Characterisation of the global breakage pattern of maltodextrin agglomerates

Breakage is important in several operations in food industry as well as in quality control of brittle products. Recently, the breakage pattern of maltodextrin agglomerates (a food model) has been described by our research group by using multifractal parameters; however, this behaviour has not elucid...

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Bibliographic Details
Published in:Powder technology 2019-02, Vol.343, p.362-365
Main Authors: García-Armenta, Evangelina, Gutiérrez-López, Gustavo F., Hernández-Sánchez, Humberto, Alamilla-Beltrán, Liliana
Format: Article
Language:English
Subjects:
Agglomerates
Agglomeration
Breakage
Computer simulation
Digital image analysis
Digital imaging
Food industry
Food processing industry
Fractal analysis
Image analysis
Image processing
Lacunarity
Linear equations
Maltodextrin
Maltodextrin agglomerates
Mathematical models
Mathematical morphology
Monofractal dimension
Morphology
Quality control
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Summary:Breakage is important in several operations in food industry as well as in quality control of brittle products. Recently, the breakage pattern of maltodextrin agglomerates (a food model) has been described by our research group by using multifractal parameters; however, this behaviour has not elucidated and explained completely such pattern from the onset of breaking to the edge of the breakage profile. Therefore, the aim of this work was to analyse the geometry and symmetry of 10 sections of the breakage pattern of maltodextrin agglomerates by means of digital image analysis (DIA) and fractal analysis. Results showed significant differences in monofractal dimension (MFD) values at 30% and 90% of the breakage pattern length, indicating that two important morphometric changes occurred along the breakage pattern: one section characterised by a MFD value of 1.1 (more irregular morphology) and other section with a MFD value of 0.8 (less irregular morphology). To validate and verify the experimental MFD values, Monte Carlo derived models were fitted to experimental data, obtaining predicted MFD values in agreement to those obtained by DIA. Predicted MDF values were mostly affected (more sensitive) by the inputs to the linear equation as compared to those of a sixth-order equation. Therefore, the onset of the breakage pattern had a different morphology in comparison to the edge of the profile. Also, no significant differences in lacunarity values were observed along the two (according to MFD values) sections of the breakage pattern. This study helps to explaining the multifractal nature of the breakage pattern and provides valuable information towards the understanding of the complex phenomenon of breakage and its onset. [Display omitted] •Onset's morphology of the breakage pattern was analysed by digital image analysis.•Two important morphometric changes occurred along the breakage pattern.•The onset of the breakage pattern was more irregular than the edge.
ISSN:0032-5910
1873-328X
DOI:10.1016/j.powtec.2018.11.064