Affiliation:
1. Dalian Jiaotong University
Abstract
In this paper, the mathematical model of a horizontal-tube falling film evaporator that used in air condition and refrigeration system was founded. The evaporative tubes of the evaporator were cold and staggered arrangement. The numerical simulation of the intervascular flow of the oil-bearing refrigerant R134a was carried out, under the conditions of varies flow mode and varies structures of distributed equipment. Under the standard condition of air conditioning, the study of the intervascular two-phase flow characters of the horizontal-tube falling film evaporator were analyzed in the last. The research achievements can provide theoretical laws for relief the effects of the intervascular vapor shear stress on the quality of the liquid film formed outside the evaporative tubes. And the conclusions have practical and guide means for the horizontal-tube falling film evaporator design and evaporative tubes arrangement optimization.
Publisher
Trans Tech Publications, Ltd.
Reference7 articles.
1. Gherhardt Ribatski, Anthony M. Jacobi. Falling-film evaporation on horizontal tubes—a critical review[J]. International Journal of Refrigeration 28(2005)635-653.
2. S.A. Moeykens, J.E. Kelly, M.B. Pate, Spray evaporation heat transfer performance of R-123 in tube bundles, ASHRAE Trans 102 (2) (1996) 259–272.
3. Y. Fujita, M. Tsutsui, Evaporation heat transfer of falling films on horizontal tube. Part 2. Experimental study, Heat Transfer—Jpn Res 24 (1995) 17–31.
4. L.K. Brumfield, T.G. Theofanous, On the prediction of heat transfer across turbulent liquid films, J Heat Transfer 98 (1976) 496–502.
5. W.H. Parken, L.S. Fletcher, Heat transfer in thin liquid films flowing over horizontal tubes, Proceedings of the seventh international heat transfer conference, Munich, vol. 4 1982, p.415–20.
Cited by
1 articles.
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