Uglich, Russian Federation
Uglich, Russian Federation
Uglich, Russian Federation
Titratable acidity is an indicator of milk ripening that points at its coagulability status. It affects the technological process of cheese production, as well as the quality and storage capacity of semi-hard ripening cheeses. The research featured 42 samples of raw cow’s milk with a titratable acidity between 15°T and 18°T, normalized milk, pressed cheese mass, and Dutch and Russian cheeses at different stages of ripening and storage. The experimental data underwent statistical processing using the method of one-way analysis of variance (p = 0.05). The results were compared as a mean ± standard deviation. The raw milk samples were divided into groups to establish the effect of titratable acidity on cheese production and quality. The first group included 19 samples of 15.0–16.0°T (unripe milk) while the second group included 23 samples of 16.5–18.0°T (ripe milk). The milk samples were used to produce Dutch and Russian cheeses to assess the technological process, quality indicators, and storage capacity at different ripening stages. The ripe milk samples with 16.5–18.0°T demonstrated a more active lactic acid process and received better taste and smell scores for both types of cheese. In case of Russian cheese, the same acidity samples showed a 10% reduction of coagulation time, higher consistency scores, and longer shelf life.
ripe milk, titratable acidity, quality indicators, storage capacity
1. Gudkov, A. V. Syrodelie: tehnologicheskie, biologicheskie, fiziko-himicheskie aspekty / A. V. Gudkov. – M.: DeLi Print, 2003. – 800 s.
2. MakSuini, P. L. Syr. Nauchnye osnovy i tehnologii. Tom 1: Nauchnye osnovy syrodeliya / P. L. MakSuini [i dr.]. – SPb.: Professiya, 2019. – 556 s.
3. Skott, R. Proizvodstvo syra. Nauchnye osnovy i tehnologii / R. Skott, R. K. Robinson, R. A. Uilbi. – SPb.: Professiya, 2005. – 460 s.
4. Sandra, S. Effect of soluble calcium on the renneting properties of casein micelles as measured by rheology and diffusing wave spectroscopy / S. Sandra [et al.] // Journal of Dairy Science. 2012. Vol. 95(1). R. 75–82. https://doi.org/10.3168/jds.2011-4713
5. Maciel, G. M. Dairy processing and cold storage affect the milk coagulation properties in relation to cheese production / G. M. Maciel [et al.] // January Dairy Science and Technology. 2015. Vol. 95(1). R. 101–114. https://doi.org/10.1007/s13594-014-0202-5
6. Ay, M. Effects of activated lactoperoxidase system on microbiological quality of raw milk / M. Ay, K. Bostan // Kafkas Üniversitesi Veteriner Fakültesi Dergisi. 2017. Vol. 23(1). R. 131–136. https://doi.org/10.9775/kvfd.2016.15993
7. Sviridenko, G. M. Trebovaniya k syromu moloku dlya syrodeliya / G. M. Sviridenko, V. A. Mordvinova // Syrodelie i maslodelie. 2015. № 3. S. 12–14. https://elibrary.ru/twrpin
8. Sviridenko, G. M. Mikrobiologicheskie riski pri proizvodstve moloka i molochnyh produktov / G. M. Sviridenko. – M.: RASHN, 2009. – 245 s.
9. Krupin, E. O. Izmenenie kachestvennyh pokazateley moloka korov v zavisimosti ot skarmlivaniya kormovoy dobavki v razlichnyh dozah / E.O. Krupin, Sh.K. Shakirov, R.I. Hashimov // Agrarnaya nauka. 2024. T. 1, № 8. S. 61–66. https://doi.org/10.32634/0869-8155-2024-385-8-61-66; https://elibrary.ru/idenqj
10. Shingareva, T. Issledovanie sposobov predvaritel'noy podgotovki syr'ya v syrodelii (monografiya) / T. Shingareva, M. Glushakov, S. Krasockiy. – LAP LAMBERT Academic Pablishing, 2015. – 116 s.
11. Batalov, A. S. Syroprigodnost' moloka i metody ee povysheniya / A. S. Batalov, O. P. Neverova // Molodezh' i nauka. 2017. № 4-2. S. 90. https://elibrary.ru/zfcdqn
12. Vitushkina, M. A. Syroprigodnost' moloka pri proizvodstve syrov / M. A. Vitushkina, M. A. Dulepova // Vestnik nauki. 2020. T. 5, № 8. 5963. https://elibrary.ru/ssnnvz
