Heat Transfer in a Rotating Cooling Channel (AR = 2:1) With Rib Turbulators and a Tip Turning Vane

Andrew F. Chen; Hao-Wei Wu; Nian Wang; Je-Chin Han

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Heat Transfer in a Rotating Cooling Channel (AR = 2:1) With Rib Turbulators and a Tip Turning Vane

机译：旋转冷却通道（AR = 2：1）中带有肋湍流器和尖端旋转叶片的传热

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Experimental investigation on rotation and turning vane effects on heat transfer was performed in a two-pass rectangular internal cooling channel. The channel has an aspect ratio of AR = 2:1 and a 180 deg tip-turn, which is a scaled up model of a typical internal cooling passage of gas turbine airfoils. The leading surface (LS) and trailing surface (TS) are roughened with 45 deg angled parallel ribs (staggered P/e = 8, e/D _( h ) = 0.1). Tests were performed in a pressurized vessel (570 kPa) where higher rotation numbers (Ro) can be achieved with a maximum Ro = 0.42. Five Reynolds numbers (Re) were examined (Re = 10,000–40,000). At each Reynolds number, five rotational speeds ( Ω = 0–400 rpm) were considered. Results showed that rotation effects are stronger in the tip regions as compared to other surfaces. Heat transfer enhancement up to four times was observed on the tip wall at the highest rotation number. However, heat transfer enhancement is reduced to about 1.5 times with the presence of a tip turning vane at the highest rotation number. Generally, the tip turning vane reduces the effects of rotation, especially in the turn portion.

机译：在两通道矩形内部冷却通道中进行了旋转叶片和叶片对传热影响的实验研究。该通道的纵横比为AR = 2：1，旋转角度为180°，是燃气涡轮机翼型典型内部冷却通道的放大模型。前表面（LS）和后表面（TS）用45°倾斜的平行肋（交错的P / e = 8，e / D _（h）= 0.1）粗化。试验是在一个压力容器（570 kPa）中进行的，在该容器中可以达到更高的转速（Ro），最大Ro = 0.42。检查了五个雷诺数（Re）（Re = 10,000–40,000）。在每个雷诺数下，考虑了五种旋转速度（Ω== 0-400 rpm）。结果表明，与其他表面相比，在尖端区域的旋转效果更强。在最高转数下，在尖端壁上观察到高达四倍的传热增强。然而，在最高转数下存在尖端旋转叶片时，传热增强降低到约1.5倍。通常，尖端转向叶片减小旋转的影响，尤其是在转向部分。

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来源
《Journal of Heat Transfer》 |2018年第10期|102007.1-102007.10|共10页
作者
Andrew F. Chen; Hao-Wei Wu; Nian Wang; Je-Chin Han;
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作者单位

Turbine Heat Transfer Laboratory,Department of Mechanical Engineering,Texas A&M University;

Turbine Heat Transfer Laboratory,Department of Mechanical Engineering,Texas A&M University;

Turbine Heat Transfer Laboratory,Department of Mechanical Engineering,Texas A&M University;

Fellow ASMETurbine Heat Transfer Laboratory,Department of Mechanical Engineering,Texas A&M University;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Rotation; Flow (Dynamics); Heat transfer; Cooling; Turning vanes; Reynolds number;

机译：旋转;流动（动力学）;传热;冷却;转向叶片;雷诺数;
入库时间 2022-08-18 00:21:22

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1. Heat Transfer in Two-Pass Rotating Rectangular Channels (AR=1:2 and AR=1:4) With 45 Deg Angled Rib Turbulators [J] . Wen-Lung Fu, Lesley M. Wright, Je-Chin Han Journal of turbomachinery . 2005,第1期

机译：具有45度角肋肋湍流器的两遍旋转矩形通道（AR = 1：2和AR = 1：4）中的热传递
2. Effect of Channel Orientation on Heat Transfer in Rotating Rectangular Channel (AR=4) with 90o Rib Turbulators [J] . Jalal M. Jalil, Fouad A. Saleh, Saib A. Hamid Al-Jubury International Journal of Engineering Trends and Technology . 2016,第3期

机译：通道取向对带有90o肋形湍流器的旋转矩形通道（AR = 4）中传热的影响
3. Effect of Channel Orientation on Heat Transfer in Rotating Rectangular Channel (AR=4) with 90o Rib Turbulators [J] . Jalal M. Jalil, Fouad A. Saleh, Saib A. Hamid Al-Jubury International Journal of Engineering Trends and Technology . 2016,第3期

机译：通道取向对带有90o肋形湍流器的旋转矩形通道（AR = 4）中传热的影响
4. Heat Transfer in Two-Pass Rotating Rectangular Channels (AR = 1:2 and AR = 1:4) with 45° Angled Rib Turbulators [C] . Wen-Lung Fu, Lesley M. Wright, Je-Chin Han American Society of Mechanical Engineers(ASME) Turbo Expo vol.3; 20040614-17; Vienna(AT) . 2004

机译：带有45°角肋湍流器的两遍旋转矩形通道（AR = 1：2和AR = 1：4）中的热传递
5. Computation of heat transfer in turbine rotor blade cooling channels with angled rib turbulators. [D] . Flynt, Guy Austin. 2013

机译：带有角肋湍流器的涡轮转子叶片冷却通道中的传热计算。
6. Conjugate Heat Transfer Investigation on Swirl-Film Cooling at the Leading Edge of a Gas Turbine Vane [O] . Haifen Du, Ziyue Mei, Jiayao Zou, 2019

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7. Computation of heat transfer in turbine rotor blade cooling channels with angled rib turbulators [O] . Flynt Guy Austin 2013

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8. Local heat/mass transfer and pressure drop in a two-pass rib-roughened channel for turbine airfoil cooling [R] . Han, J. C., Chandra, P. R. 1987

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Heat Transfer in a Rotating Cooling Channel (AR = 2:1) With Rib Turbulators and a Tip Turning Vane

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