V. B. Zametaev scite author profile

This paper presents a new numerical method to solve the equations of the asymptotic theory of separated flows. A number of measures was taken to ensure fast convergence of the iteration procedure, which is employed to treat the nonlinear terms in the governing equations. Firstly, we selected carefully the set of variables for which the nonlinear finite difference equations were formulated. Secondly, a Newton-Raphson strategy was applied to these equations. Thirdly, the calculations were facilitated by utilizing linear approximation of the boundary-layer equations when calculating the corresponding Jacobi matrix. The performance of the method is illustrated, using as an example, the problem of laminar two-dimensional boundary-layer separation in the flow of an incompressible fluid near a corner point of a rigid body contour. The solution of this problem is non-unique in a certain parameter range where two solution branches are possible.

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Steady secondary flow in a turbulent mixing layer

Zametaev

Gorbushin

Lipatov

2019

International Journal of Heat and Mass Transfer

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Local separation on a slender cone preceding the appearance of a vortex sheet

Zametaev¹

1988

Fluid Dyn

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Formation of singularities in a three-dimensional boundary layer

Zametaev¹

1989

Fluid Dyn

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V. B. Zametaev

Existence and nonuniqueness of local separation zones in viscous jets

An effective numerical method for solving viscous–inviscid interaction problems

Steady secondary flow in a turbulent mixing layer

Local separation on a slender cone preceding the appearance of a vortex sheet

Formation of singularities in a three-dimensional boundary layer

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