What is the heat transfer principle of steel light pipe radiator?The heat transfer principle of the steel light pipe radiator mainly relies on the hot water or steam flowing in the pipe, and transfers the heat to the indoor air through heat conduction and heat radiation. Specifically, the heat transfer process can be broken down into the following steps:
First of all, the external structure of the light pipe radiator consists of a series of steel pipes arranged side by side, which are usually made of high-quality steel with good corrosion resistance and bearing capacity. Hot water or steam flows inside the steel pipe, and these media are heated by the heating equipment and enter the radiator.
Secondly, the heat is transferred to the air outside the tube through the inner wall of the steel pipe. In this process, the contact area between the inner wall of the steel pipe and the heat medium directly affects the heat transfer efficiency. Due to the large area of the inner wall of the steel pipe, heat can be quickly transferred to the air outside the pipe.
Thirdly, heat is transferred to the air in the room by means of thermal radiation. When the temperature of the inner wall of the steel pipe rises, the heat will radiate to the surrounding space in the form of electromagnetic waves, causing the indoor air temperature to gradually increase. At the same time, the flow of indoor air also accelerates the transfer and diffusion of heat.
Finally, the increase in indoor temperature will reduce the humidity of the indoor air, which will make the human body feel more comfortable. In addition, the advantages of high heat transfer efficiency, large heat dissipation area and long service life of the optical pipe radiator also make it one of the widely used heat dissipation equipment in modern buildings.
In short, the heat transfer principle of steel light pipe radiator mainly relies on heat conduction and heat radiation to transfer heat to the indoor air. Understanding this principle helps us better understand the performance and use of radiators, and also provides us with a basis for selecting and using radiators.