Copper brazed plate heat exchangers provide efficient heat transfer with a small footprint. They are maintenance free, provide a long service lifetime and can withstand high temperatures and extremely high design pressures. They are used in a range of duties including cooling, heating, evaporation and condensing. For complete product range see below.
Source : https://www.alfalaval.in/products/heat-transfer/plate-heat-exchangers/brazed-plate-heat-exchangers/
Fusion-bonded plate heat exchangers are made of 100% stainless steel and provide efficient heat transfer with a small footprint. They are maintenance free and provide a long service lifetime. They are suited in applications which put high demand on cleanliness, applications where aggressive medias such as ammonia are used or where copper and nickel contamination is not accepted. Can handle very high temperatures or extremely high pressures.
Source : https://www.alfalaval.in/products/heat-transfer/plate-heat-exchangers/fusion-bonded-plate-heat-exchangers/
Gasketed plate-and-frame heat exchangers provide efficient heat transfer in compact equipment with a small footprint. The units have a flexible design and are easy to service and maintain. The product range is extremely wide and is used in duties for heating, cooling, heat recovery, evaporation and condensation in industries ranging from HVAC, refrigeration, engine cooling, dairy and food to heavier processes like chemical processing, oil production and power generation.
The Alfa Laval Compabloc range provides compact and efficient heat transfer for a wide range of clean and dirty process duties. Full and easy cleanability on both circuits makes it the most service friendly welded heat exchanger on the market.
The Alfa Laval portfolio of welded plate-and-shell heat exchangers offer ultimate robustness for challenging high pressure process duties. They are designed for high temperatures and high pressures, primarily for clean process fluids. The units deliver efficient heat transfer with a small footprint, which makes them ideal where space is restricted.