EFFECTS OF CROSSFLOW IN AN INTERNAL-COOLING CHANNEL ON FILM COOLING OF A FLAT PLATE THROUGH COMPOUND-ANGLE HOLES

机译：通过复合角孔在内部冷却通道中的影响在内部冷却通道上的影响

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CFD simulations were performed to study the film cooling of a flat plate from one row of compound-angles holes fed by an internal-cooling passage that is perpendicular to the hot-gas flow. Parameters examined include direction of flow in the internal cooling passage and blowing ratios of 0.5, 1.0, and 1.5 with the coolant-to-hot-gas density ratio kept at 1.5. This CFD study is based on steady RANS with the shear-stress transport (SST) and realizable k-ε turbulence models. To understand the effects of unsteadiness in the flow, one case was studied by using large-eddy simulation (LES). Results obtained showed an unsteady vortical structure forms inside the hole, causing a side-to-side shedding of the coolant jet. Values of adiabatic effectiveness predicted by CFD simulations were compared with the experimentally measured values. Steady RANS was found to be inconsistent in its ability to predict adiabatic effectiveness with relative error ranging for 10% to over 100%. LES was able to predict adiabatic effectiveness with reasonable accuracy.

机译：进行CFD模拟以研究通过由垂直于热气流的内部冷却通道供给的一排复合角孔的平板的薄膜冷却。所检查的参数包括内部冷却通道中的流动方向，0.5,1.0和1.5的吹气比，冷却剂 - 热气密度比保持在1.5。该CFD研究基于抗剪切应力传输（SST）和可实现的K-ε湍流模型的稳定朗。为了了解不稳定在流动中的影响，通过使用大涡模拟（LES）研究了一种情况。得到的结果显示了孔内的不稳定涡流结构，导致冷却剂射流的侧向脱落。将CFD模拟预测的绝热效能值与实验测量值进行了比较。发现稳定的rans在其预测相对误差范围内的绝热有效性达到10％至超过100％的能力不一致。 LES能够以合理的准确性预测绝热效果。

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《ASME Turbine Technical Conference and Exposition》|2015年||共15页
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Zachary T. Stratton; Tom I. P. Shih; Gregory M. Laskowski; Brian Barr; Robert Briggs;
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EFFECTS OF CROSSFLOW IN AN INTERNAL-COOLING CHANNEL ON FILM COOLING OF A FLAT PLATE THROUGH COMPOUND-ANGLE HOLES

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