Вестник МГТУ, 2024, Т. 27, № 3.

Похольченко В. А. и др. Научно-практические основы процессов обезвоживания. Chen, H., Zhang, M., Fang, Z., Wang, Y. 2013. Effects of different drying methods on the quality of squid cubes. Drying Technology , 31(16), pp. 1911-1918. DOI: https://doi.org/10.1080/07373937.2013.783592. Deng, Y., Luo, Y., Wang, Y., Yue, J. et al. 2014. Drying-induced protein and microstructure damages of squid fillets affected moisture distribution and rehydration ability during rehydration. Journal o fFood Engineering, 123, pp. 23-31. DOI: https://doi.org/10.1016/jjfoodeng.2013.09.006. Ershov, А. М. 1992. The development and improving of the cold smoking processes based on intensification of moisture and smoking agents mass transfer. Ph.D. Thesis. Murmansk. (In Russ.) Fu, X.-Y., Xue, C.-H., Miao, B.-C., Li, Z.-J. et al. 2007. Effect of processing steps on the physico-chemical properties of dried-seasoned squid. Food Chemistry, 103(2), pp. 287-294. DOI: https://doi.org/10.1016/ j.foodchem.2006.07.047. Ginzburg, A. S., Savina, I. M. 1982. Mass- and moisture exchange characteristics of food products. Moscow. (In Russ.) Glazunov, Yu. Т., Ershov, А. М., Ershov, М. А., Pokholchenko, V. А. 2013. The processes of fish drying, dry - curing, smoking and equipment design. Kaliningrad. (In Russ.) Kucherenko, N. A., Boitsova, T. N. 2010. Technology development of dried molded products from squid. Izvestiya TINRO, 162, pp. 407-416. EDN: NDOQYT. Lekrati, M., Vezaz, Z. H. 2021. Study of salted octopus drying kinetics and hygroscopy from artisanal fishing in Agadir region. Biosciences Biotechnology Research Asia, 18(3), pp. 619-627. DOI: https://doi.org/10.13005/ bbra/2946. Lykov, A. V. 1968. Drying theory. Moscow. (In Russ.) Mouritsen, O. G., Styrbsk, K. 2018. Cephalopod gastronomy - a promise for the future. Frontiers in Communication, 3. DOI: https://doi.org/10.3389/fcomm.2018.00038. Mwithiga, G., Olwal, J. O. 2005. The drying kinetics of kale (Brassica oleracea) in a convective hot air dryer. Journal o fFood Engineering, 71(4), pp. 373-378. DOI: https://doi.org/10.1016/jjfoodeng.2004.10.041. Namsanguan, Y., Tia, W., Devahastin, S., Soponronnarit, S. 2004. Drying kinetics and quality of shrimp undergoing different two-stage drying processes. Drying Technology , 22(4), pp. 759-778. DOI: https://doi.org/10.1081/DRT-120034261. Ortiz, J., Lemus-Mondaca, R., Vega-Galvez, A., Ah-Hen, K. et al. 2013. Influence of air-drying temperature on drying kinetics, colour, firmness and biochemical characteristics of Atlantic salmon (Salmo salar L.) fillets. Food Chemistry, 139(1-4), pp. 162-169. DOI: https://doi.org/10.1016/j.foodchem.2013.01.037. Ozuna, C., Carcel, J. A., Walde, P. M., Garcia-Perez, J. V. 2014. Low-temperature drying of salted cod (Gadus morhua ) assisted by high power ultrasound: Kinetics and physical properties. Innovative Food Science & Emerging Technologies, 23, pp. 146-155. DOI: https://doi.org/10.1016/j.ifset.2014.03.008. Pogonets, V. I. 2016. Upgrade installation to intensify drying squid in carefully-twisted threads. Scientific Journal o f the Far East State Technical Fisheries University, 37, pp. 110-117. EDN: WJGRRD. (In Russ.) Pokholchenko, V. A., Ershov, A. M., Ershov, M. A. 2015. Peculiarities of generalization of similar phenomena in the process of fish heat treatment. Proceedings o f the Voronezh State University o f Engineering Technologies, 2(64), pp. 44-50. EDN: UAOLNL. (In Russ.) Pokholchenko, V., Mishanina, L., Ilyin, A., Glukhikh, Ya. 2022. Efficient heat treatment in fish hot smoking technology. IOP Conference Series: Earth and Environmental Science, Volume 1052, International Conference on Production and Processing of Agricultural Raw Materials. DOI: https://doi.org/10.1088/1755-1315/1052/ 1/012083. Pokholchenko, V., Smirnova, A., Glukhikh, Ya. 2020. Convective drying at fish chips technology. KnE Life Sciences : International Applied Research Conference "Biological Resources Development and Environmental Management", pp. 752-762. DOI: https://doi.org/10.18502/kls.v5i1.6163. Shi, Q.-L., Xue, C.-H., Zhao, Y., Li Z.-J. et al. 2008. Optimization of processing parameters of horse mackerel (Trachurus japonicus ) dried in a heat pump dehumidifier using response surface methodology. Journal o f Food Engineering, 87(1), pp. 74-81. DOI: https://doi.org/10.1016/jjfoodeng.2007.11.010. Uribe, E., Miranda, M., Vega-Galvez, A., Quispe, I. et al. 2011. Mass transfer modelling during osmotic dehydration of jumbo squid (Dosidicus gigas): Influence of temperature on diffusion coefficients and kinetic parameters. Food and Bioprocess Technology, 4, pp. 320-326. DOI: https://doi.org/10.1007/s11947-010-0336-2. Valencia-Perez, A. Z., Garria-Morales, M. H., Cardenas-Lopez, J. L. et al. 2008. Effect of thermal process on connective tissue from jumbo squid (Dosidicus gigas) mantle. Food Chemistry, 107(4), pp. 1371-1378. DOI: https://doi.org/10.1016/j.foodchem.2007.09.060. Vega-Galvez, A., Andres, A., Gonzalez, E., Notte-Cuello, E. et al. 2009. Mathematical modelling on the drying process of yellow squat lobster (Cervimunida jhoni) fishery waste for animal feed. Animal Feed Science and Technology, 151(3-4), pp. 268-279. DOI: https://doi.org/10.1016/j.anifeedsci.2009.01.003. Voronenko, B. A., Gusev, B. K., Pelenko, V. V., Starikov, V. V. 2009. Analytical solution of the problem of joint heat and mass transfer in the process of hot drying of meat and fish products. Bulletin o f KrasSAU, 9(36), pp. 171-176. EDN: JVULES (In Russ.) 468