HYDRODYNAMIC AND THERMAL TWO DIMENSIONAL BOUNDARY LAYERS DEVELOPMENT BETWEEN ROTATING TURBINE BLADES

Main Article Content

Ihsan Y. Hussain
Taif H. Salih

Abstract

The hydrodynamic and thermal boundary layers have great effect on the fluid flow and heat transfer between rotating turbine blade. In the present work, the flow and heat transfer is analyzed numerically by solving two dimensional incompressible boundary layer equations. A ( k – ε ) turbulence modeling is used to obtain the eddy viscosity. The finite volume method is introduced to carryout all computational solution with staggered grid arrangement. Due to complex physical domain the original coordinate system is transferred to non orthogonal coordinate system. The calculation of present work done for rotating two dimensional turbine cascade with different rotating speeds (1500 rad/s, 1800 rad/s, 1900 rad/s), and for different Reynolds number (5000, 10000, 100000), in subsonic flow (M<1). The two dimension fluid flow is described by presenting plots of vector and contour mapping for the velocity; pressure and heat transfer fields as well as Nusselt number variation. The results were verified through a comparison with published duct results, good agreement was obtained. The final results were then compared with published results for turbine blades and good agreement was also obtained, the overall comparison show good agreement.

Article Details

Section

Articles

How to Cite

“HYDRODYNAMIC AND THERMAL TWO DIMENSIONAL BOUNDARY LAYERS DEVELOPMENT BETWEEN ROTATING TURBINE BLADES” (2010) Journal of Engineering, 16(02), pp. 4858–4876. doi:10.31026/j.eng.2010.02.09.

References

Davidson, L., 2003, “An Introduction to Turbulence Models”, Chalmers University of Technology, Department of Fluid Dynamics Dorfman A.S. (1996)" Advanced Calculation Method for the Surface Temperature of Turbine Blade" Journal of heat Transfer 48(1): pp.18 – 22.

Gogzeh, M.M. (2000)" Three Dimensional Turbulent flow Prediction between Two Axial compressor Stator Blades Using Body Fitted Coordinate System "PhD. – theses. Mechanical Dep. University of Baghdad

Hoffmann, K. A., 1989, “Computational Fluid Dynamics for Engineers”, Engineering Education System

K. M. Bernhared (2000)" Experimental Study of Effusion Cooling" Department of Thermo and fluid Dynamic Chalmers University of Technology. Sweden.

Koya M., and S. Kotake (1985) " Numerical Analysis of Fully Three – dimensional peridec flow Though a Turbine Stage" ASME Journal of Engineering for Gas Turbine and Power, Vol.107, No.4, pp. 945 - 952

Patankar, S. V., 1980, “Numerical Heat Transfer and Fluid Flow” Hemisphere, McGraw-Hill, New York.

Versteeg, H. K. and Malalasekera, W. (1995). An Introduction to Computational Fluid Dynamics, the finite volume method. Longman Scientific and technical

W. T. Thompkins (1982)" A – Quasi Three Dimensional Blade Surface Boundary Layer Analysis for Rotating Blade Rows" journeal of Engineering and Power. Vol. 104. pp.439 – 448.

Similar Articles

You may also start an advanced similarity search for this article.

Most read articles by the same author(s)

1 2 > >>