H. D. Weingold scite author profile

H. D. Weingold

3Publications

73Citation Statements Received

30Citation Statements Given

How they've been cited

184

How they cite others

Affiliations

Whitney Museum of American Art, United Aircraft (Russia), United Technologies Corporation (Poland)

Publications

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Prediction of Compressor Cascade Performance Using a Navier–Stokes Technique

Davis¹,

Hobbs

Weingold

1988

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An explicit, time marching, multiple-grid Navier-Stokes technique is demonstrated for the prediction of quasi-three-dimensional turbomachinery compressor cascade performance over the entire incidence range. A numerical investigation has been performed in which the present Navier-Stokes procedure was used to analyze a series of compressor cascade viscous flows for which corresponding experimental data are available. Results from these calculations show that the current viscous flow procedure is capable of predicting cascade profile loss and airfoil pressure distributions with high accuracy. The results from this numerical investigation in the form of comparisons between the predicted profile loss, exit gas angle, and pressure distributions with experimental data are presented in this paper. Results from a grid refinement study are also shown to demonstrate that the Navier-Stokes solutions are grid independent. 520/Vol. 110, OCTOBER 1988 Transactions of the ASME Copyright © 1988 by ASME Downloaded From: http://turbomachinery.asmedigitalcollection.asme.org/ on 06/16/2015 Terms of Use: http://asme.org/terms Transactions of the ASME Downloaded From: http://turbomachinery.asmedigitalcollection.asme.org/ on 06/16/2015 Terms of Use: http://asme.org/terms

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Development of Controlled Diffusion Airfoils for Multistage Compressor Application

Hobbs

Weingold

1983

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A series of Controlled Diffusion Airfoils has been developed for multistage compressor application. These airfoils are designed analytically to be shock free at transonic Mach number and to avoid suction surface boundary layer separation for a range of inlet conditions necessary for stable compressor operation. They have demonstrated, in cascade testing, higher critical Mach number, higher incidence range, and higher loading capability than standard series airfoils designed for equivalent aerodynamic requirements. These airfoils have been shown, in single and multistage rig testing, to provide high efficiency, high loading capability, and ease of stage matching, leading to reduced development costs and improved surge margin. The Controlled Diffusion Airfoil profile shapes tend to have thicker leading and trailing edges than their standard series counterparts, leading to improved compressor durability.

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Development of Controlled Diffusion Airfoils for Multistage Compressor Application

Hobbs

Weingold

1984

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A series of Controlled Diffusion Airfoils has been developed for multistage compressor application. These airfoils are designed analytically to be shock-free at transonic Mach numbers and to avoid suction surface boundary layer separation for a range of inlet conditions necessary for stable compressor operation. They have demonstrated, in cascade testing, higher critical Mach numbers, higher incidence range, and higher loading capability than standard series airfoils designed for equivalent aerodynamic requirements. These airfoils have been shown, in single and multistage rig testing, to provide high efficiency, high loading capability, and ease of stage matching, leading to reduced development costs and improved surge margin. The Controlled Diffusion Airfoil profile shapes tend to have thicker leading and trailing edges than their standard series counterparts, which lead to improved compressor durability.

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H. D. Weingold

Prediction of Compressor Cascade Performance Using a Navier–Stokes Technique

Development of Controlled Diffusion Airfoils for Multistage Compressor Application

Development of Controlled Diffusion Airfoils for Multistage Compressor Application

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