G. Kuerti scite author profile

Velocity and temperature boundary layers developed on a plane wall by ideal shock-tube flow are considered for weak shock and expansion waves. Analytically, the boundary layer consists of three regions, bounded by (1) expansion-wave head, (2) diaphragm location, (3) contact discontinuity, (4) shock. The flow fields (1, 2) and (3, 4) are, essentially, known. In the interaction region (2, 3), these flow fields merge, the governing equations are ‘singular parabolic’ and admit boundary conditions usually associated with elliptic equations. It is convenient to replace the weak expansion wave in the main flow by a line discontinuity. A consistent linearization scheme can now be devised to obtain the solution in the three regions. In (2, 3), the resulting linear singular parabolic equations for the first-order solutions are solved successfully by an iterative finite difference method, normally applied to elliptic equations.

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The Laminar Boundary Layer in Compressible Flow

Kuerti

1951

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Advances in Applied Mechanics, Vol. 6

Dryden¹,

Kármán²,

Kuerti³

et al. 1962

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Gas Dynamics. Vol. 1 of Applied Mathematics and Mechanics

Oswatitsch¹,

Kuerti²,

Ablow³

1957

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G. Kuerti

Rarefied Gas Dynamics

The interaction region in the boundary layer of a shock tube

The Laminar Boundary Layer in Compressible Flow

Advances in Applied Mechanics, Vol. 6

Gas Dynamics. Vol. 1 of Applied Mathematics and Mechanics

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