SIMULATION FILM COOLING IN THE LEADING EDGE REGION OF A TURBINE BLADE (TRENCH EFFECT ON FILM EFFECTIVENESS FROM CYLINDER IN CROSSFLOW)

机译：涡轮叶片前缘区域的仿真膜冷却（沟槽效果从十字流中的膜效果）

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Film cooling is one of the cooling techniques applied to the turbine blade. Gas turbine used film cooling technique to protect turbine blade from directly expose to the hot gas to avoid the blade from defect. The focus of this investigation is to investigate the effect of embedded three difference depth of trench at coolant holes geometry. Comparisons are made at four difference blowing ratios which are 1.0, 1.25 and 1.5. Three configuration leading edge with depth Case A (0.0125D), Case B (0.0350D) and Case C (0.713D) were compared to leading edge without trench. Result shows that as blowing ratio increased from 1.0 to 1.25, the film cooling effectiveness is increase for leading edge without trench and also for all cases. However when the blowing ratio is increase to 1.5, film cooling effectiveness is decrease for all cases. Overall the Case B with blowing ratio 1.25 has the best film cooling effectiveness with significant improvement compared to leading edge without trench and with trench Case A and Case C.

机译：薄膜冷却是施加到涡轮机叶片的冷却技术之一。燃气轮机使用的薄膜冷却技术保护涡轮机叶片直接暴露于热气体以避免叶片缺陷。该调查的重点是探讨冷却液孔几何形状的嵌入式三差异深度的效果。比较以四个差异吹血液比较为1.0,1.25和1.5。三个配置前沿具有深度壳体A（0.0125D），案例B（0.0350D）和情况C（0.713D）与未沟槽的前缘进行比较。结果表明，由于吹吹比从1.0增加到1.25，薄膜冷却效果对于未经沟槽的前缘而增加，并且也适用于所有情况。然而，当吹出比率增加到1.5时，所有病例都会降低薄膜冷却效果。总体而言，由于没有沟槽的前缘和沟槽盒A和壳体C，而具有吹入比为1.25的情况B具有最佳的薄膜冷却效果，其具有显着改善，并且具有沟槽盒A和壳体C.

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《World Virtual Conference on Advanced Research in Mechanical and Materials Engineering》|2014年||共5页
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作者
MOHAMAD RASIDI Bin Pairan; NORZELAWATI Binti Asmuin; Hamidon Bin Salleh;
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中图分类 TB3-53;
关键词
Trench effect; Film cooling; Turbine blade;

机译：沟槽效果;薄膜冷却;涡轮叶片;

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专利

1. Film Cooling Effectiveness on the Leading Edge Region of a Rotating Turbine Blade With Two Rows of Film Cooling Holes Using Pressure Sensitive Paint [J] . Jaeyong Ahn, M. T. Schobeiri, Je-Chin Han, Journal of Heat Transfer . 2006,第9期

机译：使用压敏涂料的具有两排薄膜冷却孔的旋转涡轮叶片前缘区域的薄膜冷却效果
2. Effect of rotation on leading edge region film cooling of a gas turbine blade with three rows of film cooling holes [J] . Jaeyong Ahn, M.T. Schobeiri, Je-Chin Han, International Journal of Heat and Mass Transfer . 2007,第1a2期

机译：旋转对具有三排薄膜冷却孔的燃气轮机叶片前缘区域薄膜冷却的影响
3. Influence of Trenched Shaped Holes on Turbine Blade Leading Edge Film Cooling [J] . SIMA BAHERI ISLAMI, rnS. P. ALAVI TABRIZI, rnBASSAM A. JUBRAN, Heat Transfer Engineering . 2010,第10期

机译：沟槽形孔对涡轮叶片前缘薄膜冷却的影响
4. SIMULATION FILM COOLING IN THE LEADING EDGE REGION OF A TURBINE BLADE (TRENCH EFFECT ON FILM EFFECTIVENESS FROM CYLINDER IN CROSSFLOW) [C] . MOHAMAD RASIDI Bin Pairan, NORZELAWATI Binti Asmuin, Hamidon Bin Salleh World Virtual Conference on Advanced Research in Mechanical and Materials Engineering . 2014

机译：涡轮叶片前缘区域的仿真膜冷却（沟槽效果从十字流中的膜效果）
5. Pulsed film cooling on a turbine blade leading edge [D] . Rutledge, James L. 2009

机译：涡轮叶片前缘的脉冲薄膜冷却
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. SIMULATION FILM COOLING IN THE LEADING EDGE REGION OF A TURBINE BLADE (TRENCH EFFECT ON FILM EFFECTIVENESS FROM CYLINDER IN CROSSFLOW) [O] . Mohamad Rasidi, Bin Pairana, Norzelawati Binti Asmuinb, 2016

机译：涡轮叶片前缘区域的模拟薄膜冷却（横流中气缸对薄膜效率的影响）
8. Effects of Leading Edge Film-Cooling and Surface Roughness on the Downstream Film-Cooling Along a Transonic Turbine Blade for Low and High Free- Stream Turbulence [R] . Raben, S., Vlachos, P., Ng, W. 2008

机译：前缘薄膜冷却和表面粗糙度对跨越低压和高自由流湍流的跨音速叶片冷却效果的影响

SIMULATION FILM COOLING IN THE LEADING EDGE REGION OF A TURBINE BLADE (TRENCH EFFECT ON FILM EFFECTIVENESS FROM CYLINDER IN CROSSFLOW)

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