A Discrete Element Method Study of Monodisperse Mixing of Ellipsoidal Particles in a Rotating Drum

He, Siyuan; Gan, Jieqing; Pinson, David; Yu, Aibing; Zhou, Zongyan

doi:10.1021/acs.iecr.9b06623

Cited by 30 publications

(10 citation statements)

References 43 publications

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“…The products in the industries from pharmaceuticals, minerals, agriculture, and metallurgy fields always depend on the suitable granular flow and uniform particle mixing. − In these processes, the granular material formed in particles requires to be well mixed for high-quality end products. The quality of the products is highly affected by the design of mixers.…”

Section: Introductionmentioning

confidence: 99%

DEM Study of the Effect of Impeller Design on Mixing Performance in a Vertical Mixer

Lu¹,

Dai²,

Yang

2022

Ind. Eng. Chem. Res.

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Vertical mixers have been extensively practiced in a variety of engineering processes, yet the understanding of the relationship between solid transportation and mixing performance is still lacking. In this work, the discrete element method is used to study the particle dynamics and mixing characteristics in a vertical mixer featuring different impellers. After model validation, the effect of impeller design on the solid transportation (e.g., velocity, dispersion, and collision) and mixing performance is discussed. The results show that particles in the dead zone away from the influential region of the impellers tend to be stagnant and hard to be mixed. The two-impeller mixer shows the smallest dead zone ratio and the resulting best mixing performance among all mixers. The particle dispersion coefficient in the horizontal direction (Dx, Dy) shows the largest value, about one magnitude larger than that in the vertical direction (Dz) in all mixers, representing the more significant influence of the impeller on the horizontal particle motion than the vertical one. Dy is slightly larger than Dx due to the asymmetrical installation of impellers. For all mixers, the collision force in the vertical direction is nearly two times of that in the horizontal direction due to the combined effects of gravity and segregation. The present work is expected to shed light on the mixer design and process optimization.

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Section: Introductionmentioning

confidence: 99%

DEM Study of the Effect of Impeller Design on Mixing Performance in a Vertical Mixer

Lu¹,

Dai²,

Yang

2022

Ind. Eng. Chem. Res.

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“…To achieve better coating uniformity, various methods have been applied for the investigation, including the experimental studies − and numerical studies . Among all numerical methods, the discrete element method (DEM) provides abundant particle-level information, , which is a cost-efficient method and has been widely used to investigate the tablet coating. Freireich et al investigated intra-tablet coating uniformity of tablets with different shapes.…”

Section: Introductionmentioning

confidence: 99%

DEM-DDM Investigation of the Tablet Coating Process Using Different Particle Shape Models

Liu

Zhou

et al. 2022

Ind. Eng. Chem. Res.

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Tablets are usually spray-coated in the pharmaceutical industry, and coating uniformity is important for the coating process. In this study, discrete element method-discrete droplet method (DEM-DDM) is applied for the investigation of the coating process, tablets are described by different particle shape models, and the influence of different particle shape models on inter-tablet coating uniformity is investigated. Multi-sphere approach with two accuracies, multi-super-ellipsoid approach, and polyhedron approach are applied to describe the biconvex cylinder tablet. The proposed model is verified by a lab-scale coating experiment within a coating pan first. And then, the coating process in a coating drum with baffles is investigated. It can be found that inter-tablet coating uniformity is almost the same for the polyhedron and multi-super-ellipsoid approaches, and the inter-tablet coating uniformity obtained by the multi-sphere approach is lower than both of them. The influence of different parameters on inter-tablet coating uniformity is also studied, including the droplet diameter, the drum rotation speed, the spray range angle, and the nozzle number, which can provide guidance for the tablet coating process.

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“…For particle mixing, several computational models have been used in the literature [9][10][11], including continuum [9], multiscale continuum [12], and discrete element method (DEM) [13][14][15]. However, most studies relied on DEM since it has been shown to predict particle scale effects effectively [16][17][18][19][20]. Generally, discrete element particle mixing studies have used spherical particle models [21].…”

Section: Introductionmentioning

confidence: 99%

Investigation of Mixing Non-Spherical Particles in a Double Paddle Blender via Experiments and GPU-Based DEM Modeling

Jadidi

Ebrahimi

Ein‐Mozaffari

et al. 2022

The 1st International Electronic Conference on Processes: Processes System Innovation

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A Discrete Element Method Study of Monodisperse Mixing of Ellipsoidal Particles in a Rotating Drum

Cited by 30 publications

References 43 publications

DEM Study of the Effect of Impeller Design on Mixing Performance in a Vertical Mixer

DEM Study of the Effect of Impeller Design on Mixing Performance in a Vertical Mixer

DEM-DDM Investigation of the Tablet Coating Process Using Different Particle Shape Models

Investigation of Mixing Non-Spherical Particles in a Double Paddle Blender via Experiments and GPU-Based DEM Modeling

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