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Modeling the extraction of espresso components as dispersed flow through a packed bed
Citation Link: https://doi.org/10.15480/882.9180
Publikationstyp
Journal Article
Publikationsdatum
2024-05
Sprache
English
Author
Vaca Guerra, Mauricio
Payan Lozada, James
Enthalten in
Volume
368
Article Number
111913
Citation
Journal of Food Engineering 368: (2024-05)
Publisher DOI
Scopus ID
Publisher
Elsevier
Espresso extraction involves a flow of heated water through a densely packed bed of porous particles driven by high pressure. This flow is impacted by a series of structural changes that the packed bed undergoes during water percolation. In this work, we aim to improve and extend an existing extraction model from Moroney et al. (2015) by integrating the axial dispersive flow through the coffee bed via a characteristic axial diffusion coefficient. This parameter was obtained by means of tracer pulse experiments applied to different packed bed configurations at different stages of the extraction. Increasing axial dispersion of the flow was observed experimentally with progressing extraction time. This characteristic was included in the model by considering a transition of the axial diffusion coefficients from the initial filling phase to the steady-state flow phase. The model was also extended to describe the concentration of individual species in the brew. Lumped mass transfer coefficients and saturation concentrations were fitted to experimental results. The model was then validated against experimental data from extraction trials using different particle size distributions. Good agreement was found for the extracted total dissolved solids as well as for the concentrations of caffeine, trigonelline and 5-caffeoylquinic acid (5-CQA). The proposed approach enables an estimation of the overall and individual component concentrations for various particle size ranges while accounting for the dynamic internal changes inside the packed bed during the extraction time.
Schlagworte
Dispersive flow
Espresso components
Espresso extraction
Kinetics modeling
Mass transfer coefficient
Packed bed
DDC Class
620: Engineering
Publication version
publishedVersion
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1-s2.0-S0260877423005113-main.pdf
Type
main article
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5.24 MB
Format
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