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Basic Patterns of Moisture Absorption during the Hydrothermal Treatment of Fibrous and Dispersed Materials with the Periodic Heat and Moisture Supply

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Fibre Chemistry Aims and scope

The paper presents an analysis of moisture absorption during the oscillated hydrothermal treatment of fibrous and dispersed materials, which is performed on the basis of kinetic laws for vegetable raw materials and an increase in the utilization rate of the coolant energy potential considering the energetic and exergetic methods of thermodynamic analysis. As a result, the author developed a continuously acting toroidal apparatus with a periodic combined moisture and heat treatment in order to ensure the energy-effective processes of moisture absorption.

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References

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  11. G.V. Kalashnikov, E.V. Litvinov, et al., Method for Automatic Control of the Moisture and Heat Treatment of Dispersed Materials using Periodic Combined Convective-HF Energy Supply, Pat. RF No. 2640848, MPK-7, Ya26V 25/22, Publ. 01/12/2018, Izobreteniya. Poleznye Modeli [In Russian], No. 2 (2018).

  12. G.V. Kalashnikov and O.V. Chernyaev, Rotor Dryer. Pat. RF No. 2647557, MPK-7, Ya26V 15/04, Publ. 03/19/2018, Izobreteniya. Poleznye Modeli [In Russian], No. 8 (2018).

  13. G.V. Kalashnikov, “Energy efficiency and intensification of the moisture and heat treatment of dispersed vegetable raw materials,” Materials of the International Scientific and Practical Conference “Energy efficiency and energy saving in modern production and society” Part II [In Russian], VGAU, Voronezh, 98–106 (2019).

  14. https://rospatent.gov.ru/content/uploadfiles/100_best_2018.pdf

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Authors and Affiliations

  1. Voronezh State University of Engineering Technologies, Voronezh, Russia

    G.V. Kalashnikov

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  1. G.V. Kalashnikov
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Correspondence to G.V. Kalashnikov.

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Translated from Khimicheskie Volokna, No. 1, pp. 41-44, January—February, 2022.

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Kalashnikov, G. Basic Patterns of Moisture Absorption during the Hydrothermal Treatment of Fibrous and Dispersed Materials with the Periodic Heat and Moisture Supply. Fibre Chem 54, 40–43 (2022). https://doi.org/10.1007/s10692-022-10338-x

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  • DOI: https://doi.org/10.1007/s10692-022-10338-x

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