Numerical Modeling of a Viscous-Gas Flow in a Turbine Cascade with Air Ejection

被引：0

作者：

B. I. Kurmanov

G. L. Podvidz

机构：

来源：

Fluid Dynamics | 2002年 / 37卷

关键词：

Friction Coefficient; Mass Flow; Flow Pattern; Relative Mass; Reynolds Equation;

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学科分类号：

摘要：

The gas flow pattern, the local friction coefficients, the profile losses, and the outlet flow angles in a plane turbine cascade are modeled numerically using the 2-D Reynolds equations. For describing the turbulence characteristics, a two-parameter q-ω turbulence model is used. The flow pattern behind the cascade trailing edge is studied. The calculated values of the local gas pressure and the friction coefficient on the profile contour, the profile losses, and the outlet flow angles are compared with the experimental data for a transonic flow in a nozzle cascade at various reduced gas velocities behind the cascade and relative mass flows of the air ejected.

引用

页码：179 / 188

页数：9

共 8 条

[1]

Ivanov M. Y.(1991)Implicit non-factorized method of calculating turbulent flows of viscous heat conducting gas in turbine cascades Zh. Vych. Matem. Matem. Fiz. 31 754-766

[2]

Krupa V. G.(1999)Calculation of a turbulent gas flow in turbine cascades using the Navier-Stokes equations in the thin-layer approximation Izv. Ross. Akad. Nauk, Mekh. Zhidk. Gaza 2 38-49

[3]

Kurmanov B. I.(1996)Aerodynamic performance of a transonic turbine guide vane with trailing edge coolant ejection: Pt.1. Experimental Approach Trans. ASME. J. Turbomachinery 118 519-528

[4]

Podvidz G. L.(1983)Euler equations-implicit schemes and boundary conditions AIAA Journal 21 699-706

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