Shape optimization of supersonic ejector for supersonic wind tunnel

Authors

  • Václav Dvořák Technical University of Liberec

Keywords:

supersonic ejector, shape optimization, primary nozzle, wind tunnel

Abstract

The article deals with the shape optimization of a supersonic ejector for propulsion of an experimental supersonic wind tunnel. This ejector contains several primary nozzles arranged around the mixing chamber wall. CFD software Fluent was used to compute the flow in the ejector. A dynamic mesh method was applied to find an optimal shape of the three-dimensional geometry. During the work it was found out that the previously developed optimization method for subsonic ejectors must be modified. The improved method is more stable and the solution requires fewer optimization steps. The shapes of the mixing chamber, the diffuser, inlet parts and the optimal declination of the primary nozzles are obtained as the optimization results.

Author Biography

  • Václav Dvořák, Technical University of Liberec

    Dr. Dvorak is assistant professor at the Department of Power Engineering Equipment at Technical University of Liberec. A graduate of the same university (Ing.) in 1999 and (Ph.D.) in 2003.

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Published

30-Jul-2010

Issue

Vol. 4 No. 1 (2010)

Section

Articles

License

Copyright (c) 2016 Applied and Computational Mechanics

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

“Shape optimization of supersonic ejector for supersonic wind tunnel” (2010) Applied and Computational Mechanics, 4(1). Available at: https://acm.kme.zcu.cz//article/view/59 (Accessed: 24 May 2025).