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HIGH RESOLUTION FILM COOLING EFFECTIVENESS COMPARISON OF AXIAL AND COMPOUND ANGLE HOLES ON THE SUCTION SIDE OF A TURBINE VANE

机译：高分辨率膜冷却效果比较涡轮叶片吸入侧的轴向和复合角孔

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Film cooling adiabatic effectiveness for axial and compound angle holes on the suction side of a simulated turbine vane was investigated to determine the relative performance of these configurations. The effect of the surface curvature was also evaluated by comparing to previous curvature studies and flat plate film cooling results. Experiments were conducted for varying coolant density ratio, mainstream turbulence levels, and hole spacing. Results from these measurements showed that for mild curvature, 2r/d ≈ 160, flat plate results are sufficient to predict the cooling effectiveness. Furthermore, the compound angle injection improves adiabatic effectiveness for higher blowing ratios, similar to previous studies using flat plate facilities.

机译：研究了模拟涡轮叶片的吸入侧的轴向和复合角孔的薄膜冷却绝热效能，以确定这些配置的相对性能。还通过比较先前的曲率研究和平板膜冷却结果来评估表面曲率的效果。进行实验，用于不同的冷却剂密度比，主流湍流水平和孔间距。由这些测量结果表明，对于温和的曲率，2r /d≈160，平板结果足以预测冷却效果。此外，复合角注射可提高更高吹吹量的绝热效果，类似于使用平板设施的先前研究。

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《ASME TURBO EXPO》|2006年||共9页
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作者
Scot K. Waye; David G. Bogard;
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原文格式 PDF
正文语种
中图分类 T-53;
关键词
Film cooling; Compound angle; Curvature; Turbine vane;

机译：薄膜冷却;复合角;曲率;涡轮叶片;

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专利

1. High-Resolution Film Cooling Effectiveness Comparison of Axial and Compound Angle Holes onthe Suction Side of a Turbine Vane [J] . Scot K. Waye, David G. Bogard Journal of turbomachinery . 2007,第2期

机译：涡轮叶片吸入侧轴向孔和复合角孔的高分辨率薄膜冷却效果比较
2. Film-Cooling Performance of a Turbine Vane Suction Side: The Showerhead Effect on Film-Cooling Hole Placement for Cylindrical and Fan-Shaped Holes [J] . Hossein Nadali Najafabadi, Matts Karlsson, Mats Kinell, Journal of turbomachinery . 2015,第9期

机译：涡轮叶片吸入侧的薄膜冷却性能：莲蓬头对圆柱孔和扇形孔薄膜冷却孔位置的影响
3. Turbine Vane Endwall Film Cooling Comparison From Five Film-Hole Design Patterns and Three Upstream Injection Angles [J] . Shiau Chao-Cheng, Sahin Izzet, Wang Nian, Journal of Thermal Science and Engineering Applications: Transactions of the ASME . 2019,第3期

机译：涡轮叶片端壁薄膜冷却比较五个膜孔设计图案和三个上游注射角度
4. HIGH RESOLUTION FILM COOLING EFFECTIVENESS COMPARISON OF AXIAL AND COMPOUND ANGLE HOLES ON THE SUCTION SIDE OF A TURBINE VANE [C] . Scot K. Waye, David G. Bogard ASME TURBO EXPO . 2006

机译：高分辨率膜冷却效果比较涡轮叶片吸入侧的轴向和复合角孔
5. Experimental Study of Film Cooling and Heat Transfer on a Gas Turbine Vane with Shaped Holes [D] . Elnady, Tarek 2010

机译：异形孔涡轮叶片冷却与传热的实验研究
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

机译：燃气轮机叶片前缘旋流膜冷却的共轭传热研究
7. Film Cooling Effectiveness in the Showerhead Region of a Gas Turbine Vane: Part II — Stagnation Region and Near-Suction Side [O] . Virginia C. Witteveld, Marc D. Polanka, David G. Bogard 1999

机译：燃气轮机叶片的喷头区域膜冷却效果：第二部分 - 停滞区域和近吸侧

HIGH RESOLUTION FILM COOLING EFFECTIVENESS COMPARISON OF AXIAL AND COMPOUND ANGLE HOLES ON THE SUCTION SIDE OF A TURBINE VANE

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