Laminar‐forced convection mass transfer to ordered and disordered single layer arrays of spheres

Ambesi, D.; Kleijn, Chris R.

doi:10.1002/aic.13904

Cited by 4 publications

(2 citation statements)

References 24 publications

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“…All our simulations are two‐dimensional (2‐D), and as a consequence the carbon particles are modeled as thin, infinitely long cylindrical fibers with their axes perpendicular to the flow direction. In a previous study, we have shown that, for a given open frontal area, the mass transfer to such fibers differs little from that to spherical particles. The air gap thickness δ g is uniform along the angular direction θ in all our simulations.…”

Section: Numerical Modelmentioning

confidence: 99%

Forced convection mass deposition and heat transfer onto a cylinder sheathed by protective garments

et al. 2013

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In chemical, biological, radiological, and nuclear protective clothing, a layer of activated carbon material in between two textile layers provides protection against hazardous gases. A cylinder in cross flow, sheathed by such material, is generally used to experimentally test the garment properties. This is, however, complicated and predictive models are needed. We present a computational fluid dynamics model for the initial phase in which the carbon filter material is not yet saturated. The textiles are modeled as chemically inactive porous layers, the carbon filter particles have been resolved explicitly. The model has been validated against experimental data. We demonstrate that (1) computational fluid dynamics simulations can be used for the efficient design and optimization of protective garments, and (2) the addition of a highly porous active carbon layer highly increases the chemical protection capabilities, while having relatively little negative impact on the thermal comfort of protective garments.

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Section: Numerical Modelmentioning

confidence: 99%

Forced convection mass deposition and heat transfer onto a cylinder sheathed by protective garments

et al. 2013

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“…Numerical simulations are potentially part of their toolbox. The equations to be solved are largely known, and so are the basic material properties (most notably viscosities and diffusion coefficients) and there are many examples of successful applications of numerical solutions to heat and mass transfer problems in fluid‐solid systems …”

Section: Introductionmentioning

confidence: 99%

Simulations of solid–liquid scalar transfer for a spherical particle in laminar and turbulent flow

Derksen

2014

AIChE Journal

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Scalar transfer from a solid sphere to a surrounding liquid has been studied numerically. The simulation procedure involves full hydrodynamic resolution of the solid-liquid interaction and the flow (laminar and turbulent) of the carrier fluid by means of the lattice-Boltzmann method. Scalar transport is solved with a finite volume method on coupled overlapping domains (COD): an outer domain discretized with a cubic grid and a shell around the solid sphere with a spherical grid with fine spacing in the radial direction. The shell is needed given the thin scalar boundary layer around the sphere that is the result of high Schmidt numbers (up to Sc 5 1000). After assessing the COD approach for laminar benchmark cases, it is applied to a sphere moving through homogeneous isotropic turbulence with the sphere radius larger (by typically a factor of 10) than the Kolmogorov length scale so that it experiences an inhomogeneous hydrodynamic environment. This translates in pronounced scalar concentration variations and transfer rates over the sphere's surface. Overall scalar-transfer coefficients are compared to those derived from classical Sherwood number correlations.

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Microstructural transition in an ordered set of magnetic spheres immersed in a carrier liquid

Gontijo

Malvar

2017

Mechanics Research Communications

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Laminar‐forced convection mass transfer to ordered and disordered single layer arrays of spheres

Cited by 4 publications

References 24 publications

Forced convection mass deposition and heat transfer onto a cylinder sheathed by protective garments

Forced convection mass deposition and heat transfer onto a cylinder sheathed by protective garments

Simulations of solid–liquid scalar transfer for a spherical particle in laminar and turbulent flow

Microstructural transition in an ordered set of magnetic spheres immersed in a carrier liquid

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