In a heat exchanger composed of ordinary steel pipes (smooth tubes), in many cases, the heat transfer coefficient of the fluid outside the tube and the fluid inside the tube to the tube wall is different. The so-called heat transfer coefficient refers to the heat transfer amount per unit heat transfer area and unit temperature difference (the temperature difference between the fluid and the wall). It represents the heat transfer capacity between the fluid and the wall. For example: The heat transfer coefficient when water condenses on the wall is: 10000-20000w/(m2. ℃) The heat transfer coefficient when water is boiling on the wall is: 5000----10000---- when the water flows through the wall The heat transfer coefficient is approximately: 2000----10000---- The heat transfer coefficient when air or flue gas flows through the wall is: 20----80---- The heat transfer coefficient when air is naturally convective is only: 5----10---- It can be seen that the difference in heat transfer capacity...
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