材料科学
鳍
压力降
传热
热交换器
环形翅片
强化传热
机械
冷凝
强化传热
复合材料
传热系数
热力学
物理
作者
Guifeng Gao,Fei Wang,Yongzhang Cui
出处
期刊:Thermal Science
[Vinča Institute of Nuclear Sciences]
日期:2020-01-01
卷期号:24 (5 Part A): 2743-2756
被引量:5
标识
DOI:10.2298/tsci191105008g
摘要
A stainless steel corrugated fins and flat-tube heat exchanger is designed, which has a plate-fin structure. To optimize the structural parameters of this exchanger, including corrugation angle, corrugation pitch and fin length, 3-D simulation model and test were proposed. The numerical results indicated that the corrugation angle significantly affects both on heat transfer performance and pressure drop. The fin with angle, A = 0~20?, have demonstrated the higher heat transfer efficiency, lesser gas condensation, lower pressure drop, higher outlet flue gas temperature in low T region, and no exceeding the distortion temperature in high T region. Corrugation pitch and fin length influence thermal and hydraulic characteristics, outlet flue gas temperature, and fin temperature. To improve heat transfer performance, and reduce the fin temperature in high T region and ease gas condensation in low T region, smaller corrugation pitch and shorter fin length were recommended in the low T region, whereas higher values were more reasonable in high T region. Noticeably, the heat transfer and flow characteristics were better in the high T region than the low T region. Therefore, higher priority should be given to the structural optimization in the high T region in order to in-crease the heat transfer enhancement
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