Вестник МГТУ. 2020, Т. 23, № 3.

Радаева И. А. и др. Формирование технологических свойств сухого молока Липатов Н. Н., Харитонов В. Д. Сухое молоко : теория и практика пр-ва. М. : Легкая и пищевая пром-сть, 1981. 264 с. Туровская С. Н., Галстян А. Г., Петров А. Н., Радаева И. А. [и др.]. Безопасность молочных консервов как интегральный критерий эффективности их технологии. Российский опыт // Пищевые системы. 2018. Т. 1, № 2. С. 29-54. DOI: https://doi.org/10.21323/2618-9771-2018-1-2-29-54. Шурчкова Ю. А. Проблемы управления термоустойчивостью молока // Молочная промышленность. 2003. № 11. С. 49-50. Юрова Е. А. Методы контроля показателей качества и безопасности в молочной промышленности // Переработка молока. 2017. № 5 (211). С. 41-43. Юрова Е. А., Мельденберг Д. Н., Парфенова Е. Ю. Критерии оценки молока-сырья для получения продукта гарантированного качества // Молочная промышленность. 2019. № 4. С. 26-29. DOI: https://doi.org/10.31515/1019-8946-2019-4-26-28. Crowley S. V., Megemont M., Gazi I. [et al.]. Heat stability o f reconstituted milk protein concentrate powders // International Dairy Journal. 2014. Vol. 37, Iss. 2. P. 104-110. DOI: https://doi.org/10.1016/j.idairyj.2014.03.005. Faka M., Lewis M. J., Grandison A. S. [et al.]. The effect o f free Ca2+ on the heat stability and other characteristics o f low-heat skim milk powder // International Dairy Journal. 2009. Vol. 19, Iss. 6-7. P. 386­ 392. DOI: https://doi.org/10.1016/j.idairyj.2008.12.006. Galstyan A. G., Aksyonova L. M., Lisitsyn A. B., Oganesyants L. A. [et al]. Modern approaches to storage and effective processing o f agricultural products for obtaining high quality food products // Herald o f the Russian Academy o f Sciences. 2019. Vol. 89, Iss. 2. P. 211-213. DOI: https://doi.org/10.1134/S1019331619020059. Lin Y., Kelly A. L., O'Mahony J. A. [et al.]. Fortification o f milk protein content with different dairy protein powders alters its compositional, rennet gelation, heat stability and ethanol stability characteristics // International Dairy Journal. 2016. Vol. 61. P. 220-227. DOI: https://doi.org/10.1016/j.idairyj.2016.06.010. On-Nom N., Grandison A. S., Lewis M. J. Heat stability o f milk supplemented with calcium chloride // Journal o f Dairy Science. 2012. Vol. 95, Iss. 4. P. 1623-1631. DOI: https://doi.org/10.3168/jds.2011-4697. Sanchez A.K., Wang L., Schmidt K. Heat stability o f radio frequency dielectric heat treated low heat and high heat nonfat dry milk // International Dairy Journal. 2017. Vol. 74. P. 21-26. DOI: https://doi.org/10.1016/j.idairyj.2017.05.003. Sikand V., Tong P. S., Walker J. Heat stability o f reconstituted, protein-standardized skim milk powders // Journal o f Dairy Science. 2010. Vol. 93, Iss. 12. P. 5561-5571. DOI: https://doi.org/10.3168/jds.2010-3128. Singh J., Prakash S., Bhandari B. [et al.]. Comparison of ultra high temperature (UHT) stability o f high protein milk dispersions prepared from milk protein concentrate (MPC) and conventional low heat skimmed milk powder (SMP) // Journal of Food Engineering. 2019. Vol. 246. P. 86-94. DOI: https://doi.org/10.1016/jjfoodeng.2018.11.003. Vyas H. K., Tong P. S. Impact o f source and level o f calcium fortification on the heat stability o f reconstituted skim milk powder // Journal o f Dairy Science. 2004. Vol. 87, Iss. 5. P. 1177-1180. DOI: https://doi.org/10.3168/jds.S0022-0302(04)73266-X. Williams R. P. W., D'Ath L., Zisu B. Role o f protein aggregation in heat-induced heat stability during milk powder manufacture // Dairy Science & Technology. 2008. Vol. 88, Iss. 1. P. 121-147. DOI: https://doi.org/10.1051/dst:2007048. References Bashaeva, D. V. 2010. Thermostability o f cow's milk, its genetic and paratypic variability. Abstract o f Ph.D. dissertation. Kazan. (In Russ.) Beletskaya, M. E., Vladimirov, A. A., Kriger, O. V. Golubtsova, Yu. V. et al. 2019. Effect o f drying on the quality o f milk powder. Dairy Industry, 6, pp. 22-23. Galstyan, A. G., Petrov, A. N. 2008. Promising methods o f pre-heat treatment o f raw milk. Storage and Processing o fFarm Products, 3, pp. 11-13. (In Russ.) Galstyan, A. G., Turovskaya, S. N., Ryabova, A. E., Illarionova, E. E. et al. 2019. Technological additives as an element o f dry milk properties directed formation. News o f the National Academy o f Sciences o f the Republic o f Kazakhstan. Series o f Geology and Technology Sciences, 4(436), pp. 95-102. DOI: https://doi.org/10.32014/2019.2518-170X.102. (In Russ.) Gevorkyan, K. A. 2017. On the question o f the effectiveness o f the technological potential o f forming the quality o f dry milk. Scientific Notes Kazan Bauman State Academy o f Veterinary Medicine, 230(2), pp. 55-59. (In Russ.) Golubeva, L. V. 2005. Technology o f canned milk and whole milk substitutes. Moscow, DeLi Plyus Publ. (In Russ.) Donskaya, G. A., Brodskii, Yu. A., Gusev, E. M. 2006. Ion exchange columns for increasing the thermal stability o f milk. Pererabotka moloka, 1, pp. 10-11. (In Russ.) Kobzeva, T. V., Yurova, E. A. 2016. Quality indicators evaluation and characteristics identification o f dried milk. Dairy Industry, 3, pp. 32-35. (In Russ.) 288