A discrete gradient-based approach for aerodynamic shape optimisation in turbulent viscous flow

Authors:
M. de'Michieli Vitturi;F. Beux
Affiliations:
Dipartimento di Matematica, Università di Pisa, Pisa, Italy;Scuola Normale Superiore di Pisa, piazza dei Cavalieri, Pisa, Italy
Venue:
Finite Elements in Analysis and Design
Year:
2006

Citing 2
Cited 0

A new strategy for finite element computations involving moving boundaries and interfaces—the deforming-spatial-domain/space-time procedure. I: The concept and the preliminary numerical tests

Computer Methods in Applied Mechanics and Engineering
Exact-gradient shape optimization of a 2-D Euler flow

Finite Elements in Analysis and Design

Quantified Score

Hi-index	0.00

Visualization

Abstract

A shape design algorithm for viscous compressible turbulent flows is described. This approach is based on the coupling of an incomplete gradient formulation, which avoids adjoint state computation, with a multi-level method. Using the coarsest level of control parameters, a completed gradient formulation is also proposed to improve the accuracy of the approximate gradient computation. The performance of the present approach is demonstrated by several numerical experiments for aeronautical applications (inverse and direct problems for transonic airfoils) as well as naval ones (optimisation of upwind flying sail for sailing yacht).