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矩形通道内气膜出流对内换热的影响规律

丁水汀 侯晓静 徐国强 邓宏武

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文章导航 > 北京航空航天大学学报  > 2007 >  33(04): 418-421.
丁水汀, 侯晓静, 徐国强, 等 . 矩形通道内气膜出流对内换热的影响规律[J]. 北京航空航天大学学报, 2007, 33(04): 418-421.
引用本文: 丁水汀, 侯晓静, 徐国强, 等 . 矩形通道内气膜出流对内换热的影响规律[J]. 北京航空航天大学学报, 2007, 33(04): 418-421.
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Ding Shuiting, Hou Xiaojing, Xu Guoqiang, et al. Film bleeding on internal cooling in rectangular channel[J]. Journal of Beijing University of Aeronautics and Astronautics, 2007, 33(04): 418-421. (in Chinese)
Citation: Ding Shuiting, Hou Xiaojing, Xu Guoqiang, et al. Film bleeding on internal cooling in rectangular channel[J]. Journal of Beijing University of Aeronautics and Astronautics, 2007, 33(04): 418-421. (in Chinese)
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矩形通道内气膜出流对内换热的影响规律

  • 北京航空航天大学 航空发动机气动热力重点实验室, 北京 100083

详细信息
    作者简介:

    丁水汀(1967-),男,辽宁铁岭人,教授,dst@buaa.edu.cn.

  • 中图分类号: V 231.1

Film bleeding on internal cooling in rectangular channel

  • National Key Laboratory on Aero-Engines, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

    摘要
  • 摘要: 研究对象为矩形通道,包括2个直肋和9个气膜孔,主要研究气膜的出流比、开孔率对通道内换热的影响,温度场的测量采用了热色液晶测温技术.实验发现气膜出流对换热有强化作用,气膜孔对通道平均换热影响也与其在肋间的位置有关,其中肋后孔的影响最大.在不同的雷诺数下,开一个气膜孔时,出流比在6%~8%之间通道壁面内换热效果最好,低雷诺数下增强换热的效果显著;研究孔边的换热规律发现,在孔下游换热明显增强,从孔边到下游5倍孔直径处,强化换热比在1.1倍以上;此外还研究了开孔率对增强换热的影响规律.

     

    Abstract: An experimental study was made to obtain heat transfer data in a rectangular channel with two ribs and nine holes. The objectives were to investigate the effect of mass flow ratios and bleed holes area ratio on internal cooling. Test was performed with single bleed hole as well as with multiple holes. Steady-state heat transfer coefficients were obtained using thermochromic liquid crystal. The heat transfer enhancement was observed to largely depend on the placement of bleed hole on the inter-ribs surface. It was found that the area-averaged Nusselt number was enhanced more by placing the bleed hole behind the rib. The best enhancement occurred between 6% and 8%. The heat transfer of effective was improved obviously when the Renolds number was low relatively. Some conclusion can be obtained that the heat transfer was enhanced at the regions from the edge of holes to downstream section. The influence of area flow ratio was also tested. It was found that the best area flow ratio was about 2.5%~3.0%.

     

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    • 参考文献(1)
  • [1] 刘湘云. 有气膜孔和扰流肋的变截面回转通道内流阻与换热特性研究. 北京:北京航空航天大学能源与动力工程 学院,2005 Liu Xiangyun. The experimental research of pressure drop and heat transfer in sectional-cross U-shape duct. Beijing:School of Jet Propulsion, Beijing University of Aeronautics and Astronautics, 2005 (in Chinese) [2] Thurman D, Poinsatte P. Experimental heat transfer and bulk air temperature measurements for a multipass internal cooling model with ribs and bleed[J]. ASME J Turbomachinery, 2001,123:90-96 [3] Byerlry A R, Jones T V, Ireland P T. Internal cooling passage heat transfer near the entrance to a film cooling hole:experimental and computational results. ASME 92-GT-241,1992 [4] Shen J R, Ireland P T. Heat transfer coefficient enhancement in a gas turbine blade cooling passage due to film cooling holes. IMECHE C434/040,1991 [5] Li Li, Ding S T, Xu G Q, et al. Experimental study on heat transfer in the compound cooling passage. ASME GT2006-90250,2006
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出版历程
  • 收稿日期:  2006-05-09
  • 网络出版日期:  2007-04-30

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