Osmotically-induced mass transfer in plant storage tissues: a mathematical model. II

Toupin, C.J.; Le Maguer, M.

Osmotically-induced mass transfer in plant storage tissues: a mathematical model. II

1989

Toupin, C.J. | Le Maguer, M.

In Part I of the present communication, a mathematical model incorporating cellular membrane characteristics along with other structural and biophysical features was proposed for the description of water and solute fluxes in complex cellular structures of plant storage tissues subjected to osmotic dehydration. This second part gives the results of comparative studies performed to validate the model. In addition the influence of various cell and tissue properties on the kinetics of mass transport occurring in discs of beet roots and potato tubers is presented. The simulations confirm that the cell membrane represents the major resistance to mass transfer in such systems.

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AGROVOC Keywords

cell membranes mass transfer mathematical models osmosis plant tissues potatoes storage

Bibliographic information

Published in

Journal of food engineering

Volume 10 Issue 2 Pagination 97-121 - 121 ISSN 0260-8774

Publisher

Elsevier B.V.

Other Subjects

Beets

Language

English

Type

Journal Article; Text

In AGRIS since: 2024-02-29

Format: MODS

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Osmotically-induced mass transfer in plant storage tissues: a mathematical model. II

1989

AGROVOC Keywords

Bibliographic information