some proportionate quantity of cirulating water.

A typical field erected cooling tower has a fiber-reinforced plastic (FRP) structure, FRP cladding, a mechanical unit for air draft, drift eliminator, and fill.

Finally FRP Cooling Towers are more compact, light in weight, least power consumption, long-lasting, Durable and lowest maintenance expenditure. Since Hot dip galvanized structural and stainless steel fasteners are used, FRP Towers are corrosion Free.

The bottle type tower casing is filled with Honeycomb type PVC FILLS. The rotating water distributor sprinkler is fixed in the top of the inlet pipeline and the same distributes the hot water evenly over the Honeycomb Fill media. The sprinkler will be operated with self-propulsion system. The PVC Fills is corrugated with channels between each flutes to prevent the blockage and giving more and large surface area per unit volume. The cold air meets the cold water at the bottom of the infill providing maximum evaporation and heat transfer in the infill.