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How does the inclined three-layer tube aluminum tube fin evaporator improve the discharge of condensate water?

Publish Time: 2024-04-12
The inclined three-layer tube aluminum tube fin evaporator effectively improves the discharge of condensate water through its unique design. Here are a few explanations on how the sloping three-layer structure promotes condensate drainage:

Gravity guidance: The design of the inclined three-layer structure creates a certain tilt angle between the fins and the horizontal plane. When condensation water forms and flows on the surface of the fins, this inclination angle allows the condensation water to flow smoothly down the surface of the fins, using the action of gravity to naturally drain to the bottom of the evaporator or a specific drain outlet.

Diversion effect: The inclined three-layer structure not only provides gravity guidance, but also effectively diverts condensed water. Because the fins are multi-layered and inclined, condensate water can flow separately on different levels, avoiding the formation of water accumulation or blockage on a single level. This diverting action helps keep the fin surfaces clean and dry, improving the overall performance of the evaporator.

Drainage path optimization: The design of the inclined three-layer structure can optimize the drainage path of condensed water. By rationally arranging fins and pipes, it is possible to ensure that condensate water can flow along a predetermined path, reducing unnecessary bends and obstructions, thereby improving drainage efficiency.

Reduce water retention: Water retention is one of the common causes of evaporator performance degradation. The inclined three-layer structure effectively reduces water retention on the fins through its inclined design. Condensed water can flow away quickly, reducing the possibility of water retention on the fin surface, thereby avoiding increased thermal resistance and performance degradation caused by water retention.

In summary, the inlined three-layer tube aluminum tube fin evaporator significantly improves the discharge effect of condensed water through gravity guidance, diversion effect, drainage path optimization and reduction of water retention. This design helps improve the evaporator's heat exchange efficiency, reduce energy consumption and extend the service life of the equipment.
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