Vortical structures and heat transfer augmentation of a cooling channel in a gas turbine blade with various arrangements of tip bleed holes

Zhao, Zhiqi; Luo, Lei; Qiu, Dandan; Wang, Songtao; Wang, Zhongqi; Sundén, Bengt

doi:10.1080/10407782.2020.1814591

Cited by 3 publications

(1 citation statement)

References 29 publications

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“…Topology analysis is a method to understand the three-dimensional separated flows. It uses skin-friction lines coupled with the critical point theory (Legendre, 1956; Poincaré, 1882; Hirschel et al , 2014) and has been applied in some research and engineering works (Gbadebo et al , 2005; Zhao et al , 2020; Kan et al , 2016).…”

Section: Problem Descriptionmentioning

confidence: 99%

On heat transfer and flow characteristics of jets impinging onto concave surface with varying bleeding arrangements

Qiu

Zhao

et al. 2021

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Purpose The purpose of this study is to investigate the effects of film holes’ arrangements and jet Reynolds number on flow structure and heat transfer characteristics of jet impingement conjugated with film cooling in a semicylinder double wall channel. Design/methodology/approach Numerical simulations are used in this research. Streamlines on different sections, skin-friction lines, velocity, wall shear stress and turbulent kinetic energy contours near the concave target wall and vortices in the double channel are presented. Local Nusselt number contours and surface averaged Nusselt numbers are also obtained. Topology analysis is applied to further understand the fluid flow and is used in analyzing the heat transfer characteristics. Findings It is found that the arrangement of side films positioned far from the center jets helps to enhance the flow disturbance and heat transfer behind the film holes. The heat transfer uniformity for the case of 55° films arrangement angle is most improved and the thermal performance is the highest in this study. Originality/value The film holes’ arrangements effects on fluid flow and heat transfer in an impingement cooled concave channel are conducted. The flow structures in the channel and flow characteristics near target by topology pictures are first obtained for the confined film cooled impingement cases. The heat transfer distributions are analyzed with the flow characteristics. The highest heat transfer uniformity and thermal performance situation is obtained in present work.

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