Research of technological properties of bread made with the addition of beet kvass


Keywords: bread with beet kvass, moisture, porosity, crumbliness, acidity

Abstract

The issue of healthy eating has always been relevant, especially this problem has been exacerbated by the rapid development of food technology and the production of a significant number of semi-finished products. As a result, there is a need to develop new types of food, including unleavened and low-calorie bread, bakery products enriched with vitamins, minerals, plant supplements. The aim of the work was to substantiate the technology of bread production with the use of beet kvass and to investigate the physico-chemical quality indicators of experimental samples of finished products. Technological indicators that characterize the quality of bread: moisture, porosity, crumbliness, acidity were determined by generally accepted methods. Bread made with beet kvass has been found to have well-developed crumb porosity, does not crumble for a long time, hardens slowly, and is resistant to microbiological spoilage. The crumb is not deformed and elastic when pressed. Replacing part of the water during the kneading of wheat dough with beet kvass (50 % by weight of flour) makes it possible to intensify the maturation of semi-finished products, both in traditional and accelerated technologies, to create a more complete nutrient medium for yeast activation, to obtain high quality bakery products storage. It has also been found that during the storage of bread, the hydrophilic properties of the crumb, its crumbliness changes slightly. The drying process is most intense during the first day, then slows down.

References

Cheliabiieva, V., & Sosedova, E. (2018). Using of leaven of spontaneous fermentation and of flour leguminous in bread production. Technical sciences and technolo-gies, 3(13), 251–257.doi: 10.25140/2411-5363-2018-3(13)-251-257.

Drobot, V. I., & Sylchuk, T. A. (2016). Vykorystannia zakvasky spontannoho brodinnia pry vyrobnytstvi zhytno-pshenychnoho khliba [Using spontaneous fermentation sourdough in the production of rye-wheat bread]. Naukovi pratsi NUXT – Scientific works of NUFT, 22(1), 180–184 (in Ukrainian).

Hrushkovska, A. О., Danylenko, S. Н., Kryzhska, T. А., & Khonkiv, M. О. (2019). Appplication of lactic acid bacteria on the indicators of rye source. Scientific notes of TNU named after VI Vernadsky, 30(69), 92−97. doi: 10.32838/2663-5941/2019.4-2/15.

Iorgachova, K. G., & Lebedenko, T. E. (2015). Hlibobulo-chni virob iozdorovchogo priznachennia z vikoristan-niam fitodobavok [Bakery products of health desti-nation with the use of herbal supplements]. Kyiv: Pres (in Ukrainian).

Iorgacheva, E. G., & Lebedenko, T. E. (2014). Potential of medicinal and aromatic plants to increase the qual-ity of wheat bread. Eastern-European Journal of En-terprise Technologies, 2(12(68), 101–108. doi: 10.15587/1729-4061.2014.23672.

Karpyk, H. V. (2016). Metodychni vkazivky do vy-konannia laboratornykh robit z dystsypliny “Zahalni tekhnolohii kharchovykh vyrobnytstv” dlia studentiv vsikh form navchannia zanapriamom pidhotovky 6.051701 “Kharchovi tekhnolohii ta inzheneriia”, spetsialnisti 181 “Kharchovi tekhnolohii”. Ternopil: TNTU imeni Ivana Puliuia (in Ukrainian).

Kukhtyn, M., Vichko, O., Horyuk, Y., Shved, O., & Novikov, V. (2018). Some probiotic characteristics of a fermented milk product based on microbiota of “Tibetan kefir grains” cultivated in Ukrainian house-hold. Journal of Food Science and Technology, 55(1), 252–257. doi: 10.1007/s13197-017-2931-y.

Lebedenko, T. E., Kozhevnikova, V. O., & Novichkova, T. P. (2014). Prospects of improvement of accelerated bread technologies by usage of dogrose and haw-thorn. Technology Audit and Production Reserves, 3(5(17), 8–11. doi: 10.15587/2312-8372.2014.25351.

