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
What are the advantages of Brazed Plate Heat Exchanger?
· High heat transfer efficiency
· Compact structure
· Compact structure
· Easy installation
· Easy Deinstallation
· Durability
Frame material | Carbon steel/stainless stell | ||
Plate material | SS304, SS316L, Nickel | ||
End plate material | SS304 | ||
BPHE material | copper | ||
Connection material | SS304 | ||
Design pressure | 3.5M/Pa | ||
Testing pressure | 4.5M/pa |
Delivery pictures
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
What are the advantages of Brazed Plate Heat Exchanger?
· High heat transfer efficiency
· Compact structure
· Compact structure
· Easy installation
· Easy Deinstallation
· Durability
Frame material | Carbon steel/stainless stell | ||
Plate material | SS304, SS316L, Nickel | ||
End plate material | SS304 | ||
BPHE material | copper | ||
Connection material | SS304 | ||
Design pressure | 3.5M/Pa | ||
Testing pressure | 4.5M/pa |
Delivery pictures
Plate heat exchangers have been widely used in central heating, food, machinery, metallurgy, the petrochemical industry, and ships, and have become the leading heat exchange equipment in urban central heating projects. In order to ensure the normal operation of the plate heat exchanger and prolong the service life of key components, it is especially important to understand the failures of the plate heat exchanger, their causes, and treatment methods. The following is a description of how to deal with the heat exchanger when the pressure drop is too large.
Plate heat exchangers were first put into commercial production in the 1930s and are now being used more and more widely in water supply, heating, and air conditioning projects in industrial and civil buildings. The correct selection of plate heat exchangers can ensure the smooth implementation and use of the project. Here we introduce how to select the heat exchanger.
With increasing use, the heat exchanger's heat transfer efficiency will inevitably be affected, thus affecting normal operation. There are many reasons for the low heat transfer efficiency of plate heat exchangers. Because we all know that the plate heat exchanger heat transfer efficiency is very high, and this is one of the reasons why people often choose it. Today we will discuss this issue.
Even a plate heat exchanger can have problems during the course of a year and require maintenance, especially its seals, to see if it has loosened.
The plate heat exchanger is a new type of high-efficiency heat exchanger made of metal sheets with certain corrugated shapes stacked on top of each other. A thin rectangular channel is formed between the various plates, and heat is exchanged through the plates. The plate heat exchanger is an ideal equipment for liquid-to-liquid and liquid-to-vapor heat exchange.
Heat exchangers are devices used to transfer heat from a hot fluid to a cold fluid to meet specified process requirements and are an industrial application of convective heat transfer and heat conduction. Heat exchangers can be classified in different ways. Its operation process can be divided into three main categories: inter-wall, hybrid, and heat storage. According to its surface compactness can be divided into two categories: compact and non-compact. Next, let's learn about the history of heat exchanger development.
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