Condensation of download-flowing HFC134a in a staggered bundle of horizontal finned tubes: Effect of fin geometry

H. Honda; N. Takata; H. Takamatsu; J. S. Kim; K. Usami

doi:10.1016/S0140-7007(01)00023-8

Condensation of download-flowing HFC134a in a staggered bundle of horizontal finned tubes: Effect of fin geometry

H. Honda, N. Takata, H. Takamatsu, J. S. Kim, K. Usami

Thermal Engineering

Research output: Contribution to journal › Article › peer-review

30 Citations (Scopus)

Abstract

Experimental results are presented that show the effect of fin geometry on condensation of refrigerant HFC134a in a staggered bundle of horizontal finned tubes. Two types of conventional low-fin tubes and three types of three-dimensional fin tubes were tested. The refrigerant mass velocity ranged from 8 to 23 kg/m²s and the condensation temperature difference from 1.5 to 12 K. The effect of condensate inundation was more significant for the three-dimensional fin tubes than for the low-fin tubes. In most cases, the highest performance was obtained by the tube with a three-dimensional structure at the tip of low fins. In the case of high mass velocity and high condensate inundation rate, however, the highest performance was obtained by one of the low-fin tubes. The results were compared with previous results for bundles of smooth tubes and low-fin tubes.

Original language	English
Pages (from-to)	3-10
Number of pages	8
Journal	International Journal of Refrigeration
Volume	25
Issue number	1
DOIs	https://doi.org/10.1016/S0140-7007(01)00023-8
Publication status	Published - Jan 2002

All Science Journal Classification (ASJC) codes

Building and Construction
Mechanical Engineering

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10.1016/S0140-7007(01)00023-8

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abstract = "Experimental results are presented that show the effect of fin geometry on condensation of refrigerant HFC134a in a staggered bundle of horizontal finned tubes. Two types of conventional low-fin tubes and three types of three-dimensional fin tubes were tested. The refrigerant mass velocity ranged from 8 to 23 kg/m2s and the condensation temperature difference from 1.5 to 12 K. The effect of condensate inundation was more significant for the three-dimensional fin tubes than for the low-fin tubes. In most cases, the highest performance was obtained by the tube with a three-dimensional structure at the tip of low fins. In the case of high mass velocity and high condensate inundation rate, however, the highest performance was obtained by one of the low-fin tubes. The results were compared with previous results for bundles of smooth tubes and low-fin tubes.",

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T1 - Condensation of download-flowing HFC134a in a staggered bundle of horizontal finned tubes

T2 - Effect of fin geometry

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AU - Takata, N.

AU - Takamatsu, H.

AU - Kim, J. S.

AU - Usami, K.

PY - 2002/1

Y1 - 2002/1

N2 - Experimental results are presented that show the effect of fin geometry on condensation of refrigerant HFC134a in a staggered bundle of horizontal finned tubes. Two types of conventional low-fin tubes and three types of three-dimensional fin tubes were tested. The refrigerant mass velocity ranged from 8 to 23 kg/m2s and the condensation temperature difference from 1.5 to 12 K. The effect of condensate inundation was more significant for the three-dimensional fin tubes than for the low-fin tubes. In most cases, the highest performance was obtained by the tube with a three-dimensional structure at the tip of low fins. In the case of high mass velocity and high condensate inundation rate, however, the highest performance was obtained by one of the low-fin tubes. The results were compared with previous results for bundles of smooth tubes and low-fin tubes.

AB - Experimental results are presented that show the effect of fin geometry on condensation of refrigerant HFC134a in a staggered bundle of horizontal finned tubes. Two types of conventional low-fin tubes and three types of three-dimensional fin tubes were tested. The refrigerant mass velocity ranged from 8 to 23 kg/m2s and the condensation temperature difference from 1.5 to 12 K. The effect of condensate inundation was more significant for the three-dimensional fin tubes than for the low-fin tubes. In most cases, the highest performance was obtained by the tube with a three-dimensional structure at the tip of low fins. In the case of high mass velocity and high condensate inundation rate, however, the highest performance was obtained by one of the low-fin tubes. The results were compared with previous results for bundles of smooth tubes and low-fin tubes.

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Condensation of download-flowing HFC134a in a staggered bundle of horizontal finned tubes: Effect of fin geometry

Abstract

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