论文信息 - Heat Transfer Distribution of Semicylindrical Concave Surface Impinged by Circular Jet Rows

Heat Transfer Distribution of Semicylindrical Concave Surface Impinged by Circular Jet Rows

The impingement cooling of the leading edge of a gas turbine airfoil is modeled by considering impingement of three rows of jets on a semicylindrical concave surface. Experimental investigations are conducted to study the influence of jet-to-jet distance (s/d = 2.83, 4, and 6) and jet-to-plate distance (z/d = 2, 4, 6, and 8) on the local heat transfer of a semicylindrical concave surface impinged by three rows of multiple jets for different Reynolds numbers (12,000, 15,000, and 18,000). The local heat transfer coefficient is estimated using thermal images obtained by infrared thermal imaging technique. The local distribution of Nusselt numbers and the overall average Nusselt numbers were computed and compared. It was observed that the local heat transfer coefficients at 0 = 0° decrease with increase in z/d, whereas the heat transfer coefficients at θ = 60 and 80° increase with an increase in z/d at all Reynolds numbers. The configuration with s/d = 2.83 and z/d = 4 is observed to have the maximum heat transfer distribution with minimum coefficient of variance compared to other configurations at all Reynolds numbers covered in this study.

[1] W. Tabakoff,et al. Gas Turbine Blade Heat Transfer Augmentation by Impingement of Air Jets Having Various Configurations , 1972 .

[2] A. Khanicheh,et al. Experimental and Numerical Study of Impingement on an Airfoil Leading Edge With and Without Showerhead and Gill Film Holes , 2005 .

[3] D. E. Metzger,et al. IMPINGEMENT COOLING PERFORMANCE IN GAS TURBINE AIRFOILS INCLUDING EFFECTS OF LEADING EDGE SHARPNESS , 1972 .

[4] V. J. Jusionis. Heat transfer from impinging gas jets on an enclosed concave surface , 1970 .

[5] P. Hrycak,et al. Heat transfer from a row of impinging jets to concave cylindrical surfaces , 1981 .

[6] D. E. Metzger,et al. Local Heat Transfer in Internally Cooled Turbine Airfoil Leading Edge Regions: Part II—Impingement Cooling With Film Coolant Extraction , 1990 .

[7] Zeyuan Xu,et al. Experimental Study of the Flow and Thermal Development of a Row of Cooling Jets Impinging on a Rotating Concave Surface , 2004 .

[8] Robert J. Moffat,et al. Describing the Uncertainties in Experimental Results , 1988 .

[9] D. E. Metzger,et al. Impingement Cooling of Concave Surfaces With Lines of Circular Air Jets , 1969 .

[10] Raymond E. Chupp,et al. Evaluation of internal heat-transfer coefficients for impingement-cooled turbine airfoils. , 1969 .

[11] M. Fénot,et al. Local heat transfer due to several configurations of circular air jets impinging on a flat plate with and without semi-confinement , 2005 .