USE OF VACUUM IN TECHNOLOGY FOR PROCESSING MUSHROOMS-CHAMPIGNONS
DOI:
https://doi.org/10.31395/2310-0478-2021-1-77-83Keywords:
mushrooms, champignons, vacuum treatment, preliminary processing, canningAbstract
The article is devoted to the development of a technology for preserving mushrooms-champignons using the vacuum process.A significant number of works are devoted to the study of the vacuum method for processing fruits, vegetables and berries.However, there is no information in the literature on the use of this method for the preliminary processing of raw materials in the production of canned products from champignon mushrooms.It is known that a significant drawback of traditional technologies for processing mushrooms is the loss of their mass during the entire technological process. Investigated the use of vacuum as a method of pretreatment of champignons of the Le Lion B-92 strain, strain N 273 of the first and fifth harvesting waves. It was found that the strains of fungi are not the same in terms of moisture content and, accordingly, dry matter. The difference is more noticeable when considering their consistency: the white race champignons of the Le Lion B-92 strain have a less dense consistency than the N 273 strain. The inhomogeneity of the consistency also predetermines the air content inside the fruiting bodies of the mushrooms. The Le Lion B-92 strain is characterized by the largest volume of air. It was found that the removal of air from the tissues of fungi and filling the intercellular space with liquid (filling, marinade), allows you to maintain the shape, size of mushrooms, significantly increases the yield of the finished product. With an increase in the vacuum depth in the range from 90 to 60 kPa, the mass of fungi increases in all samples. A further increase in the vacuum depth led to a partial rupture of the fruiting bodies of the mushrooms. When evacuating in a 3% sodium chloride solution and marinade filling, the weight gain was about 4 ... 25%, which is 1,3 times more than when evacuating in water. This difference is explained by the presence of soluble protein fractions in the chemical composition of mushrooms. It was determined that in the finished product using the vacuumization process, the mushrooms have a better consistency, color and their mass increases by 10 ... 15%. When using only blanching, the consistency of mushrooms is worse and their mass decreases by 38%. It was found that the duration of evacuation is directly proportional to the depth of the vacuum. With an increase in the vacuum depth, the duration of the process of processing mushrooms of various strains and harvesting waves decreases. Moreover, the mushrooms of the first wave of fruiting in both strains are characterized by greater elasticity, namely, the ability to absorb working fluid. A preliminary study of the influence of the duration of the vacuuming process on the quality of mushrooms showed that the processing of mushrooms with vacuum for more than 10 minutes leads to rupture of fruiting bodies. A technology for processing champignon mushrooms using the vacuumization process, as a method of preliminary processing of raw materials has been proposed.
References
Маркевич Л. С. Перспективи розвитку та особливості формування ринку органічної продукції в Україні// Slovak international scientific journal. 2020. №40. С. 42-47
http://socrates.vsau.org/repository/getfile.php/25174. pdf
Вдовенко С. А. Розвиток грибівництва в Україні//. Овочівництво і баштанництво. 2014. Вип. 60. C. 26-36.
h t t p s : / / e v n u i r . v n u . e d u . u a / b i t s t r e am/123456789/19177/1/617-619.pdf
Гісем, А. Маркетингова діяльність у сфері збуту продукції грибівництва// Інноваційний розвиток та безпека підприємств в умовах неоіндустріального суспільства. Волинський національний університет ім. Лесі Українки.2020. С. 617-619 h t t p s : / / e v n u i r . v n u . e d u . u a / b i t s t r e am/123456789/19177/1/617-619.pdf
Бойко, О. А. Оцінка якості шапинкових грибів за умов природного довкілля та сучасних біотехнологічних процесів// Науковий вісник Національного університету біоресурсів і природокористування України. Серія: Біологія, біотехнологія, екологія. 2015. С. 32-37.
http://www.irbis-nbuv.gov.ua/cgi-bin/irbis_nbuv/ cgiirbis_64.exe?C21COM=2&I21DBN=UJRN&P21DBN=UJ RN&IMAGE_FILE_DOWNLOAD=1&Image_file_name=PDF/ nvnau_biol_2015_214_6.pdf
Євсейцєва, О. С., & Хінцицька, А. М. (2014). Розвиток грибної галузі в Україні.// Вісник Київського національного університету технологій та дизайну. 2014. №2. С. 149-155.
http://www.irbis-nbuv.gov.ua/cgi-bin/irbis_nbuv/ cgiirbis_64.exe?C21COM=2&I21DBN=UJRN&P21DBN=UJ RN&IMAGE_FILE_DOWNLOAD=1&Image_file_name=PDF/ Vknutd_2014_2_24.pdf
Gras, M. L., Vidal, D., Betoret, N., Chiralt, A., & Fito, P. Calcium fortification of vegetables by vacuum impregnation: interactions with cellular matrix// Journal of food engineering. №56(2-3). 2003. Р. 279-284.
https://www.sciencedirect.com/science/article/abs/pii/ S0260877402002698
https://doi.org/10.1016/S0260-8774(02)00269-8
Zhao, Y., & Xie, J. Practical applications of vacuum impregnation in fruit and vegetable processing// Trends in food science & technology, №15(9), 2004. Р. 434-451.
https://www.sciencedirect.com/science/article/abs/pii/ S0924224404000408
https://doi.org/10.1016/j.tifs.2004.01.008
Yurttas, Z. S., Moreira, R. G., & CastellPerez. Combined vacuum impregnation and electron beam irradiation treatment to extend the storage life of sliced white button mushrooms (Agaricus bisporus).// Journal of Food Science, №79(1). 2014. Р. E39-E46.
https://onlinelibrary.wiley.com/doi/abs/10.1111/1750- 3841.12308
https://doi.org/10.1111/1750-3841.12308
Fito, P., Chiralt, A., Betoret, N., Gras, M., Cháfer, M., Mart́ın ez-Monzó, J., & Vidal, D. (2001). Vacuum impregnation and osmotic dehydration in matrix engineering: Application in functional fresh food development//Journal of Food Engineering. №49(2-3). 2001. Р. 175-183.
https://www.sciencedirect.com/science/article/abs/pii/ S026087740000220X
https://doi.org/10.1016/S0260-8774(00)00220-X
Derossi, A., De Pilli, T., & Severini, C. Application of pulsed vacuum acidification for the pH reduction of mushrooms// LWT-Food Science and Technology. №54(2). 2013. Р. 585-591.
https://www.sciencedirect.com/science/article/abs/pii/ S0023643813001588
https://doi.org/10.1016/j.lwt.2013.05.007
Alzamora, S. M., Salvatori, D., Tapia, M. S., López- Malo, A., Welti-Chanes, J., & Fito, P. (2005). Novel functional foods from vegetable matrices impregnated with biologically active compounds//Journal of Food Engineering. №67(1-2). Р. 205-214.
https://www.sciencedirect.com/science/article/abs/pii/ S0260877404003474
https://doi.org/10.1016/j.jfoodeng.2004.05.067
Radziejewska-Kubzdela, E., Biegańska-Marecik, R., & Kidoń, M. (2014). Applicability of vacuum impregnation to modify physico-chemical, sensory and nutritive characteristics of plant origin products—a review// International journal of molecular sciences. №15(9). 2014. Р. 16577-16610.
https://www.mdpi.com/1422-0067/15/9/16577 https://doi.org/10.3390/ijms150916577
