A low-dimensional tool for predicting force decomposition coefficients for varying inflow conditions
by Mehdi Ghommem; Imran Akhtar; Muhammad R. Hajj
Progress in Computational Fluid Dynamics, An International Journal (PCFD), Vol. 13, No. 6, 2013

Abstract: We develop a low-dimensional tool to predict the effects of unsteadiness in the inflow on force coefficients acting on a circular cylinder using proper orthogonal decomposition (POD) modes from steady flow simulations. The approach is based on combining POD and linear stochastic estimator (LSE) techniques. We use POD to derive a reduced-order model (ROM) to reconstruct the velocity field. To overcome the difficulty of developing a ROM using Poisson's equation, we relate the pressure field to the velocity field through a mapping function based on LSE. The use of this approach to derive force decomposition coefficients (FDCs) under unsteady mean flow from basis functions of the steady flow is illustrated. For both steady and unsteady cases, the final outcome is a representation of the lift and drag coefficients in terms of velocity and pressure temporal coefficients. Such a representation could serve as the basis for implementing control strategies or conducting uncertainty quantification.

Online publication date: Tue, 29-Apr-2014

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