2015
DOI: 10.1017/jfm.2015.414
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On scaling pipe flows with sinusoidal transversely corrugated walls: analysis of data from the laminar to the low-Reynolds-number turbulent regime

Abstract: Direct numerical simulation was used to study laminar and turbulent flows in circular pipes with smoothly corrugated walls. The corrugation wavelength was kept constant at 0.419D, where D is the mean diameter of the wavy-wall pipe and the corrugation height was varied from zero to 0.08D. Flow rates were varied in steps between low values that generate laminar flow and higher values where the flow is in the post-transitional turbulent regime. Simulations in the turbulent regime were also carried out at a consta… Show more

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Cited by 13 publications
(3 citation statements)
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“…MKW13 show that when consistently normalized using u τ and y m the mean vorticity profiles from smooth and rough flows merge near y m . The recent analysis of pipe flow DNS by Saha et al (2015) provides additional corroboration. The geometric simplicity of their sinusoidal roughness allowed the mean pressure gradient in corrugated-wall pipe flow to be expressed as an explicit function of the roughness height.…”
Section: Extension To Rough-wall Flowsmentioning
confidence: 62%
See 1 more Smart Citation
“…MKW13 show that when consistently normalized using u τ and y m the mean vorticity profiles from smooth and rough flows merge near y m . The recent analysis of pipe flow DNS by Saha et al (2015) provides additional corroboration. The geometric simplicity of their sinusoidal roughness allowed the mean pressure gradient in corrugated-wall pipe flow to be expressed as an explicit function of the roughness height.…”
Section: Extension To Rough-wall Flowsmentioning
confidence: 62%
“…The y + range and |Ω + z | values over which this power-law dependence exists, however, varies considerably depending upon the surface condition. The rough-wall extension of the present theory postulates that this starting position is a function of both roughness and Reynolds number (Mehdi et al 2013;Saha et al 2015). Accordingly, the theory prescribes that the mean vorticity profiles can be brought into alignment beginning near the onset of the inertial domain by scaling the data as in figure 13(b).…”
Section: Spanwise Vorticity Statistics 521 Mean and Variance Profilesmentioning
confidence: 83%
“…A wavy tube with a sinusoidal wavy wall can be assumed as a smoothed version of a corrugated pipe to reduce the pressure loss due to its grooves. Several practical applications of corrugated and wavy tubes are reported in industrial heat exchangers, including chemical reactors, paint manufacturing, the food industries, marine and pharmaceuticals (Abbasian Arani and Memarzadeh, 2022; Saha et al , 2015; Li et al , 2023a). Fluid flow inside corrugated and wavy pipes is characterized by complex interactions between free shear layers, separated vortices and driving wall-bounded shear flow, which may increase the rate of heat transfer.…”
Section: Introductionmentioning
confidence: 99%