Yassine Mahdi scite author profile

Generating micrometer sized droplets has been studied in a microfluidic system with Tjunction geometry 250 μm in internal diameter and with PTFE capillary tubing. Several experiments were conducted by varying the flow rate of the dispersed phase from 2.78 • 10 −11 m 3 /s to 5.28 • 10 −9 m 3 /s and that of the continuous phase from 2.78 • 10 −10 m 3 /s to 1.94 • 10 −9 m 3 /s. The visualization of different flow regimes (drop, plug, and annular) was carried out for three configurations (not inverted in a horizontal position, inverted in a horizontal position, and inverted in a vertical position) for low capillary numbers. The model of Gauss was also chosen for a droplet size distribution in the dispersed phase, with the flow quality x varying from 0.016 to 0.44. The evolution of the drop size distribution as a function of the flow quality in the dispersed phase shows that the variation coefficient of the droplet's diameter is inversely proportional to the flow quality.

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Implementation of an artificial neural network as a PAT tool for the prediction of temperature distribution within a pharmaceutical fluidized bed granulator

Korteby

Mahdi

Azizou

et al. 2016

European Journal of Pharmaceutical Sciences

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Yassine Mahdi

Microdroplet size prediction in microfluidic systems via artificial neural network modeling for water-in-oil emulsion formulation

Two-phase flow patterns and size distribution of droplets in a microfluidic T-junction: Experimental observations in the squeezing regime

Implementation of an artificial neural network as a PAT tool for the prediction of temperature distribution within a pharmaceutical fluidized bed granulator

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