2004
DOI: 10.1063/1.1779671
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Observations of flow repeatability and secondary circulation in an oscillating grid-stirred tank

Abstract: An oscillating grid-stirred tank was studied for flow repeatability and the existence of secondary circulations. For the particular tank studied, results indicate that mean flow values may vary by up to 25% and turbulent fluctuations may vary by up to 15% from one run to another. This result was observed to exhibit a potential grid geometry dependence. More importantly, there is evidence of significant flow field sensitivity to initial conditions. Particle image velocimetry results were used to reveal secondar… Show more

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Cited by 49 publications
(43 citation statements)
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“…Laboratory measurements have indeed shown β rms to be a good measure for mass transfer as it implicitly takes the surface conditions into account (Turney & Banerjee 2013). Figure 9 shows the dependency of K L on the surface divergence supporting the surface divergence model of McCready et al (1986), K L ∝ √ β rms D. It can be seen that our numerical results predict that K L = 0.525 √ β rms D which matches the trend of the experimental results in grid-stirred tanks performed by Herlina & Jirka (2008); McKenna & McGillis (2004a). The advantage of the present numerical simulation is that surface contamination is not an issue so that unbiased investigations of the effect of Sc and the turbulence levels (here described in terms of the turbulent Reynolds number R T ) can be performed.…”
Section: Transfer Velocitysupporting
confidence: 77%
“…Laboratory measurements have indeed shown β rms to be a good measure for mass transfer as it implicitly takes the surface conditions into account (Turney & Banerjee 2013). Figure 9 shows the dependency of K L on the surface divergence supporting the surface divergence model of McCready et al (1986), K L ∝ √ β rms D. It can be seen that our numerical results predict that K L = 0.525 √ β rms D which matches the trend of the experimental results in grid-stirred tanks performed by Herlina & Jirka (2008); McKenna & McGillis (2004a). The advantage of the present numerical simulation is that surface contamination is not an issue so that unbiased investigations of the effect of Sc and the turbulence levels (here described in terms of the turbulent Reynolds number R T ) can be performed.…”
Section: Transfer Velocitysupporting
confidence: 77%
“…The mean flow within OGT has been studied in detail in numerous previous studies (see for example De Silva & Fernando 1994;McKenna & McGillis 2004;McDougall 1979;Dohan & Sutherland 2002), and the qualitative characteristics of the mean flow observed with our apparatus are little different to those reported in these studies. In particular, the mean flow is not symmetrical, being most intense close to the grid (and tank walls) and decaying with distance below the grid.…”
Section: Mean Flowmentioning
confidence: 64%
“…In particular, the mean flow is not symmetrical, being most intense close to the grid (and tank walls) and decaying with distance below the grid. Plots showing typical mean-flow fields observed in OGT can be found, for example, in McKenna & McGillis (2004).…”
Section: Mean Flowmentioning
confidence: 99%
“…Isotropy ratios were slightly more variable than those in tanks with turbulence generated by a single grid (Hopfinger and Toly 1976; De Silva and Fernando 1994) or jet actuators (Hwang and Eaton 2004; Webster et al 2004) but no greater than those in other double‐grid tanks (Srdic et al 1996; Shy et al 1997). Some anisotropy can be attributed to unavoidable secondary circulations (e.g., McKenna and McGillis 2004). Dissipation rates were estimated without assuming isotropy and were relatively homogeneous both horizontally and vertically (Fig.…”
Section: Resultsmentioning
confidence: 99%