The Effects of Mainstream Reynolds Number and Blowing Ratio on Film Cooling of Gas Turbine Vanes

IF 1.8 Q3 MECHANICS Fluids Pub Date : 2023-09-26 DOI:10.3390/fluids8100263

Germán Sierra-Vargas, Diego Garzón-Alvarado, Carlos Duque-Daza

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Abstract

Film cooling performance was evaluated numerically for three mainstream Reynolds numbers and four blowing ratios (BR). A computational model based on finite volume discretization was used to solve an incompressible and transient flow over a NACA 4412 cascade vane. Several passive scalars were included in the model to evaluate the condition of adiabatic temperature and constant temperature for the surface vane. For the adiabatic temperature condition, the film effectiveness mainly depends on the jet trajectory and recirculation zones. For the constant temperature condition, the net heat flux reduction (NHFR) varies according to the boundary layer separation and reattachment. Consequently, misleading conclusions could be drawn if only one of the two approaches is adopted. For instance, the mainstream Reynolds number Re∞ = 3615 reached a maximum average effectiveness lower than 0.3 with an average NHFR of 0.25. However, for Re∞ = 10,845 the maximum average effectiveness was close to 0.45, but with negative average NHFR values. This finding demonstrates the need to explore new indicators like jet trajectory, convective coefficient and skin friction coefficient, as presented in this paper.

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主流雷诺数和吹风比对燃气轮机叶片气膜冷却的影响

对三种主流雷诺数和四种吹气比(BR)下的气膜冷却性能进行了数值计算。采用基于有限体积离散的计算模型，求解了NACA 4412叶栅不可压缩瞬态流动问题。在模型中加入几个被动标量，对表面叶片的绝热温度和恒温条件进行了评估。在绝热温度条件下，膜的有效性主要取决于射流轨迹和再循环区域。在恒温条件下，净热流密度随边界层分离和再附着的变化而变化。因此，如果只采用两种方法中的一种，就可能得出误导性的结论。例如，主流雷诺数Re∞= 3615时，最大平均效率小于0.3，平均NHFR为0.25。而当Re∞= 10845时，最大平均有效性接近0.45，但平均NHFR值为负。这一发现表明需要探索新的指标，如射流轨迹、对流系数和表面摩擦系数，如本文所提出的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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