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Original Articles

On minimum aspect ratio for duct flow facilities and the role of side walls in generating secondary flows

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Pages 588-606 | Received 07 Jul 2014, Accepted 04 Dec 2014, Published online: 19 Mar 2015
 

Abstract

To the surprise of some of our colleagues, we recently recommended aspect ratios of at least 24 (instead of accepted values over last few decades ranging from 5 to 12) to minimise effects of side walls in turbulent duct flow experiments, in order to approximate the two-dimensional channel flow. Here we compile available results from hydraulics and civil engineering literature, where this was already documented in the 1980s. This is of great importance due to the large amount of computational studies (mainly direct numerical simulations, DNSs) for spanwise-periodic turbulent channel flows, and the extreme complexity of constructing a fully developed duct flow facility with aspect ratio of 24 for high Reynolds numbers with adequate probe resolution. Results from this non-traditional literature for the turbulence community are compared to our recent database of DNS of turbulent duct flows with aspect ratios ranging from 1 to 18 at Reτ, c values of 180 and 330, leading to very good agreement between their experimental and our computational results at these low Reynolds numbers. The DNS results also reveal the complexity of a multitude of streamwise vortical structures in addition to the secondary corner flows (which extend up to z ≃ 5h). These time-dependent and meandering streamwise structures are located at the core of the duct and scale with its half-height. Comparisons of these structures with the vortical motions found in spanwise-periodic channels reveal similitudes in their time-averages and the same rate of decay of their mean kinetic energy ∼ T− 1A, with TA being the averaging time. However, differences between the two flows are identified and ideas for their future analysis are proposed.

Acknowledgements

This research article is based on a presentation by the last author during the Wall Turbulence Colloquium under the Midnight Sun held at Trondheim in June 2014. The authors would like to thank Paul F. Fischer and Aleksandr Obabko for their help with usage of the Intrepid and Mira systems at Argonne National Laboratory.

Disclosure statement

No potential conflict of interest was reported by the authors.

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