INVESTIGATION OF THE EFFECTIVENESS OF AIR PASTEURIZATION OF SAUSAGE PRODUCTS USING ACTIVE PACKING ELEMENTS

Vasil Pasichnyi, Anatoliy Ukrainets, Oleg Khrapachov, Andrii Marynin, Roman Svyatnenko, Olena Moroz

Abstract


The aim of the researches was to determine the effectiveness of repeated pasteurization using an air absorbent. The effectiveness of repeated pasteurization is studied at an air absorbent for prolonging the storage life of sausage products.

Pasteurization was realized at temperature 85–90 °С during 15–20 minutes. The obtained results of the stability of quality indices of sausage products in storage terms up to 94 days corresponded to standard values for this product type.

According to organoleptic parameters, products correspond to requirements of normative documents and have high quality indices during the indicated storage term.

At the end of the storage term the deviation of the quality index of organoleptic parameters by the five-point scale was no more 0,09 units for pasteurized products with an air absorbent. The decrease of the index of the average point mark for pasteurized products without an air absorbent was 0,17 units. It proves the high stability of the quality of sausage products at the storage process.

The conducted analysis as to the change of the water activity index in storage terms for pasteurized wieners with an air absorbent proves that its use doesn’t essentially influence awvalue. This effect is proved by the microbiological and organoleptic stability of sausage products at storage.


Keywords


air absorbent; boiled sausage products; repeated pasteurization; water activity

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References


Dixon, J. (2011). Packaging materials: 9. Multilayer packaging for food and beverages. Commissioned by the Ilsi Europe Packaging Materials Task Force, 48. Available at: http://ilsi.eu/wp-content/uploads/sites/3/2016/06/ILSI-11-011-9-pack-03.pdf.

Vinnikova, L. G., Prokopenko, I. A. (2015). The application of high pressure as an alternative to thermal processing of poultry meat. Eastern-European Journal of Enterprise Technologies, 3 (10 (75)), 31–36. doi: https://doi.org/10.15587/1729-4061.2015.44241 .

Vinnikova, L., Shlapak, H., Prokopenko, I., Hlushkov, O. (2018). Vyznachennia terminu zberihannia shynky z miasa ptytsi, vyhotovlenoi atermichnym obroblenniam. Scientific Works, 48.

Klymenko, M. M. (Ed.) (2006). Tekhnolohiya miasa ta miasnykh produktiv. Kyiv, 640.

Bal-Prylypko, L. V. (2010). Tekhnolohiya zberihannia, konservuvannia ta pererobky miasa. Kyiv, 469.

Pasichnyi, V., Ukrainets, A., Khrapachov, O., Marynin, A. (2018). Main aspects of using multilayer polymeric materials for pasterization and sterilization of products in the meat processing industry. Scientific Works of National University of Food Technologies, 24 (4), 195–203. doi: https://doi.org/10.24263/2225-2924-2018-24-4-22 .

Robertson, G. L. (2012). Food Packaging: Principles and Practice. CRC Press, 733.

Pasichnyi, V. M., Khrapachov, O. V., Ukrainets, A. I., Marynin, A. І., Lohvynenko, N. P., Kapitula, E. I. (2018). Use of repeated pasteurization for the production of boiled sausage products. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies, 20 (85), 29–34. doi: https://doi.org/10.15421/nvlvet8506 .

LEE, J. J. (2011). Sterilization effects of avian influenza virus and newcastle disease virus in chicken muscle and organs dependent on autoclaving time. Available at: http://agris.fao.org/agris-search/search.do?recordID=KR2012004468.

Silva, F. V. M., Gibbs, P. A. (2012). Thermal pasteurization requirements for the inactivation of Salmonella in foods. Food Research International, 45 (2), 695–699. doi: https://doi.org/10.1016/j.foodres.2011.06.018 .

Shahidi, F. (Ed.) (1997). Natural Antioxidants. Chemistry, Health Effects and Applications. Champaign: AOCS Press, 432.

Ukrainets, A. I. (2016). Antioxidant plant extracts in the meat processing industry. Biotechnologia Acta, 9 (2), 19–27. doi: https://doi.org/10.15407/biotech9.02.019 .

Bal'-Prilipko, L. V., Zadorozhnyj, V. I., Onishhenko, L. V. (2006). Vliyanie razlichnyh faktorov na srok i kachestvo hraneniya mjasnyh produktov. Myasnoe delo, 8, 53–55.

Ukrainets, A., Pasichniy, V., Zheludenko, Y., Zadkova, S. (2016). Oleoresins effect on cooked poultry sausages microbiological stability. Ukrainian food journal, 5 (1), 124–135.

McBride, N. T. M., Hogan, S. A., Kerry, J. P. (2007). Comparative addition of rosemary extract and additives on sensory and antioxidant properties of retail packaged beef. International Journal of Food Science & Technology, 42 (10), 1201–1207. doi: https://doi.org/10.1111/j.1365-2621.2006.01342.x .

Bozhko, N., Tischenko, V., Pasichnyi, V., Marynin, A., Polumbryk, M. (2017). Study of oxidation processes in duck meat with application of rosemary and grape seed extracts. EUREKA: Life Sciences, 4, 10–15. doi: https://doi.org/10.21303/2504-5695.2017.00374 .

Usatenko, N. F., Kryzhska, T. A. (2012). Zberihannia ta pererobka produktsiy. Vykorystannia pokaznyka «aktyvnist vody» v tekhnolohiyi vyrobnytstva miasoproduktiv. Visnyk ahrarnoi nauky, 5, 62–65.

Benderska, O., Levkivska, T., Bessarab, A. (2018). Technological aspects of «water activity» indicator and its influence on the quality of tomato souss. International scientific journal Internauka, 2 (50), 11–14.

Ustymenko, І., Korh, N., Teterina, S., Polischuk, G. (2018). Analysis of microbiological indicators of food emulsions. Scientific Works of National University of Food Technologies, 24 (2), 209–215. doi: https://doi.org/10.24263/2225-2924-2018-24-2-25 .

Antipova, L. V., Glotova, I. A., Rogov, I. A. (2001). Metodyi issledovaniya myasa i myasnyih produktov. Moscow: Kolos, 576.




DOI: http://dx.doi.org/10.21303/2504-5695.2018.00809

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Copyright (c) 2018 Vasil Pasichnyi, Anatoliy Ukrainets, Oleg Khrapachov, Andrii Marynin, Roman Svyatnenko, Olena Moroz

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