This article is cited in 2 papers

Method for solving the equations describing the interaction of a three-dimensional boundary layer with an outer inviscid flow

G. L. Korolev

Zhukovsky Central Institute of Aerohydrodynamics, Zhukovskii, ul. Zhukovskogo 1, Moscow oblast, 140180, Russia

Abstract: A new method is developed for solving the three-dimensional time-independent equations describing the interaction of a laminar boundary layer with an outer inviscid flow. The method also applies to the interaction of plane flows. By applying the method, the problem of the three-dimensional viscous supersonic gas flow over a roughness element (a hump and a cavity) is solved for the first time within the framework of the classical triple-deck theory. The asymptotic height of the roughness element corresponding to the nonseparated flow is determined, and separated flow patterns are constructed.

Key words: numerical methods, supersonic flow, three-dimensional boundary layer, interaction, separated flow.

UDC: 519.634

Received: 29.03.2006

 English version: Computational Mathematics and Mathematical Physics, 2007, 47:3, 487–509

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