旋流冷却涡轮叶片气膜冷却孔直径对总冷却效率影响的实验研究

IF 1.1 Q4 ENGINEERING, MECHANICAL Journal of the Global Power and Propulsion Society Pub Date : 2023-06-30 DOI:10.33737/jgpps/165825
Dogan Bicat, Katharina Stichling, Maximilian Elfner, Hans-Jörg Bauer, Knut Lehmann
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引用次数: 0

摘要

旋风冷却是一种有前途的更有效的涡轮转子叶片内部冷却方法,它简化了内部通道,包括旋涡流,以增强内部传热。以前的研究已经得出结论,提高冷却性能需要一个适应的膜冷却设计,量身定制的旋风冷却应用。本文利用红外热成像技术对具有旋风冷却设计等现实复杂特征的涡轮转子叶片表面温度进行了研究。目的是分析增大气膜冷却孔直径对旋风冷却叶片表面温度的影响。为此,增加了叶片前缘由旋风通道供给的孔的直径。在不同的冷却剂质量流量和旋流数下进行了试验。此外,还进行了CFD模拟,分析了冷却空气的空气动力学特性。试验结果表明,增大气膜冷却孔的直径可以降低叶片前缘的表面温度,但对叶片剩余表面的温度有不利影响。这可以用重新分配供给的冷却剂来解释。当产生低涡流时,前缘冷却效率的提高幅度最大。
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Experimental investigation of the influence of film cooling hole diameter on the total cooling effectiveness for cyclone-cooled turbine blades
Cyclone cooling is a promising method for a more effective internal cooling of turbine rotor blades with simplified internal channels including a swirling flow to enhance internal heat transfer. Previous studies have led to the conclusion that improving the cooling performance requires an adapted film cooling design, tailored to the cyclone cooling application. In this paper, a turbine rotor blade with realistic, complex features including the cyclone cooling design is investigated experimentally using infrared thermography to capture surface temperature. The objective is to analyze the influence of increased film cooling hole diameter on a cyclone-cooled blade’s surface temperature. For this purpose, the diameter of the holes at the blade’s leading edge, which are fed by the cyclone channel, is increased. The tests are performed for different coolant mass flow rates and swirl numbers. Additionally, CFD simulations are performed to analyze the aerodynamics of the cooling air. The test results show that the surface temperature at the leading edge can be decreased by increasing the diameter of the film cooling holes, however, adversely affecting the remaining blade surface. This can be explained by a redistribution of the supplied coolant. The increase of cooling effectiveness at the leading edge is at the highest when a low swirl is generated.
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来源期刊
Journal of the Global Power and Propulsion Society
Journal of the Global Power and Propulsion Society Engineering-Industrial and Manufacturing Engineering
CiteScore
2.10
自引率
0.00%
发文量
21
审稿时长
8 weeks
期刊最新文献
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