The structure of the galvanized wound fin tube is mainly composed of fins, core tubes and shells. The fin is the core part of the finned tube, which is made of high-temperature corrosion-resistant alloy material and welded together with the core tube and shell through a high-frequency welding process. The advantages of this structure are that it can improve the heat transfer efficiency and reduce heat loss, and at the same time, it can also increase the heat dissipation area and reduce the volume of the finned tube.
Next, let's take a look at the working principle of galvanized winding finned tube, it is mainly through heat conduction and convective heat transfer when the air circulates in the finned tube, when the air flows through the finned tube, the heat in the air will be absorbed by the fins and transferred to the outer surface of the finned tube, and then the heat will be dissipated to the external environment through the convection heat transfer of the air. The advantage of this working principle is that it can improve the heat exchange efficiency of the equipment, reduce energy consumption, and at the same time extend the service life of the equipment.
This galvanized spiral fin tube is often used in industry, agriculture, light industry, medicine and other fields, and the finned tube heat exchanger has strong adaptability and can act in any complex and harsh environment.