Article Information  
Film Cooling Effectiveness from Single and Two Inlined/ Staggered Rows of Novel Semicircular Cooling Holes

Keywords: CFD, Film Cooling Effectiveness, Heat Transfer, Fluid Flow, Turbine Blade Cooling.

Mehran University Research Journal of Engineering & Technology

Volume 31 ,  Issue 2

Fayyaz  Hussain  Asghar , Muhammad  Javed Hyder ,    ,

References
1. Yuen, C.H.N., and Martinez-Botas, R.F., "Film Cooling Characteristics of a Single Round Hole at Various Streamwise Angles in a Crossflow: Part-I Effectiveness", International Journal of Heat and Mass Transfer, Volume 46, pp. 221-235, 2003.
2. Jung, I.S., and Lee, J.S., "Effect of Orientation Angles on Film Cooling Over a Flat Plate: Boundary Layer Temperature Distributions and Adiabatic Film Cooling Effectiveness", Journal of Turbomachinery, Volume 122, pp. 153-160, 2000.
3. Yuen, C.H.N., and Martinez-Botas, R.F., "Film Cooling Characteristics of Rows of Round Holes at Various Streamwise Angles in a Crossflow: Part-I. Effectiveness", International Journal of Heat and Mass Transfer, Volume 48, pp. 4995-5016, 2005.
4. Bernsdorf, S., Rose, M.G., and Abhari, R.S., "Modeling of Film Cooling Part-I: Experimental Study of Flow Structureā€¯, Journal of Turbomachinery, Volume 128, No.1, pp. 141-149, 2006.
5. Guo, T., and Li, S., "Numerical Simulation of Turbulent Jets with Lateral Injection into a Crossflow", Journal of Hydrodynamics, Serial-B, Volume 18, No. 3, pp. 319-323, 2006.
6. Hyder, M.J., and Asghar, F.H., "Effect of Coolant-to- Free-stream Velocity Ratios on Film Cooling Adiabatic Effectiveness for a Simple Planar Blade Test Section using FLUENT", Proceedings of International Bhurban Conference on Applied Science and Technology Islamabad, Pakistan, 8th-11th January, 2007.
7. Wang, T., and Li, X., "Mist Film Cooling Simulation at Gas Turbine Operating Conditions", International Journal of Heat and Mass Transfer, Volume 51 pp. 5305-5317, 2008.
8. Li, G., Zhu, H., and Fan, H., "Influences of Hole Shapes on Film Cooling Characteristics with CO2 Injection", Chinese Journal of Aeronautics, Volume 21, pp. 393-401, 2008.
9. Yang, C., Lin, C.L., and Gau, C., "Film Cooling Performance and Heat Transfer over an Inclined Film- Cooled Surface at Different Divergent Angles with respect to Highly Turbulent Mainstream", Experimental Thermal and Fluid Sciences, Volume 32, pp. 1313-1321, 2008.
10. Rozati, A., and Tafti, D.K., "Effect of Coolant- Mainstream Blowing Ratio on Leading Edge Film Cooling Flow and Heat Transfer-LES Investigation", International Journal of Heat and Fluid Flow, Volume 29, pp. 857-873, 2008.
11. Lee, I., Chen, P., and Chyu, M.K., "An Experimental Investigation of Jet Flows through a Row of Forward Expanded Holes into a Mainstream Over a Concave Surface", Experimental Thermal and Fluid Science, Volume 32, pp. 1068-1080, 2008.
12. Jovanovic, M.B., deLange, H.C., and Van Steenhoven, A.A., "Effect of Hole Imperfection on Adiabatic Film Cooling Effectiveness", International Journal of Heat and Fluid Flow, Volume 29, pp. 377-386, 2008.
13. Pathak, M., Dass, A.K., and Dewan, A., "An Investigation of Turbulent Rectangular Jets Discharged into a Narrow Channel Weak Crossflow", Journal of Hydrodynamics, Volume 20, No. 2, pp. 154-163, 2008.
14. Liu, C., Zhu, H., and Bai, J., "Effect of Turbulent Prandtl Number on the Computation of Film-Cooling Effectiveness", International Journal of Heat and Mass Transfer, Volume 51, pp. 6208-6218, 2008.
15. Asghar, F.H., and Hyder, M.J., "Effect of Coolant to Free-stream Blowing Ratios and Boundary Layer Thickness on Film Cooling Adiabatic Effectiveness", Proceedings of International Bhurban Conference on Applied Science & Technology Islamabad, Pakistan, 19th -22nd January, 2009.
16. Asghar, F.H., and Hyder, M.J., "Computational Study of Film Cooling Effectiveness for a Comparison of Cylindrical, Square and Triangular Holes of Equal Cross- Sectional Area", Mehran University Research Journal of Engineering & Technology, 2009.
17. Yang, C., Lin, C.L., and Gau, C., "Film Cooling Performance and Heat Transfer Over an Inclined Film- Cooled Surface at Different Convergent Angles with Respect to Highly Turbulent Mainstream", Applied Thermal Engineering, Volume 29, pp. 167-177, 2009.
18. FLUENT 6.2 User's Guide. Fluent Incorporated, 2005.
19. Launder, B.E., and Spalding, D.B., "Lectures in Mathematical Models of Turbulence", Academic Press, London, England. 1974.
20. Zhang, X.Z., and Hassan, I., "Numerical Investigation of Heat Transfer on Film Cooling with Shaped Holes", International Journal of Numerical Methods for Heat & Fluid Flow, Volume 16, No. 8, pp. 848-869, 2006.
21. Barth, T.J., and Jespersen, D., "The Design and Application of Upwind Schemes on Unstructured Meshes", Technical Report AIAA-89-0366, AIAA 27th Aerospace Science Meeting, Reno, Nevada, 1989.
22. Rhie, C.M., and Chow, W.L., "Numerical Study of the Turbulent Flow Past an Airfoil with Trailing Edge Separation", AIAA Journal, Volume 21, No. 11, pp. 1525-1532, 1983.
23. Patankar, S.V., "Numerical Heat Transfer and Fluid Flow", Hemisphere Publishing Corporation, Washington, DC. 1980.
   


© 1982-2017 Mehran University Research Journal Of Engineering & Technology, Jamshoro, 76062, Sindh, Pakistan. All Rights Reserved.