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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Brazed Plate Heat Exchangers

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Brazed Plate Heat Exchangers be a symbol of the most compact, rugged and cost-effective resources of transferring heat in many industrial and refrigerant applications. Built from 316 stainless steel with copper brazing materials, they make available exceptional corrosion resistance. The SB-Series features corrugated plates that manufacture highly turbulent flow in a true counter-current direction. This results in high efficiency and a very compact heat exchanger design. Due to the smaller size and reduced material content, they can be the large amount economical heat transfer choice. API Heat Transfer Brazed Plate Heat Exchangers are available for process and refrigeration applications. Made from stainless-steel plates and copper or nickel brazing materials, they are suitable for an extensive variety of heat exchanger applications.

Applications :

Hydronic heating
Domestic hot water heating
Radiant heating
Snow & ice melting
Chilled water cooling
Beer & wort chilling
Hydraulic oil cooling
Outdoor wood furnaces/stoves/boilers
and other water to water and liquid to liquid heat transfer applications.

Features :

Flexibility to change plate arrangement and to add or remove plate
Optimized heat recovery
Easy maintenance and suitable for CIP, plate pack easily accessible
No mixing of product
High heat transfer coefficients
Compact constructions

The brazed plates form two separate channel systems. The two media assume a true countercurrent flow, completely isolated from each other. This channel configuration is designed to produce high turbulence, promoting maximum heat transfer.