H. T. Yang scite author profile

The initial flow field of an incompressible, viscous fluid around a circular cylinder, set impulsively to move normal to its axis, is studied in detail. The nonlinear vorticity equation is solved by the method of matched asymptotic expansions. Analytic solutions for the stream function in terms of exponential and error functions for the inner flow field, and of circular functions for the outer, are obtained to the third order, from which a uniformly valid composite solution is found. Also presented are the vorticity, pressure, separation point and drag. These quantities agree with the numerical computations of Collins & Dennis. Extended solutions developed by Padé approximants indicate that higher than third-order approximations will yield only minor improvements.

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Supersonic, turbulent flow computation and drag optimization for axisymmetric afterbodies

Cummings

Yang

1995

Computers & Fluids

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Abstract-The compressible, turbulent flow about an axisymmetric body was numerically studied using the MacCormack unsplit explicit algorithm applied to the mass-average Navier--Stokes equations solved in conjunction with the k+ turbulence model of Jones and Launder. Numerical predictions of total body drag (pressure drag, skin friction drag, and base drag) were made for an axisymmetric body six diameters in length, with and without a boattail. Surface pressures and viscous layer profiles are compared with available wind tunnel data and are found to be in good agreement for both geometries. The Golden Section optimization method was used to optimize the body boattail angle for minimum drag. The solution method can serve as a tool for preliminary design analysis where the relative merits of utilizing boattails on axisymmetric afterbodies is being considered.

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Rayleigh's Problem at Low Mach Number According to the Kinetic Theory of Gases

Yang

1956

Journal of Mathematics and Physics

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The stokes problems for a conducting fluid with a suspension of particles

Yang

Healy

1973

Appl. Sci. Res.

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Steady laminar forced convection from a circular cylinder

Jafroudi

Yang

1986

Journal of Computational Physics

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H. T. Yang

Initial flow field over an impulsively started circular cylinder

Supersonic, turbulent flow computation and drag optimization for axisymmetric afterbodies

Rayleigh's Problem at Low Mach Number According to the Kinetic Theory of Gases

The stokes problems for a conducting fluid with a suspension of particles

Steady laminar forced convection from a circular cylinder

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