W. D. Mcnally scite author profile

This paper describes Fortran programs that give the solution to the two-dimensional, subsonic, nonviscous flow problem on a blade-to-blade surface of revolution of a turbomachine. Flow may be axial, radial, or mixed. There may be a change in stream channel thickness in the through-flow direction. Either single, tandem, or slotted blades may be handled as well as blade rows with splitter vanes. Also, small regions may be magnified to give more detail where desired, such as around a leading or trailing edge or through a slot. The method is based on a finite difference solution of the stream function equations. Numerical examples are shown to illustrate the type of blades which can be analyzed, and to show results which can be obtained. Results are compared with experimental data.

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Numerical solution of periodic transonic flow through a fan stage

Erdos

Alzner

Mcnally

1976

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Review—Computational Methods for Internal Flows With Emphasis on Turbomachinery

Mcnally

Sockol

1985

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A review is given of current computational methods for analyzing flows in turbomachinery and other related internal propulsion components. The methods are divided primarily into two classes, inviscid and viscous. The inviscid methods deal specifically with turbomachinery applications. Viscous methods, on the other hand, due to the state-of-the-art, deal with generalized duct flows as well as flows in turbomachinery passages. Inviscid methods are categorized into the potential, stream function, and Euler approaches. Viscous methods are treated in terms of parabolic, partially parabolic, and elliptic procedures.

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W. D. Mcnally

Numerical Solution of Periodic Transonic Flow through a Fan Stage

Programs for Computation of Velocities and Streamlines on a Blade-to-Blade Surface of a Turbomachine

Numerical solution of periodic transonic flow through a fan stage

Review—Computational Methods for Internal Flows With Emphasis on Turbomachinery

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