燃机内部冷却的目标是采用更小的流量和压力损失实现通道对流传热系数的提高,并利用均匀的冷却减小热应力.本文采用数值模拟手段,研究了局部冲击冷却对带侧向出流的尾缘双流程通道传热和压损的影响.研究表明:动叶尾缘通道由于侧向出流,在页顶出现一个显著的大回流涡,当地传热系数低,易造成叶片局部温度和热应力偏高.通过在U型通道的隔板布置冲击孔,可以有效地减小通道中分离涡的影响,提高通道末端的传热,并在对通道平均传热系数影响不大的前提下,显著降低通道阻力.使射流与靶面尽量垂直有助于达到最好的冷却效果.
参考文献
| [1] | M. E. Taslim;A. Nongsaeng .Experimental and Numerical Cross-Over Jet Impingement in an Airfoil Trailing-Edge Cooling Channel[J].Journal of turbomachinery,2011(4):041009-1-041009-10. |
| [2] | Filippo Coletti;Manfredi Scialanga;Tony Arts .Experimental Investigation of Conjugate Heat Transfer in a Rib-Roughened Trailing Edge Channel With Crossing Jets[J].Journal of turbomachinery,2012(4):041016-1-041016-11. |
| [3] | Gautam Pamula;Srinath V. Ekkad;Sumanta Acharya .Influence of Crossflow-Induced Swirl and Impingement on Heat Transfer in a Two-Pass Channel Connected by Two Rows of Holes[J].Journal of turbomachinery,2001(2):281-287. |
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