What Is A Plate Heat Exchanger?
Plate heat exchangers (or PHEs) were invented in 1923 by Dr Richard Seligman and changed the way that fluids were indirectly heated and cooled. A plate heat exchanger utilises metal plates in order to transfer heat between two fluids making it a better choice than a conventional heat exchanger since the fluids have exposure to a greater surface area as they spread across the plates. As this facilitates heat transfer, the speed of warming increases. It is for this reason that plate heat exchangers are now becoming more common, with small brazed versions being used inside combination boilers and many larger buildings relying on them entirely for the supply of their hot water, using gaskets between the two plates.
How Do Plate Exchangers Work
Plate exchangers transfer heat from one fluid to another via a sectional division. They are made from plates that have hollow spaces between them. This space forms ducts through which the fluids can flow, thus exchanging heat via the plates. There may be a varying number of plates inside a heat exchanger depending on its kW (heat exchange capacity). The more plates used in the PHE, the bigger its capacity.
What Are The Advantages Of A Plate Heat Exchanger?
This type of heat exchanger are becoming more popular in both domestic and commercial applications as they take up very little room. They can be used either in their own right or as part of another heating system such as a combination boiler. The benefits of Plate Heat Exchangers include the fact that they come in several different sizes to accommodate different applications and the amount of heat transfer for their size is extremely efficient with PHEs offering unlimited supply options.
Biomass Boiler Flushing
Buffer Vessel Cleaning
Heat Interface Units
De-scaling and De-sludging Of Plate Heat Exchangers
Air Handling Units, Cleaning Of Coils
Disadvantages Of Plate Heat Exchangers
While plate heat exchangers offer many advantages for both commercial and domestic customers, there are some disadvantages. One of their main downsides is that they require regular maintenance, and the larger the exchanger, the more maintenance it will require.
Because of the high flow rate and rapid interchange involved with plate heat exchangers, debris builds up quickly in the system and the larger amounts of scale deposits begin to form over time. This means that regular cleaning must be carried out in order to ensure that the heating system continues to function effectively and to its optimal level.
Cleaning Of Plate Heat Exchangers
Plate heat exchangers must be cleaned regularly in order to remove scale and debris from the system that can prevent it from working properly to produce heat. We are able to effectively carry out this process by disassembling the plate heat exchanger, removing the plates from the system and pressure washing both sides of the plate in order to remove any build up which has formed on their surface. Our chemical cleaning solution removes all contaminants from the surfaces of the plates keeping them in top working order and avoiding potential future problems that can occur with a poorly maintained system.