Jamel Madiouli scite author profile

Among the numerous models developed to predict the shrinkage of materials during drying, the model developed by Katekawa and Silva [1] gives a general relationship between shrinkage and porosity with a limited number of parameters such as initial density of the wet product, true density of the solid phase, and true density of the liquid phase. A graphical interpretation of this model is proposed to visualize the changes of porosity by comparing the experimental shrinkage curve with an ideal one. Four examples are given to illustrate the applicability of the model using different materials (carrot, banana, xerogel, and sludge), two types of the solvent (water, isopropanol), and two drying technologies (convective drying, freeze drying). Porosity calculations were found to be very consistent and complementary with porosity measurements.

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Determination of porosity change from shrinkage curves during drying of food material

Madiouli

Sghaier

Lecomte

et al. 2012

Food and Bioproducts Processing

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Based on a very simple model of mass conservation, three experimental properties (solid density, liquid density and initial bulk density) and the simultaneous acquisition of the reduced moisture content and the volume shrinkage during drying, a simple method is proposed to calculate the bulk porosity of a material during drying. This model allows a graphical interpretation to visualize the porosity change by comparing the experimental shrinkage curve with an ideal shrinkage curve. In the present work, several examples were taken from the literature to illustrate the application of this method to foodstuffs (apple, banana, carrot, garlic, pear, potato and sweet potato) with two different processes (convective drying, freeze-drying) and different drying conditions. Porosity calculations including error estimations showed a good agreement with experimental values reported in the literature.

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Effects of size and form of Arthrospira Spirulina biomass on the shrinkage and porosity during drying

Desmorieux

Madiouli²,

Herraud

et al. 2010

Journal of Food Engineering

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Experimental study and evaluation of single slope solar still combined with flat plate collector, parabolic trough and packed bed

et al. 2020

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Jamel Madiouli

A Method for Determination of Porosity Change from Shrinkage Curves of Deformable Materials

Determination of porosity change from shrinkage curves during drying of food material

Effects of size and form of Arthrospira Spirulina biomass on the shrinkage and porosity during drying

Experimental study and evaluation of single slope solar still combined with flat plate collector, parabolic trough and packed bed

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