Study of the forms of moisture bond in coriander seeds based on analysis of drying kinetics

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The article deals with the issues related to the study of the forms of connection of moisture removed during the drying of coriander seeds. A study was carried out to determine the quantitative moisture content of various forms of communication by two methods and a comparative analysis was carried out. It is shown that the existing methods for studying the forms of moisture-material bond have significant drawbacks and generally give a qualitative assessment of the state of moisture in the material or are very laborious and require lengthy laboratory research. An approach is proposed to determine the forms of moisture bond in coriander seeds based on graph-analytical analysis of the drying kinetics, which makes it possible to qualitatively and quantitatively assess the state of moisture in the seeds. With the help of a graphical editor, the curves of the kinetics of drying of coriander seeds were processed and the dependences of the value characterizing the rate of change in the rate of drying of coriander seeds on the moisture content of the product were obtained, and the introduction of a new concept into the theory of drying of this value as "acceleration of drying" was proposed. The analysis of the obtained curves is carried out, indicating the presence of extrema and points of inflection to the corresponding critical moisture content, as well as the presence of areas with a slowdown or acceleration of the drying rate change, which make it possible to establish the intervals of moisture removal with different binding energies. The approach considered in the article to determine the forms of moisture bond in coriander seeds will allow not only to give a qualitative and quantitative assessment of the state of moisture in products, but also to reduce the time spent on analysis and increase the accuracy of the results.

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Forms of moisture bond, graphic processing, drying, drying kinetics, coriander seeds

Короткий адрес: https://sciup.org/140250974

IDR: 140250974   |   DOI: 10.20914/2310-1202-2020-3-24-31

Статья научная