Singular geometry perturbation based method for shape-topology optimization in unsteady Stokes flow

• Published in: Journal of mathematical analysis and applications Vol. 517; no. 2; p. 126648
• Main Authors: Malek, Rakia, Hassine, Maatoug, Hrizi, Mourad
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 15.01.2023
• Subjects: Fluid mechanics; Numerical simulations; Topological derivative; Topology optimization; Topology optimization; Fluid mechanics; Numerical simulations; Topological derivative
• ISSN: 0022-247X; 1096-0813
• DOI: 10.1016/j.jmaa.2022.126648

This paper concerns the topological derivatives and its applications for solving shape and topology optimization problems in fluid mechanics. The fluid flow is governed by the unsteady incompressible Stokes equations in the two dimensional case. We derive a topological sensitivity analysis for this parabolic-type operator. The proposed approach is based on a preliminary estimate describing the variation of the velocity field caused by the presence of a small obstacle inside the fluid flow. We obtain a topological asymptotic expansion for the unsteady Stokes operator valid for a large class of shape functions and an arbitrarily shaped geometric perturbation. Then, the topological gradient is exploited for building an efficient and accurate topology optimization algorithm. Finally, we present some numerical investigations showing the efficiency of the proposed approach.