Structure and performance

1. This device is made up of two rolls, forming two uniform spiral channels. The two heat transfer media can flow in full reverse flow, greatly enhancing the heat transfer effect. Even with two small temperature difference media, ideal heat transfer effect can be achieved.

2. The connecting pipe on the shell adopts a tangential structure, which has low local resistance. Due to the uniform curvature of the spiral channel, the liquid flow in the equipment does not have significant turning, resulting in low overall resistance. Therefore, the design flow rate can be increased to have high heat transfer capacity.

3. The end face of the spiral channel of Type I non detachable spiral plate heat exchanger is sealed by welding, thus it has high sealing performance.

4. The structural principle of Type II detachable spiral plate heat exchanger is basically the same as that of non detachable heat exchanger, but one of the channels can be disassembled for cleaning, which is particularly suitable for heat exchange with viscous and precipitated liquids.

5. The structural principle of Type III detachable spiral plate heat exchanger is basically the same as that of non detachable heat exchanger, but its two channels can be disassembled for cleaning, which has a wider range of applications.

6. Spiral plate heat exchangers can be classified according to nominal pressure into PN0.6, 1.0, 1.6, and 2.5MPa (referring to the maximum working pressure that a single channel can withstand). According to the material, it can be divided into carbon steel and stainless steel. Users can choose according to the actual process situation.

7. When a single device cannot meet the usage requirements, multiple devices can be combined for use, but the combination must comply with the following regulations:

Parallel combination, series combination, with the same equipment and channel spacing. Mixed combination: one channel in parallel and one channel in series.