2017
DOI: 10.1007/s00162-017-0436-y
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CFD study on rise and deformation characteristics of buoyancy-driven spheroid bubbles in stagnant Carreau model non-Newtonian fluids

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Cited by 8 publications
(5 citation statements)
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“…A comparison between the theoretical and numerical results of frequency of bubble formation shows that the CLSM is more accurate than the VOF method to reproduce the bubble formation frequency, with a relative error lower than 2%. If the numerical bubble frequency is compared against the extrapolated bubble frequency from the verification study 12.61 (1/s), the relative error (e 21 ext × 100%) is lower than 5%, which shows that the results are in the asymptotic range of convergence. The bubble formation is considered to take place in the dynamic regime according to Mccann and Prince [39] since the flow rate used in this study is near to 3.93 × 10 −6 m 3 /s.…”
Section: Bubble Formation Process From An Orifice Embedded In Water Amentioning
confidence: 90%
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“…A comparison between the theoretical and numerical results of frequency of bubble formation shows that the CLSM is more accurate than the VOF method to reproduce the bubble formation frequency, with a relative error lower than 2%. If the numerical bubble frequency is compared against the extrapolated bubble frequency from the verification study 12.61 (1/s), the relative error (e 21 ext × 100%) is lower than 5%, which shows that the results are in the asymptotic range of convergence. The bubble formation is considered to take place in the dynamic regime according to Mccann and Prince [39] since the flow rate used in this study is near to 3.93 × 10 −6 m 3 /s.…”
Section: Bubble Formation Process From An Orifice Embedded In Water Amentioning
confidence: 90%
“…In this study, the singularities arise when the bubble neck's pinch-off (a finite time singularity in the flow where pressure, velocity, and curvature diverge), consequently this gives non-conservative estimates of discretization errors since the convergence condition (R) [38] corresponds to divergence with R = ε 21 /ε 32 = 10, where ε 21 = φ 2 − φ 1 and ε 32 = φ 3 − φ 2 . Despite that a divergence condition was obtained because of the singularities arising in the study, the verification of numerical accuracy was considered acceptable based on the GCI value and the extrapolated critical variable value (ϕ 21 ext = 12.61 [1/s]). The study was also validated by comparing the numerical values of the bubble frequency against those predicted by the analytical equation reported in [25].…”
Section: Mesh Resolutionmentioning
confidence: 99%
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“…The level set method only needs to solve one transport equation, therefore it is less computational power demanding [12]. Its capabilities were proved in many studies of two phase problems [7], [13]- [17]. These are the main reasons, why Level set method was chosen.…”
Section: Methodsmentioning
confidence: 99%
“…The results from 2D axisymmetrical simulations were also used for a comparison of the results obtained from the 3D simulation. The Level set method implemented in COMSOL Multiphysics has been tested multiple times on various multiphase flow phenomena [9,15,16]. These essential studies have shown the suitability of using the Level set method, but various fluids have not been tested.…”
Section: Introductionmentioning
confidence: 99%