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Heat Transfer Optimization for Air-Mist Cooling between a Stack of Parallel Plates 被引量:3

Heat Transfer Optimization for Air-Mist Cooling between a Stack of Parallel Plates
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摘要 A theoretical model is developed to predict the upper limit heat transfer between a stack of parallel plates subject to multiphase cooling by air-mist flow.The model predicts the optimal separation distance between the plates based on the development of the boundary layers for small and large separation distances,and for dilute mist conditions.Simulation results show the optimal separation distance to be strongly dependent on the liquid-to-air mass flow rate loading ratio,and reach a limit for a critical loading.For these dilute spray conditions,complete evaporation of the droplets takes place.Simulation results also show the optimal separation distance decreases with the increase in the mist flow rate.The proposed theoretical model shall lead to a better understanding of the design of fins spacing in heat exchangers where multiphase spray cooling is used.
作者 Roy J.Issa
机构地区 Mechanical Engineering Division
出处 《Journal of Thermal Science》 SCIE EI CAS CSCD 2010年第3期253-260,共8页 热科学学报(英文版)
关键词 Air-mist MULTIPHASE Heat transfer Liquid-to-air loading 喷雾冷却 空气冷却 平行板 热优化 空气质量流量 模型预测 叠加 分离距离
分类号 TK172 [动力工程及工程热物理—热能工程]
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参考文献11

  • 1Yang, W.J., and Clark, D.W.: Spray Cooling of AirCooled Compact Heat Exchangers, International Journal of Heat and Mass Transfer, vol.18, no.2, pp. 311-317, (1975).
  • 2Bhatti, M., and Savery, C.: Augmentation of Heat Transfer in a Laminar External Boundary Layer by the Vaporization of Suspended Droplets, Journal of Heat Transfer, Ser. C, vol.97, no.2, pp. 179-184, (1975).
  • 3Trela, M.: An Approximate Calculation of Heat Transfer during Flow of an Air-Water Mist along a Heated Flat Plate, International Journal of Heat and Mass Transfer, vol.24, no.4, pp. 749-755, (1981).
  • 4Walczyk, H.: Enhancement of Heat Transfer from Air-Fin Coolers with Water Spray, Chemical Engineering and Processing, vol.32, no.2, pp. 131-138, (1993).
  • 5Song, C.H., Lee, D.Y., and Ro, S.T.: Cooling Enhancement in an Air-Cooled Finned Heat Exchanger by Thin Water Film Evaporation, International Journal of Heat and Mass Transfer, vol.46, no.7, pp. 1241-1249, (2003).
  • 6Esterhuyse, B.D., and Kroger, D.G.: The Effect of Ionization of Spray in Cooling Air on the Wetting Characteristics of Finned Tube Heat Exchanger, Applied Thermal Engineering, vol.25, no.17-18, pp. 3129-3137, (2005).
  • 7Novak, V., Sadowski, D.L., Schoonover, K.G, AbdelKhalik, S.I., and Ghiaasiaan, S.M.: Heat Transfer in Two- Component Internal Mist Cooling: Part I. Experimental Investigation, Nuclear Engineering and Design, vol.238, no.9, pp. 2341-2350, (2008).
  • 8Novak, V., Sadowski, D.L., Schoonover, K.G;, AbdelKhalik, S.I., and Ghiaasiaan, S.M.: Heat Transfer in Two- Component Internal Mist Cooling: Part Ⅱ. Mechanistic Modeling, Nuclear Engineering and Design, vol.238, no.9, pp. 2351-2358, (2008).
  • 9Bejan, A., and Sciubba, E.: The Optimal Spacing of Parallel Plates Cooled by Forced Convection, International Journal of Heat and Mass Transfer, vol.35, no.12, pp. 3259-3264, (1992).
  • 10Howarth, L.: On the Solution of Laminar Boundary Layer Equations, Proceedings of the Royal Society of London, Series A, vol.164, no.919, pp. 547-579, (1938).

同被引文献16

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Journal of Thermal Science
2010年 第3期

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