Numerical and experimental study on spout elevation in spout‐fluidized beds

Buijtenen, van Maureen; Buist, KA Kay; Deen, NG Niels; Kuipers, J.A.M.; Leadbeater, Thomas; Parker, D.J.

doi:10.1002/aic.12765

Cited by 42 publications

(23 citation statements)

References 40 publications

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“…This approach has been widely utilized for predicting and validating hydrodynamics of gas-solid systems. [27][28][29][30][31] The TFM successfully describes the interfacial forces and the constitutive models for solid and fluid stresses. The interfacial forces are used to describe the momentum transfer between the phases, which significantly affects the hydrodynamic behavior of the two-phase flows.…”

Section: Introductionmentioning

confidence: 99%

Numerical Investigation on Effect of Food Particle Mass on Spout Elevation of a Gas–Particle Spout Fluidized Bed in a Microwave–Vacuum Dryer

et al. 2014

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The effect of food particle mass on the instantaneous fluid dynamic characteristics of a gas-particle spout fluidized bed in a pulsed spouted microwave-vacuum drying (PSMVD) system was investigated by a numerical method. The spout fluidization process in a pseudo-2D spout fluidized bed was simulated by computational fluid dynamics (CFD) using the inviscid two-fluid theory method (TFM) based on the kinetic theory of granular flow. The effect of particle mass on the particle flow pattern, jet penetration depth, and pressure drop was evaluated. Under a specific particle mass, the spout velocity was an important factor controlling particle status in the spout fluidized bed and a critical velocity was identified for effective transition of the flow pattern. With an increase in particle mass, the spout velocity tended to increase to obtain the expected gas-particle flow pattern and the correlation between the particle mass and particle flow pattern was revealed. This research on the fluid dynamic characteristics of a gas-particle spout fluidized bed could be used to improve the uniformity of particle mixing and microwave heating.

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Section: Introductionmentioning

confidence: 99%

Numerical Investigation on Effect of Food Particle Mass on Spout Elevation of a Gas–Particle Spout Fluidized Bed in a Microwave–Vacuum Dryer

et al. 2014

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“…The results show that segregation of solid phase becomes more pronounced with increasing the particle size difference and the segregation pattern is dependent on the mass ratio and density difference between the light and heavy particles. With the advancements of the computational algorithm and capacity, there is a growing interest in exploring the gas-solid hydrodynamics and the solid transporting mechanisms in such an apparatus using the numerical approach [18][19][20][21][22].…”

Section: Introductionmentioning

confidence: 99%

Numerical investigation of the time-related properties of solid phase in a 3-D spout-fluid bed

Luo

Yang

et al. 2015

Chemical Engineering Journal

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“…Compared to other industrial process tomography techniques, electrical capacitance tomography (ECT) shows advantages in terms of fast imaging speed, no radiation, robustness, and low cost . Moreover, considering the non‐conductive nature of materials in gas–solid bubbling fluidized beds, ECT is a suitable measuring technique for hydrodynamic investigation of these reactors …”

Section: Introductionmentioning

confidence: 99%

Investigation of gas–solid bubbling fluidized beds using ECT with a modified Tikhonov regularization technique

et al. 2017

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Electrical capacitance tomography (ECT) provides a non-intrusive means to visualize cross-sectional material distribution of gas-solid bubbling fluidized beds. Successful application of ECT strongly depends on the image reconstruction algorithm used. For on-line measurements of bubbling fluidized beds, employing an algorithm that can produce highquality images without extensive computation is necessary. Using the conventional Tikhonov regularization algorithm, image quality in the central area is basically satisfied but suffers from artifacts in the near-wall region. To solve this problem, a similar division operation learned from linear back projection was introduced to modify the conventional Tikhonov algorithm. Both numerical simulations and experiments were performed to evaluate the modified technique.The results indicate that the artifacts can be effectively removed and the reconstructed image quality is similar to Landweber method with dozens of iterations. Furthermore, the modified Tikhonov technique shows high accuracy when obtaining important hydrodynamic parameters in gas-solid bubbling fluidized beds. V C 2017 American Institute of Chemical Engineers AIChE J, 64: 29-41, 2018

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Numerical and experimental study on spout elevation in spout‐fluidized beds

Cited by 42 publications

References 40 publications

Numerical Investigation on Effect of Food Particle Mass on Spout Elevation of a Gas–Particle Spout Fluidized Bed in a Microwave–Vacuum Dryer

Numerical Investigation on Effect of Food Particle Mass on Spout Elevation of a Gas–Particle Spout Fluidized Bed in a Microwave–Vacuum Dryer

Numerical investigation of the time-related properties of solid phase in a 3-D spout-fluid bed

Investigation of gas–solid bubbling fluidized beds using ECT with a modified Tikhonov regularization technique

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