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Investigation on the differences in unsteady film cooling behaviors of gas turbine blades between mainstream and cooling air pulsations for a cylindrical hole

Ran Yao, Liwei Ma, Jianhua Wang, Ming Gan

2024International Journal of Heat and Fluid Flow6 citationsDOIOpen Access PDF

Abstract

• Transient behaviors of film cooling are investigated by experiment and LES. • Pulsation mode plays a dominant role in the unsteady film coverage performance. • Mainstream pulsation induces a more severe instability than coolant pulsation. • Probability distribution function is more scattered under mainstream pulsation. In practice, film cooling on gas turbine blade inevitably works in an unsteady environment, which is introduced by periodical rotor/stator interaction and unsteady combustion. Previous studies have introduced two methods to simulate the realistic unsteady condition: 1) the pulsation of mainstream velocity; and 2) the pulsation of coolant injection. However, up to this point, the differences in instantaneous film cooling behaviors between these two methods remain unclear. This work presents a series of large eddy simulations to exhibit the unsteady flow and film cooling behaviors under steady and the two unsteady flow conditions. The numerical strategy is validated against our time-resolved experimental data. Time-averaged results show that the difference between the two pulsations is not significant if the averaged blowing ratio remains the same. However, the pulsation type plays a dominant role on the transient mode of film coverage. Under the steady condition, film coverage instability is induced by the unsteady trajectory of near-wall vortex structure; but with pulsed environments, the unsteadiness magnitude increases, and the area with high unsteadiness level enlarges. The pulsation of the mainstream velocity induces a more severe film coverage instability compared to the pulsation of the cooling air injection, because of the higher fluctuation energy of the mainstream bulk. Under mainstream pulsation, the probability distribution of instantaneous cooling effectiveness is the most scattered, and the corresponding fluctuation range is the largest.

Topics & Concepts

Gas turbinesMechanicsAir coolingMaterials scienceTurbine bladeThermodynamicsTurbineMechanical engineeringPhysicsEngineeringTurbomachinery Performance and OptimizationHeat Transfer MechanismsCombustion and flame dynamics