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Prediction of heat transfer coefficient on the fin inside one-tube plate finned-tube heat exchangers.

Author(s) : CHEN H. T., SONG J. P., WANG Y. T.

Type of article: Article

Summary

The finite difference method in conjunction with the least-squares scheme and the experimental temperature data is proposed to predict the average heat transfer coefficient and the fin efficiency on the fin inside one-tube plate finned-tube heat exchangers for various air speeds and the temperature difference between the ambient temperature and the tube temperature. Previous works showed that the heat transfer coefficient on this rectangular fin is very non-uniform. Thus the whole plate fin is divided into several sub-fin regions in order to predict the average heat transfer coefficient and the fin efficiency on the fin from the knowledge of the fin temperature recordings at several selected measurement locations. The results show that the surface heat flux and the heat transfer coefficient on the upstream region of the fin can be markedly higher than those on the downstream region. The fin temperature distributions depart from the ideal isothermal situation and the fin temperature decreases more rapidly away from the circular centre, when the frontal air speed increases. The average heat transfer coefficient on the fin increases with the air speed and the temperature difference between the ambient temperature and the tube temperature. This implies that the effect of the temperature difference between the tube temperature and the ambient temperature is not negligent.

Details

  • Original title: Prediction of heat transfer coefficient on the fin inside one-tube plate finned-tube heat exchangers.
  • Record ID : 2005-1742
  • Languages: English
  • Source: International Journal of Heat and Mass Transfer - vol. 48 - n. 13
  • Publication date: 2005/06

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