English

Direct numerical simulation of high aspect ratio spanwise-aligned bars

Fluid Dynamics 2020-12-09 v1

Abstract

We conduct minimal-channel direct numerical simulations of turbulent flow over two-dimensional rectangular bars aligned in the spanwise direction. This roughness has been often described as dd-type, as the roughness function ΔU+\Delta U^+ is thought to depend only on the outer-layer length scale (pipe diameter, channel half height or boundary layer thickness). This is in contrast to conventional engineering rough surfaces, named kk-type, for which ΔU+\Delta U^+ depends on the roughness height, kk. The minimal-span rough-wall channel is used to circumvent the high cost of simulating high Reynolds number flows, enabling a range of bars with varying aspect ratios to be investigated. The present results show that increasing the trough-to-crest height (kk) of the roughness while keeping the width between roughness bars, W\mathcal{W}, fixed in viscous units, results in non-kk-type behaviour although this does not necessarily indicate dd-type behaviour. Instead, for deep surfaces with k/W3k/\mathcal{W}\gtrsim 3, the roughness function appears to depend only on W\mathcal{W} in viscous units. In these situations, the flow no longer has any information about how deep the roughness is and instead can only `see' the width of the fluid gap between the bars.

Keywords

Cite

@article{arxiv.2012.04096,
  title  = {Direct numerical simulation of high aspect ratio spanwise-aligned bars},
  author = {M. MacDonald and A. Ooi and R. García-Mayoral and N. Hutchins and D. Chung},
  journal= {arXiv preprint arXiv:2012.04096},
  year   = {2020}
}

Comments

Accepted in the Journal of Fluid Mechanics

R2 v1 2026-06-23T20:48:00.121Z