Verification of the Film Cooling Calculations for Nozzle Vane Leading Edges in ANSYS CFX-Reference-Cited by-同舟云学术

Verification of the Film Cooling Calculations for Nozzle Vane Leading Edges in ANSYS CFX

Published:2019-01 Issue:1 Volume:62 Page:74-80
ISSN:1068-7998
Container-title:Russian Aeronautics
language:en
Short-container-title:Russ. Aeronaut.

Author:

Gorelov Yu. G.,Tyul’kov K. V.,Anan’ev V. V.,Byval’tsev P. M.

Publisher

Allerton Press

Subject

Aerospace Engineering

Link

http://link.springer.com/content/pdf/10.3103/S1068799819010100.pdf

Reference21 articles.

1. Wadia, A.R., and Nealy, D.A., Development of a Design Model for Airfoil Leading Edge Film Cooling, Proc. of the Gas Turbine Conference and Exhibit, Houston, USA: ASME, 1985, vol. 3: Heat Transfer; Electric Power, Paper no. 85-GT-120.

2. Reiss, H. and Bolcs, A., Experimental Study of Showerhead Cooling on a Cylinder Comparing Several Configurations using Cylindrical and Shaped Holes, ASME J. Turbomachinery, 2000, no. 122(1), pp. 161–169.

3. Funazaki Ken-ichi, Kawabata Hirokazu, Takahashi Daichi, and Okita Yoji, Experimental and Numerical Studies on Leading Edge Film Cooling Performance: Effects of Hole Exit Shape and Freestream Turbulence, Proc. of the ASME Turbo Expo, Copenhagen, Denmark, 2012, GT2012-68217, pp. 1–11.

4. Poletaev, V.A., Remizov, A.E., Vyatkov, V.V., and Lebedev, V.V., Special Features of Aerodynamic and Thermal Improvement of Turbine Nozzles for Advanced Gas Turbine Engines, Izv. Vuz. Av. Tekhnika, 2016, vol. 59, no. 1, pp. 81–86 [Russian Aeronautics (Engl. Transl.), vol. 59, no. 1, pp. 89–94].

5. Anderson, J.B., Winka, J.R., Bogard, D.G., and Crawford, M.E., Evaluation of Superposition Predictions for Showerhead Film Cooling on a Vane, Proc. of the ASME Turbo Expo, Düsseldorf, Germany, 2014, vol. 5B: Heat Transfer, GT2014–25969, pp. 1–12.

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