Experimental Comparison of R245fa Falling Film Evaporation in Two Doubly-enhanced Tubes

Zhao Jiapu; Ouyang Xingping; Bai Hua; Li Wei

doi:10.3969/j.issn.0253-4339.2019.04.129

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Experimental Comparison of R245fa Falling Film Evaporation in Two Doubly-enhanced Tubes

更新时间：2024-07-18

- Experimental Comparison of R245fa Falling Film Evaporation in Two Doubly-enhanced Tubes
- Journal of Refrigeration Vol. 40, Issue 4, (2019)
- 作者机构：
  
  上海理工大学制冷及低温工程研究所
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2019.04.129
  CLC：
- Published：2019
- 稿件说明：
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Zhao Jiapu, Ouyang Xingping, Bai Hua, et al. Experimental Comparison of R245fa Falling Film Evaporation in Two Doubly-enhanced Tubes[J]. Journal of refrigeration, 2019, 40(4).
DOI：

Zhao Jiapu, Ouyang Xingping, Bai Hua, et al. Experimental Comparison of R245fa Falling Film Evaporation in Two Doubly-enhanced Tubes[J]. Journal of refrigeration, 2019, 40(4). DOI： 10.3969/j.issn.0253-4339.2019.04.129.

摘要

本文搭建了水平单管降膜蒸发实验台，以R245fa为工质实验研究两种三维翅双侧强化管降膜蒸发的换热特性。提出了新型Wilson-Gnielinski图解法，用于从实验的总传热系数中获得管内外表面传热系数。分析强化管表面结构对换热性能的影响，拟合出管内外换热关联式并提出强化换热方案。结果表明，与光滑管理论表面传热系数相比，Y型管的管内、管外换热强化倍率分别为2.12-2.94和2.27-5.54，T型管的管内、管外强化倍率分别为2.48-2.98和2.58-3.00。Y型管管外换热性能较好，T型管管内换热性能较好。Y型管的最佳喷淋密度（0.14~0.18 kg/(m?s)）比T型管的最佳喷淋密度（0.10 kg/(m?s)左右）大；两种强化管表面传热系数都随热流密度的增加先上升后下降，但Y型管表面传热系数的变化速率较快；两种管子的换热效果都随蒸发温度的升高而增强。

Abstract

The heat transfer performance of two types of doubly enhanced tubes was experimentally studied using R245fa after the horizontal single-tube falling film evaporating test bench was built. The Wilson–Gnielinski graphic method was proposed to obtain the surface heat transfer coefficient of the tubes. The effect of the wall structure on the heat transfer performance was analyzed. The heat transfer correlations inside and outside the tubes were provided

and a fitting optimization scheme was proposed. The results showed that the enhancement rates of in-tube and out-tube heat transfer of the Y tube were 2.12–2.94 and 2.27–5.54

respectively. The internal and external enhancement rates of the T tube were 2.48–2.98 and 2.58–3.00

respectively. The out-tube heat transfer performance of the Y tube and the in-tube heat transfer performance of T tube were better. The heat transfer performance of the Y tube can be reinforced by optimizing its in-tube structure. The best spraying density of the Y tube [0.14–0.18 kg/(m?s)] was higher than that of the T tube [approximately 0.10 kg/(m?s)]. The surface heat transfer coefficient of the two tubes first increased and then decreased with the increase in the heat flux. However

the surface heat transfer coefficient of the Y tube changed more rapidly

which indicated that the thermosyphon boiling phenomenon caused by the smaller fin pitch of the Y tube accelerated the evaporation of refrigerant. The surface heat transfer coefficient of the two tubes increased with the increase in the evaporation temperature.

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Institute of Refrigeration and Cryogenics, University of Shanghai for Science and Technology

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