Simultaneous pseudo-time stepping for 3D aerodynamic shape optimization

S. B. Hazra; V. Schulz; J. Brezillon

doi:10.1515/JNUM.2008.007

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Simultaneous pseudo-time stepping for 3D aerodynamic shape optimization

S. B. Hazra , V. Schulz and J. Brezillon

Published/Copyright: June 25, 2008

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From the journal Volume 16 Issue 2

Abstract

This paper presents a numerical method for aerodynamic shape optimization problems with state constraint. It uses a simultaneous semi-iterative technique to solve the equations arising from the first order necessary optimality conditions. Although there is no theoretical proof of convergence of this algorithm so far, in our numerical experiments the method converges without additional globalization in the design space. A reduced SQP method based preconditioner is used for convergence acceleration. Design examples of drag reduction with constant lift for wing and body of a Supersonic Commercial Transport (SCT) aircraft are included. The overall cost of computation is about 8 forward simulation runs.

Keywords:: shape optimization; simultaneous pseudo-time stepping; Euler equations; preconditioner; reduced SQP methods; supersonic aircraft

Received: 2006-07-14

Revised: 2007-11-20

Published Online: 2008-06-25

Published in Print: 2008-June

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Articles in the same Issue

https://doi.org/10.1515/JNUM.2008.007

Keywords for this article

shape optimization; simultaneous pseudo-time stepping; Euler equations; preconditioner; reduced SQP methods; supersonic aircraft