Film Cooling Measurements for a Laidback Fan-Shaped Hole: Effect of Coolant Crossflow on Cooling Effectiveness and Heat Transfer

Abstract: Internal coolant passages of gas turbine vanes and blades have various orientations relative to the external hot gas flow. As a consequence, the inflow of film cooling holes varies as well. To further identify the influencing parameters of film cooling under varying inflow conditions, the present paper provides detailed experimental data. The generic study is performed in a novel test rig which enables compliance with all relevant similarity parameters including density ratio. Film cooling effectiveness as wel… Show more

“…They may, however, compromise the airfoil structural integrity and aerodynamic efficiency. Some studies on discrete film holes include traditional cylindrical holes [3], laidback fanshaped holes [4][5][6][7][8][9], tripod holes [10][11][12][13][14], holes with sister holes [10][11][12][13][14][15][16][17][18], curved diffusion holes [19], and diffusion holes with different exit area geometries [20]. In this paper, we will study a new trench geometry, both experimentally and numerically, and discuss and compare the results.…”

Film Effectiveness Downstream the Trenches with Tilted Target Wall

“…They may, however, compromise the airfoil structural integrity and aerodynamic efficiency. Some studies on discrete film holes include traditional cylindrical holes [3], laidback fanshaped holes [4][5][6][7][8][9], tripod holes [10][11][12][13][14], holes with sister holes [10][11][12][13][14][15][16][17][18], curved diffusion holes [19], and diffusion holes with different exit area geometries [20]. In this paper, we will study a new trench geometry, both experimentally and numerically, and discuss and compare the results.…”

Film Effectiveness Downstream the Trenches with Tilted Target Wall

Optimized inlet geometry of a laidback fan-shaped film cooling hole – Experimental study of film cooling performance