2017
DOI: 10.1103/physrevfluids.2.104605
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Steady state model and experiment for an oscillating grid turbulent two-layer stratified flow

Abstract: Turbulence generated by an oscillating grid in a two-layer stably stratified system is a classical flow utilised to study various aspects of turbulence in presence of stratification without mean shear.This flow evolves in a quasi-steady state, in which the layer thickness and density difference evolves in a quasi-steady manner due to the large separation of timescales between the turbulence and the setup. We present an extension of the classical setup that enables full steady state conditions and in which the … Show more

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Cited by 10 publications
(19 citation statements)
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“…µ e α ≈ 1 in (10) which substituted in (11), leads for this onset u d = w s ⇐⇒ u δ = νw s d ≈ 2 mm/s (18) and θ ch ≈ 1 18 (19) In figure 9-a, horizontal motion initiation happens with u δ ≥ 2 mm/s. To know which force balances buoyancy in the initiation of vertical motion, parameter A needs to be estimated.…”
Section: Please Cite This Article As Doi:101063/15141943mentioning
confidence: 96%
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“…µ e α ≈ 1 in (10) which substituted in (11), leads for this onset u d = w s ⇐⇒ u δ = νw s d ≈ 2 mm/s (18) and θ ch ≈ 1 18 (19) In figure 9-a, horizontal motion initiation happens with u δ ≥ 2 mm/s. To know which force balances buoyancy in the initiation of vertical motion, parameter A needs to be estimated.…”
Section: Please Cite This Article As Doi:101063/15141943mentioning
confidence: 96%
“…In figure 10, the particle is ejected with an overall velocity of the order of 3 37 , to be lifted up by the flow, the particle needs to be exposed during a specific duration T to a flow favoring both a horizontal movement and a lift up ("impulse approach"). In other words to have a particle set up in the vertical erosion process, both the horizontal movement and lift up criteria (see (18) and (20)) need to be verified by the flow close by the particle for a duration of at least T .…”
Section: Please Cite This Article As Doi:101063/15141943mentioning
confidence: 99%
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“…Oscillating grid stirred tanks have been used for many purposes in research on turbulence. Among them is the study of interactions between turbulence and solid impermeable boundaries Munro 2017, 2018a), turbulence and gas-liquid mass transfer at a free surface (Brumley and Jirka 1987;Chiapponi et al 2012;Herlina 2005;McKenna and McGillis 2004b), in stratified media (Hopfinger and Toly 1976;Thompson and Turner 1975;Verso et al 2017;Xuequan and Hopfinger 1986), or study the behavior of bubbles, cells, fibres and aggregates suspended in a turbulent liquid phase (Mahamod et al 2017;Nagami and Saito 2013;Rastello et al 2017;San et al 2017). Apart from fundamental turbulence studies, oscillating grids are used as flotation cells (Cuthbertson et al 2018;Massey et al 2012;Safari et al 2017) in tanks with various shapes (tubular, prismatic, etc.…”
Section: Introductionmentioning
confidence: 99%
“…Oscillating grid apparatus have been commonly used in experimental fluid mechanics since the seminal works of 20,21 . Numerous applications can be found in the literature, among which the study of interactions between turbulence and solid impermeable boundaries, 23,24 of turbulence and gas–liquid mass transfer at a free surface, 19,25‐28 in stratified media, 20,21,29,30 or to study the behavior of bubbles, cells, fibers, and flocculation aggregates suspended in a turbulent liquid phase 31‐35 . Oscillating grid stirred tanks are thus tools that allow to generate and study controlled turbulence.…”
Section: Introductionmentioning
confidence: 99%