Three aspects of the heat exchange tube directly affect the h§eat exchange problem of the heat exchanger!

The three aspects of the heat exchange tube directly affect the heat exchange problem of <the heat exchanger! Heat exchange tube: heat exchange tube is now closely related to our lifσe, and it is one of the main components of stainless steel tube heat exchanger, if there is no he>at exchange tube, then the heat exchanger can not work. So in which aspects will t®he heat exchange tube affect the heat exchange effect? Let's focus on this topic:

1. Material: carbon steel, low alloy steel, stainless steel, cop‌per, copper nickel alloy, aluminum alloy, titanium and other commonly used heat exchange tube mate↔rial; Graphite, ceramic and polytetrafluoroethylene are non-metallic mater≈ials. Because most of the medium to be transmitted in the heat exchan≤ger is hot water or corrosive liquid, therefore, if the choice of copper λtube heat exchange tube, the oxide layer of copper tube will increase w∏ith the growth of the use of time, the thicker the thickness, the more internal dirt, the worseσ the heat transfer effect, even if slow oxidation, s₩tainless steel will not be oxidized. In addition, according to the law of th∞ermal conductivity and thermal resistance, thermal conductivity will not change, and the smal ler the thickness of the wall of the tube, the smaller the thermal resistance, and the greater the  heat transfer coefficient. Due to the reasons of strength and wear, the wall thicknes÷s of copper tube can not be less than 1.2mm, the wall thickness of φstainless steel tube can be thin to about 0.5-0.8mm, so now people mostly choose stainles→s steel tube as heat exchange tube.

2. Thickness and shape of inner wall: stainless steel nodal tube is commonly used in← heat exchange equipment. Enhanced heat transfer can be achieved through its unique ultra-thin wall₹ nodal tube. The height difference between the crest and trough of ♦the wave makes the fluid strongly disturbed, even if the flow velocity is very low, it can a&lso make the fluid in a turbulent state. At the same time, the temperature gradient of the fin e tube wall is small, which greatly reduces the thermal resistance of the tub♠e wall and improves the heat transfer coefficient inside and outsid"e the tube, thus increasing the total heat transfer coefficient.

3. Surface smoothness: compared with the heat exchange tube, when the threaded tube i♥s used as the heat exchange tube, during the formal heat exchange process, the medium flowing  in the threaded tube will rotate along the threaded tube around its radius of curvature, ±resulting in the tube is radial and circumferential. The secondary ref≈lux along the flow direction makes the convective heat transfer coefficient larger, so th✘e heat transfer effect of threaded tubes is better, therefore, we see every day in the 'industrial production of heat exchange tubes are mostly stainless steel threade≈d tubes.

The above three points are the main reasons affecting the heat exchange tube.