Korean Journal of Air-Conditioning and Refrigeration Engineering (설비공학논문집)

The Society of Air-Conditioning and Refrigerating Engineers of Korea (대한설비공학회)
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Falling Film Heat Transfer on a Horizontal Single Tube

수평단관 상의 유하액막 열전달

  • 김동관 (큐슈대학 기능물질과학연구소) ;
  • 김무환 (포항공과대학교 기계공학과)
  • Published : 2000.07.01
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Abstract

Falling film heat transfer analyses with aqueous lithium bromide solution were peformed to investigate the transfer characteristics of the copper tubes. Finned(knurled) tube and a smooth tube were selected as test specimens. Averaged generation fluxes of water and the heat transfer performances(heat flux, heat transfer coefficient) were obtained. The results of this work were compared with the data reported previously. As the film flow rate of the solution increased, the generation fluxes of water decreased for both tubes. The reason is estimated by the fact that the heat transfer resistance with the film thickness increased as the film flow rate increased. The effect of the enlarged surface area at the knurled tube was supposed to be dominant at a small flow rate. The generation fluxes of water increased with the increasing degree of tube wall superheat. Nucleate boiling is supposed to occur at a wall superheat of 20 K for a smooth tube, and at 10 K for a knurled tube. The heat transfer performance of the falling film was superior to pool boiling at a low wall superheat below 10 K for both tubes tested. The knurled tube geometry showed good performance than the smooth tube, and the increased performance was mainly came from the effect of the increased heating surface area.

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References

  1. Absorption Chillers and Heat Pumps Herold, K.;Radermacher, R.;Klein, A.
  2. Multi-Effect Absorption Chillers v.16 no.5 Ziegler, F.(ed.)
  3. Heat Transfer-Japanese Research v.24 no.1 Effect of Surface Geometry in Steam Absorption into a Falling Film of Aqueous Solution of LiBr Kiyota, M.(ed.)
  4. Falling Liquid Films in Absorption Machines v.16 no.4 Fujita, T.
  5. Refrigeration v.57 no.653 Result of Boiling Experiments for Solar-Powered Absorption Type Chiller Ishibashi, E.;Iwasaki, K.
  6. Heat Transfer Research v.4 Pool Boiling Heat Transfer to Lithium Bromide Water Solutions under Vacuum Nishimatsu, A.;Tajima, O.;Tsuji, H.;Suganuma, S.
  7. Heat Transfer Research v.7 Pool Boiling Heat Transfer to Lithium Bromide Water Solution Ohnishi, M.(ed.)
  8. Journal of Heat Transfer v.115 Journal of Heat Transfer Policy on Reporting Uncertainties in Experimental Measurements and Results Jong H. Kim;Terrence, W. Simon