The distance and height of fin and tube heat exchanger mainly affect the fin ratio, which is closely related to the film heat transfer coefficient of the medium inside and outside the tube. If there is a big difference in the heat transfer coefficient between the inner and outer film of the tube, the finned tube with larger fin ratio should be selected. When one side of the medium has phase change, the difference of heat transfer coefficient will be larger. The fin spacing mainly considers the factors such as dust deposition, dust deposition and cleaning, and strictly meets the requirements of equipment for pressure drop. When placing, the distance between pipes is not easy to be too large, generally more than 1 mm is suitable for pipe laying. In the process of heat transfer, when the air flows through the finned tube heat exchanger, the positive and negative surfaces of the fins participate in the heat transfer. Only a small amount of radiation heat transfer is needed in the center of two finned tubes, so the heat transfer effect is not good. In the process of air heating, the cold air without heat exchange will be neutralized with the heated air passing through the center of fin, which will affect the heat transfer effect.
The tubes of finned tube heat exchanger should be placed alternately according to regular triangle as far as possible. When the second row of fins is not subjected to rebound, there is a phenomenon of no heat transfer in the second row of fins. Therefore, do not place isosceles triangle, try not to use square.
The pressure drop on the air side is a very important parameter in the planning, which is closely related to the placement of finned tubes. When planning the placement of finned tubes, the ratio of narrow gap flow surface to windward surface should be calculated, so as to calculate the air mass velocity according to the frontal wind speed, and calculate the friction coefficient with respect to the dynamic viscosity of air at different temperatures.
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