David F. Fletcher scite author profile

This paper is concerned with the numerical simulation of unsteady turbulent flows behind sudden expansions without inlet swirl. Time dependent simulations have been carried out using the VLES approach with the standard k-ε model. The expansion ratio investigated is in the range from 1.96–6.0. The simulations show that the flows in axisymmetric sudden expansions are inherently unstable when the expansion ratio is above a critical value. The precessing phenomenon, which features self-sustained precession of the global flowfield around the expansion centerline, is predicted successfully using CFD, with simulated oscillation frequencies that are in general agreement with reported data. For the case of expansion ratios from 3.5–6.0, a combination of a precession motion and a flapping motion in a rotating frame of reference is predicted in terms of the jet movement. Large-scale structures are identified in the downstream flowfield. Other important phenomena, such as the transition of the oscillation patterns, have also been predicted.

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Design, performance characterization and applications of continuous oscillatory baffled reactors

Avila

Kawas

Fletcher

et al. 2022

Chemical Engineering and Processing - Process Intensification

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A new volume of fluid advection algorithm: the defined donating region scheme

Harvie¹,

Fletcher²

2001

Int. J. Numer. Meth. Fluids

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Simulation of Turbulent Swirl Flow in an Axisymmetric Sudden Expansion

2001

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David F. Fletcher

Understanding gradients in industrial bioreactors

Numerical Simulation of Unsteady Turbulent Flow in Axisymmetric Sudden Expansions

Design, performance characterization and applications of continuous oscillatory baffled reactors

A new volume of fluid advection algorithm: the defined donating region scheme

Simulation of Turbulent Swirl Flow in an Axisymmetric Sudden Expansion

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