Journal article

The influence of pipe length on turbulence statistics computed from direct numerical simulation data

C Chin, ASH Ooi, I Marusic, HM Blackburn

Physics of Fluids | Published : 2010

Abstract

In this paper, direct numerical simulation of fully developed turbulent pipe flow is carried out at Reτ≈170 and 500 to investigate the effect of the streamwise periodic length on the convergence of turbulence statistics. Mean flow, turbulence intensities, correlations, and energy spectra were computed. The findings show that in the near-wall region (below the buffer region, r+≤30), the required pipe length for all turbulence statistics to converge needs to be at least a viscous length of O(6300) wall units and should not be scaled with the pipe radius (δ). It was also found for convergence of turbulence statistics at the outer region that the pipe length has to be scaled with pipe radius and..

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Grants

Awarded by Australian Research Council


Funding Acknowledgements

The authors gratefully acknowledge the financial support of the Australian Research Council and the computational resources of the Australian Partnership for Advanced Computing (MAS Grant Nos p46, m45, and d77) and the Victorian Partnership for Advanced Computing (Project Nos pMelb0037 and pMelb0061)