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Chapter

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Title

Unstable Periodically Forced Navier–Stokes Solutions–Towards Nonlinear First-Principle Reduced-Order Modeling of Actuator Performance

Authors

[ 1 ] Katedra Inżynierii Wirtualnej, Wydział Inżynierii Transportu, Politechnika Poznańska | [ 2 ] Wydział Inżynierii Mechanicznej, Politechnika Poznańska | [ P ] employee

Scientific discipline (Law 2.0)

[2.9] Mechanical engineering

Year of publication

2019

Chapter type

chapter in monograph

Publication language

english

Keywords
EN
  • frequency domain
  • Navier–Stokes computations
  • physical mode expansions
  • global stability eigenmodes
  • actuation mode
  • model-based flow control
Abstract

EN We advance the computation of physical modal expansions for unsteady incompressible flows. Point of departure is a linearization of the Navier–Stokes equations around its fixed point in a frequency domain formulation. While the most amplified stability eigenmode is readily identified by a power method, the technical challenge is the computation of more damped higher-order eigenmodes. This challenge is addressed by a novel method to compute unstable periodically forced solutions of the linearized Navier–Stokes solution. This method utilizes two key enablers. First, the linear dynamics is transformed by a complex shift of the eigenvalues amplifying the flow response at the given frequency of interest. Second, the growth rate is obtained from an iteration procedure. The method is demonstrated for several wake flows around a circular cylinder, a fluidic pinball, i.e. the wake behind a cluster of cylinders, a wall-mounted cylinder, a sphere and a delta wing. The example of flow control with periodic wake actuation and forced physical modes paves the way for applications of physical modal expansions. These results encourage Galerkin models of three-dimensional flows utilizing Navier–Stokes based modes.

Date of online publication

07.07.2018

Pages (from - to)

117 - 145

DOI

10.1007/978-3-319-91494-7_4

URL

https://link.springer.com/chapter/10.1007/978-3-319-91494-7_4

Book

Computational Modelling of Bifurcations and Instabilities in Fluid Dynamics

Ministry points / chapter

20

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