Lialyk, A., Pokotylo, O., Kukhtyn, M., Beyko, L., Horiuk, Y., Dobrovolska, S., & Mazur, O. (2020). Fatty acid composition of curd spread with different flax oil con-tent. Nova Biotechnologica et Chimica, 19(2), 216–222. doi: 10.36547/nbc.v19i2.776.

Mayda, N., Özkök, A., & EcemBayram, N. (2020). Bee bread and bee pollen of different plant sources: de-termination of phenolic content, antioxidant activity, fatty acid and element profiles. Food Measure, 14, 1795–1809. doi: 10.1007/s11694-020-00427-y.

Mis, A., Nawrocka, А., & Dziki, D. (2017). Behaviour of Dietary Fibre Supplements During Bread DoughDe-velopment Evaluated Using Novel Farinograph Curve Analysis. Food Bioprocess Technology, 10, 1031–1041. doi: 10.1007/s11947-017-1881-8.

Pashova, N. V., Voloshchuk, H. I., Hrehirchak, N. M., & Karpyk H. V. (2018). Vplyv boroshna znezhyrenoho nasinnia oliinykh kultur ta poroshku topinambura na yakist ta bezpechnist zhytnoho khliba [Effect of defatted flour of oilseeds and topinambur flour on rye bread quality and safety]. Prodovolchi resursy, 11, 139–147 (in Ukrainian).

Savchenko, O., & Kalinichenko, Y. (2019). Technology of manufacturing rye and wheat sourdough bread with the use of basil. Technical sciences and technologies, 4(18), 183−191. doi: 10.25140/2411-5363-2019-4(18)-183-191.

Stabnikova, O., Antoniuk, M., & Stabnikov, V. (2019). Ukrainian Dietary Bread with Selenium-Enriched Soya Malt. Plant Foods for Human Nutrition, 74, 157–163. doi: 10.1007/s11130-019-00731-z.

Stabnikova, O., Ivanov, V., Larionova, I., Stabnikov, V., Bryszewska, M. A., & Lewis, J. (2008). Ukrainian die-tary bakery product with selenium-enriched yeast. LWT-Food SciT echnol, 41, 890–895. doi: 10.1016/j.lwt.2007.05.021.

Soliman, A. S., Abbas, M. S., & Abol-Ella, M. F. (2019). Towards bridging wheat gap in Egypt by using cassa-va, quinoa and guar as supplements for the produc-tion of balady bread. Food Measure, 13, 1873–1883. doi: 10.1007/s11694-019-00106-7.

Sylchuk, T., Zuiko, V., & Tsyrulnikova, V. (2016). Doslidzhennia zminy fizychnykh vlastyvostei zhytno-pshenychoho tista pry vykorystanni pidkysliuvachiv [Investigation of changes in the physical properties of rye-wheat dough when using acidifiers]. Food Science and Technology, 10(1), 49–53. doi: 10.21691/fst.v10i1.79.

Yazar, G., & Tavman, S. (2012). Functional and Techno-logical aspects of sourdough fermentation with lacto-bacillus sanfranciscensis. Food Eng Rev, 4, 171–190. doi: 10.1007/s12393-012-9052-1.

Zheltok, K. V. (2011). Ispolzovanie oblepihii shipovnika v kachestve vitaminizirovannoy dobavki v proizvod-stve hlebo-bulochnіh izdeliy [The use of sea buck-thorn and rose hips as a fortified supplement in the production of bakery products]. Uspehov sovremen-nogo estestvoznaniia – Successes of modern science, 7, 111 (in Russian).

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Published
2021-12-02
How to Cite
Karpyk, H., Kukhtyn, M., Selskyi, V., Nazarko, I., Pokotylo, O., & Haidamaka, M. (2021). Research of technological properties of bread made with the addition of beet kvass. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. Series: Food Technologies, 23(96), 3-7. https://doi.org/10.32718/nvlvet-f9601