Perspective on the Response of Turbulent Pipe Flows to Strong Perturbations

Ding, Liuyang; Buren, Tyler Van; Gunady, Ian E.; Smits, Alexander J.

doi:10.3390/fluids6060208

Fluids

2021

DOI: 10.3390/fluids6060208

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Perspective on the Response of Turbulent Pipe Flows to Strong Perturbations

Liuyang Ding

Tyler Van Buren

Ian E. Gunady

et al.

Abstract: Pipe flow responds to strong perturbations in ways that are fundamentally different from the response exhibited by boundary layers undergoing a similar perturbation, primarily because of the confinement offered by the pipe wall, and the need to satisfy continuity. We review such differences by examining previous literature, with a particular focus on the response of pipe flow to three different kinds of disturbances: the abrupt change in surface condition from rough to smooth, the obstruction due to presence o… Show more

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Cited by 2 publications

References 41 publications

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Turbulent boundary layer response to uniform changes of the pressure force contribution

Gungor,

Maciel

2024

J. Fluid Mech.

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We investigate a turbulent boundary layer (TBL) under uniform pressure force variations, focusing on understanding its response to local pressure force, local pressure force variation (local disequilibrating effect) and upstream history. The flow starts as a zero-pressure-gradient (ZPG) TBL, followed by a uniform increase in the ratio of pressure force to turbulent force in the outer region and concludes with a uniform decrease of the same magnitude. This last zone includes a subzone with a diminishing adverse pressure gradient (APG), followed by an increasing favourable pressure gradient (FPG). In both subzones, the impact remains the same: mean momentum gain and turbulence reduction. In the outer region, the mean flow responds to force balance changes with a considerable delay. The accumulated flow history leads to a FPG TBL at the domain's end with a momentum defect comparable to APG TBLs. Below $y^+=10$ , the mean flow responds almost instantaneously to pressure force changes. In the overlap layer, velocity profiles deviate from the conventional logarithmic law of ZPG TBL. Outer-layer turbulence decays more slowly than it increases initially, the latter turbulence increase persisting even after the pressure force begins to decrease. As a result of the slow turbulence decay, the FPG TBL at the domain's end exhibits unusually high outer turbulence levels. Near the wall, turbulence responds with a delay to pressure force changes, partly due to the influence of large-scale turbulence. All these significant cumulative effects of continuous pressure force variation indicate that parameters based solely on local variables cannot fully describe the physics of non-equilibrium TBLs.

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Turbulent boundary layer response to uniform changes of the pressure force contribution

Gungor,

Maciel

2024

J. Fluid Mech.

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show abstract

Flow organization in the near wake of isolated and sheltered two-dimensional bar roughness elements

Hamed

O'Brien²,

Gallary³

et al. 2023

Phys. Rev. Fluids

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Perspective on the Response of Turbulent Pipe Flows to Strong Perturbations

Cited by 2 publications

References 41 publications

Turbulent boundary layer response to uniform changes of the pressure force contribution

Turbulent boundary layer response to uniform changes of the pressure force contribution

Flow organization in the near wake of isolated and sheltered two-dimensional bar roughness elements

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