A new method for reconstruction of the structure of micro-packed beds of spherical particles from desktop X-ray microtomography images. Part A. Initial structure generation and porosity determination

Kashani, Moein Navvab; Živković, Vladimir; Elekaei, Hamideh; Biggs, Mark J.

doi:10.1016/j.ces.2016.02.031

Chemical Engineering Science

2016

DOI: 10.1016/j.ces.2016.02.031

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A new method for reconstruction of the structure of micro-packed beds of spherical particles from desktop X-ray microtomography images. Part A. Initial structure generation and porosity determination

Moein Navvab Kashani

Vladimir Živković

Hamideh Elekaei

et al.

Abstract: Citation: NAVVAB KASHANI, M. ...et al., 2016. A new method for reconstruction of the structure of micro-packed beds of spherical particles from desktop X-ray microtomography images. Part A. Initial structure generation and porosity determination. Chemical Engineering Science, 146, Additional Information:• This paper was accepted for publication in the journal Chemical En- AbstractMicro-packed beds (µPBs) are seeing increasing use in the process intensification context (e.g. micro-reactors), in separation and … Show more

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Cited by 6 publications

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“…In literature, generally a combination of non-uniform magnetic field and ferrofluid droplets (FFDs) was used to demonstrate various aspects of LoC operations, such as: (i) FFD breakup by the non-uniform magnetic field of a permanent magnet in a microfluidic Y junction44, flow focusing devices4546, a straight channel47 and at a T-junction48. (ii) Nguyen et al .…”

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Droplet Merging on a Lab-on-a-Chip Platform by Uniform Magnetic Fields

Varma

Ray

Wang

et al. 2016

Sci Rep

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Droplet microfluidics offers a range of Lab-on-a-chip (LoC) applications. However, wireless and programmable manipulation of such droplets is a challenge. We address this challenge by experimental and modelling studies of uniform magnetic field induced merging of ferrofluid based droplets. Control of droplet velocity and merging was achieved through uniform magnetic field and flow rate ratio. Conditions for droplet merging with respect to droplet velocity were studied. Merging and mixing of colour dye + magnetite composite droplets was demonstrated. Our experimental and numerical results are in good agreement. These studies are useful for wireless and programmable droplet merging as well as mixing relevant to biosensing, bioassay, microfluidic-based synthesis, reaction kinetics, and magnetochemistry.

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confidence: 99%

Droplet Merging on a Lab-on-a-Chip Platform by Uniform Magnetic Fields

Varma

Ray

Wang

et al. 2016

Sci Rep

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Experimental study of efficient mixing in a micro-fluidized bed

Živković

Ridge

Biggs

2017

Applied Thermal Engineering

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A new method for reconstruction of the structure of micro-packed beds of spherical particles from desktop X-ray microtomography images. Part B. Structure refinement and analysis

Kashani

Živković

Elekaei

et al. 2016

Chemical Engineering Science

Self Cite

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Citation: NAVVAB KASHANI, M. ...et al., 2016. A new method for reconstruction of the structure of micro-packed beds of spherical particles from desktop X-ray microtomography images. Part B. Structure refinement and analysis.Chemical Engineering Science, 153, Additional Information:• This paper was accepted for publication in the journal. Chemical En- AbstractThe authors have reported elsewhere (Chem. Eng. Sci., 146, 337, 2016) a new method that derives models of micro-packed beds (µPBs) of near-spherical particles from X-ray microtomography grayscale images of limited resolution compared to the characteristics dimensions of the particles and porosity. The new method is distinguished by it not requiring a grayscale threshold to partition the images into solid and void phases, and its retention of the underlying spherical geometry, two issues that are particularly problematic when more traditional approaches are used to build models of µPBs. Here it is shown that a reverse Monte Carlo (RMC) algorithm combined with simulated annealing (SA) can refine the models obtained from this new method to eliminate the vast majority of particle overlaps and incorporate particle size distributions. Application of the RMC-SA to an initial model of a µPB yielded a porosity estimate that was, within experimental uncertainty, the same as its directly measured counterpart. It was further shown that the porosity of µPBs is near unity at the bed wall and oscillates in a decaying fashion normal to the wall up to a distance of around three particle diameters into the bed. This leads to the porosity decreasing with increasing bed-to-particle diameter ratio. The opposite was observed, however, for the average number of particle-particle contacts (the mean coordination number). This latter behaviour has two origins: one in which the bulk of the bed where the coordination number is maximal and constant exerts increasing influence (volumetric origin), and one in which the packing density inherently decreases with the bed-to-particle diameter ratio (packing origin).

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A new method for reconstruction of the structure of micro-packed beds of spherical particles from desktop X-ray microtomography images. Part A. Initial structure generation and porosity determination

Cited by 6 publications

References 58 publications

Droplet Merging on a Lab-on-a-Chip Platform by Uniform Magnetic Fields

Droplet Merging on a Lab-on-a-Chip Platform by Uniform Magnetic Fields

Experimental study of efficient mixing in a micro-fluidized bed

A new method for reconstruction of the structure of micro-packed beds of spherical particles from desktop X-ray microtomography images. Part B. Structure refinement and analysis

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