film coolant inlet 薄膜冷却液进口
film coolant injection hole 薄膜冷却液喷孔
film coolant injector 冷却液膜喷嘴
film-coolant injector 冷却液膜喷咀
coolant film 冷却液膜
Coolant film boil 冷却液沸腾
film condensation coolant inlet 薄膜冷却液进口
coolant fluid film 冷却液膜
coolant-fluid film 冷却液膜
Numerical simulations were used to assess the effect of a conjugate heat transfer and internal coolant flow on film cooling.
本文通过数值模拟的方法同时考虑了耦合传热和冷却流通道流动对气膜冷却的影响。
The computational domain were extended to the coolant supply plenum, and two rows of 26 film cooling holes were simulated, with about 200 cells across each orifice cross-section.
计算模拟了两排26个气膜孔,每个孔截面的网格数达到近200个,计算域包括了供气腔。
The film-cooling adiabatic effectiveness's distributing is directly affected by the characteristics of the coolant trajectory and the location of wholes.
冷却空气的流动特征和冷却孔开设的位置直接影响到冷却效果的分布。
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