论文信息 - Uniform suction/blowing effect on forced convection about a wedge: Uniform heat flux

Uniform suction/blowing effect on forced convection about a wedge: Uniform heat flux

SummaryThe effect of constant suction/blowing on steady two-dimensional laminar forced flow about a uniform heat flux wedge is numerically analyzed. The nonlinear boundary-layer equations were transformed and the resulting differential equations were solved by an implicit finite difference scheme (Keller box method). Numerical results for the velocity distribution, the temperature distribution, the local skin friction coefficient and the local Nusselt number are presented for various values of Prandtl number Pr, pressure gradient parameterm and suction/blowing parameter ξ. In general, it has been found that the local skin friction coeffcient and the local Nusselt number increase owing to suction of fluid. This trend reversed for blowing of fluid. In addition to, as the blowing effect is strong enough, i.e. ξ≦−0.65, the flow separation only occurred in the case ofm=0.0.

K. A. Yih | K. Yih

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