We propose combination convective drying of disperse materials based on the kinetic behavior of the process for vegetative feedstock and improvement of the degree of utilization of the energy potential of the heat transfer agent, taking into account energy and exergy thermodynamic analysis methods. We have developed continuous drying equipment for energy-efficient processes using variable thermal treatment.
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G. V. Kalashnikov, “Intensification of wet-heat treatment of foodstuff vegetative feedstock,” in: Proceedings of the International Scientific and Applied Conference on the Agro-Industrial Sector at the Turn of the Century [in Russian], Peter the Great Voronezh State Agricultural University, Voronezh (2015); Part II, pp. 184-192.
G. V. Kalashnikov and O. V. Chernyaev, “Solving problems in cost-effective use of resources in production of dried fruit and vegetables,” in: Innovative Solutions in Production of Foodstuffs from Vegetative Raw Materials: Collected Scientific Papers and Reports from the Second International Scientific and Practical Conference [in Russian], Nauchnaya Kniga, Voronezh, 2016, pp. 292-297.
G. V. Kalashnikov, “Development of processes for wet-heat treatment of foodstuff vegetative raw material (theory, technology, and engineering),” Dissertation in competition for the academic degree of Doctor of Technical Sciences, VGTA, Voronezh (2004). 365 pp.
G. V. Kalashnikov and O. V. Chernyaev, “Energy-efficient processing equipment for drying vegetative raw material,” in: Proceedings of the International Scientific and Applied Conference on Energy Efficiency and Energy Conservation in Modern Manufacturing and Society [in Russian], Peter the Great Voronezh State Agricultural University, Voronezh (2018), pp. 85-89.
R. Shargut and R. Petela, Exergy [in Russian], Energiya, Moscow (1968). 278 pp.
G. V. Kalashnikov and V. E. Dobromirov, “Intensity of wet-heat treatment in oscillatory wet-heat processing of bulk products,” Vestnik VGTA, No. 1, 39-44 (2009).
G. V. Kalashnikov, “Exergy evaluation of heat and mass transfer phenomena in wet-heat treatment of foodstuff raw material,” in: Proceedings of the Second International Scientific and Applied Conference Dedicated to the One-Hundredth Birthday of M. Kh. Kishinevskii. Heat Transfer Phenomena in Processes and Equipment in Chemical and Foodstuff Production [in Russian], VGUIT, Voronezh (2016), pp. 317-321.
G. V. Kalashnikov and O. V. Chernyaev, “Continuous dryer for heat-labile foodstuff vegetative raw material,” in: Proceedings of the International Scientific and Technical Conference on Engineering Approaches for Future Foodstuff Technologies [in Russian], VGUIT, Voronezh (2018), pp. 95-98.
G. V. Kalashnikov and O. V. Chernyaev, “Rotary dryer,” Russian Federation Patent 2647557, Int. Cl.-7: F26B 15/04. Publ. 19 March 2018; Izobreteniya. Poleznye Modeli [Inventions. Utility Models] (2018), No. 8.
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Translated from Khimicheskie Volokna, Vol. 51, No. 4, pp. 70-73, July-August, 2019.
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Kalashnikov, G.V., Chernyaev, O.V. Energy-Efficient Combination Convective Drying Of Disperse Materials. Fibre Chem 51, 289–292 (2019). https://doi.org/10.1007/s10692-020-10098-6
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DOI: https://doi.org/10.1007/s10692-020-10098-6