2017
DOI: 10.1002/aic.15801
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Mixing dynamics in bubbling fluidized beds

Abstract: Solids mixing affects thermal and concentration gradients in fluidized bed reactors and is, therefore, critical to their performance. Despite substantial effort over the past decades, understanding of solids mixing continues to be lacking because of technical limitations of diagnostics in large pilot and commercial‐scale reactors. This study is focused on investigating mixing dynamics and their dependence on operating conditions using computational fluid dynamics simulations. Toward this end, fine‐grid 3D simu… Show more

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Cited by 18 publications
(16 citation statements)
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References 46 publications
(80 reference statements)
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“…The complex hydrodynamics of the fluidized bed by a gas flow is described by disordered mixing of solid particles and the formation of gas bubbles, that is confirmed in [25][26][27][28][29]. The effect on the fluid dynamics of a fluidized bed of various parameters was studied: gas injection time into the bed, gas flow velocity and bubbling regime [25], bubble dynamics during nonspherical particles fluidization [26], continuous injection of the central air jet into the bed [27], and features of the pseudo-two-dimensional two-zone gas-solid fluidized bed [28], from the features of solid particles and gas bubbles [29]. Researchers also paid attention to the study of the interphase heat transfer intensity between particles and the gas flow [30] and heat transfer to heat exchange surfaces located in the layer [31][32][33][34].…”
Section: Literature Reviewmentioning
confidence: 76%
“…The complex hydrodynamics of the fluidized bed by a gas flow is described by disordered mixing of solid particles and the formation of gas bubbles, that is confirmed in [25][26][27][28][29]. The effect on the fluid dynamics of a fluidized bed of various parameters was studied: gas injection time into the bed, gas flow velocity and bubbling regime [25], bubble dynamics during nonspherical particles fluidization [26], continuous injection of the central air jet into the bed [27], and features of the pseudo-two-dimensional two-zone gas-solid fluidized bed [28], from the features of solid particles and gas bubbles [29]. Researchers also paid attention to the study of the interphase heat transfer intensity between particles and the gas flow [30] and heat transfer to heat exchange surfaces located in the layer [31][32][33][34].…”
Section: Literature Reviewmentioning
confidence: 76%
“…Following the deep fluctuated pressure, the solid flux ɛ s u s , reveals a coherent relevance to the uniform flow periodicity (note the signal of w s in Figure b). Namely, it highly discloses the fingerprints of rising bubbles passage, with high effective solid mixing through the wake effect particles, emulsion drift particles, and the bubble eruptions particles . The gas flow, however, evolves as dense flow in rich solid areas, visible bubbles, and throughflow which bypasses through the bubbles .…”
Section: Resultsmentioning
confidence: 94%
“…Namely, it highly discloses the fingerprints of rising bubbles passage, with high effective solid mixing through the wake effect particles, emulsion drift particles, and the bubble eruptions particles. 37 The gas flow, however, evolves as dense flow in rich solid areas, visible bubbles, and throughflow which bypasses through the bubbles. 38 Hence ϵ g u g includes high fluctuated dynamics that absentees the recurrence between states and can be less appropriate for the periodicity disclosure.…”
Section: Resultsmentioning
confidence: 99%
“… A new reactor design methodology is envisioned which couples multiscale and multiphysics modeling (top), topology optimization design methods (lower right) and advanced manufacturing technologies (lower left). …”
Section: Adopting a New Reactor Design Methodology To Harness Modern mentioning
confidence: 99%