1.
Numerical investigation of film cooling effectiveness over rotating curved surfaces:blowing ratio and curvature effect
吹风比和曲率对旋转曲面气膜冷却效率影响
2.
Numerical Investigation of Influence of Rotation of Film on Cooling Effectiveness over Rotating Curved Surfaces
旋转对曲率表面气膜冷却效率影响的数值研究
3.
Adiabatic effectiveness measurements on rotating curvature models
旋转状态下曲率模型上的气膜冷却效率
4.
Numerical simulation of film cooling effectiveness on rotating curvature models
曲率对旋转态气膜冷却效率影响的数值模拟
5.
Experimental investigation on film cooling effectiveness of multi-hole at longitudinal wavy surface
多孔纵向波纹表面气膜冷却效率实验研究
6.
Numerical Research on Film-cooling Efficiency of Injection with Opposite Orientation Compound Angles
复合角度对称射流气膜冷却效率的数值研究
7.
Numerical Simulation of the Impact of Ratio of Hole Space on Gas-Film Cooling Effectiveness
孔间距对气膜冷却效率影响的数值模拟
8.
Numerical Study on Film Cooling Effectiveness From Converging Slot-hole
新型缩放槽缝孔气膜冷却效率的数值研究
9.
Numerical investigation on improving film cooling effectiveness with an upstream ramp
利用上游斜坡改善气膜冷却效率的数值研究
10.
Numerical Simulation for Influence of Radial Angle on Gas-film Cooling Effectiveness
气膜孔径向角角度对冷却效率的影响
11.
Numerical Study on the Influence of Hole's Shape on Film Cooling Efficiency
气膜孔形状对冷却效率影响的数值研究
12.
There were better benefits through cooling by slot and wiggle-strip film cooling.
其中缝隙式气膜冷却和波纹板式气膜冷却冷却结构的冷却效果比较好。
13.
Influence of Air-film Hole Shapes on Turbine Blade Air-film Cooling Effectiveness
气膜孔形状对涡轮叶片气膜冷却效果的影响
14.
TLC technique can be successfully applied to reflect film cooling effectual area and cooling effect.
利用液晶测温技术可以很好地反映气膜冷却区域及冷却效果等。
15.
Numerical simulation on cooling effectiveness of combined impingement and film cooling
“冲击-气膜”复合式结构冷却效果数值研究
16.
Numerical investigation on film cooling effectiveness of stator blade with different angles
气膜孔角度对导叶冷却效果影响的数值研究
17.
Numerical study on effects of jet angles on film-cooling effectiveness
入射角度对气膜冷却效果影响的数值研究
18.
The reason analysis and treatment method of lower cooling efficiency in cooling tower
冷却塔冷却效率低的原因分析及处理