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Анотація
Considered the technology for the production of edible powders from vegetable raw materials. The technology for producing powders from berries is developed to produce a high-quality product in which all ingredients of raw materials are stored in a concentrated form.
The current trend in nutrition is related to the expansion of the range of functional products whose daily use contributes to the prevention of hypovitaminoses and metabolic disorders, and ultimately to the rehabilitation of the population. New, non-traditional sources of local raw materials, including plant based products, need to be explored and exploited in order to address the issue of instantiate new generation of healthy foods, and the development of technologies for obtaining functionalities. The use of fruit crops, the most source of biologically active substances, is very promising in this direction.
The Department of Preservation Technology of the National University Food Technology has conducted a study to enable the use of fruit and berries for food powders. To this end, powder has been obtained from the blueberry berries of ordinary, with the establishment of its physico-chemical properties.The patterns of the influence of the blueberry powder on the functional properties of the foodstuffs were investigated in the example of tomato sauces.
Analysis of the results of the studies has shown that a blueberry berry powder can be used in the production of canned and other products not only to enrich their functional ingredients but also to provide them with new technological properties. The food powders received do not contain harmful impurities, have high food value, are easily absorbed by the body, compact and long periods of time. Studies have shown that the blueberry powder is a rich source of vitamins (c acid, β-carotene, tocopherol) and can be used successfully in the manufacture of tomato sauces with functional properties.
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Посилання
2. Kas'janov GI, Jaralieva ZA, Ahmedov MJe. Innovacionnaja tehnologija poluchenija krioporoshkov iz plodov i jagod. Problemy razvitija APK regiona. 2016; (28): 119–123. http://dx.doi.org/10.21515/1990-4665-130-067
3. Magomedov GO, Mal'cev GP, Sadulaev MM, Sivolobova NM,. Semenov AL. Poroshkoobraznye polufabrikaty v pishhevoj promyshlennosti. Pishhevye ingredienty, syr'e i dobavki. – 2003; 2: 73–75.
4. Mjakinnikova EI, Kas'janov GI, Jaralieva ZA, Inochkina EV. Poluchenie i primenenie krioporoshkov dlja obogashhenija hlebobulochnyh izdelij. Izvestija vuzov. Pishhevaja tehnologija. Krasnodar: KubGTU, 2016. 14 s. Dep. v VINITI 03.02.2016 g., № 27-V2016. ISSN: 0579-3009
5. Derevenko, VV, Sidorenko AB, Kovalev VA, Volod'ko NG. Zakonomernosti konvektivnoj sushki vyzhimki belogo vinograda. Izvestija vuzov. Pishhevaja tehnologija. 2011;4:88–89 ISSN: 0579-3009
6. Sidorenko, AV. Sovershenstvovanie tehnologii poluchenija pishhevyh poroshkov iz vinogradnoj vyzhimki i ih ispol'zovanie v hlebopechenii : dis. ... kand. tehn. nauk. Krasnodar: KubGTU, 2012; 85–89.
7. Magomedov, GO, Shahov SV, Magomedov MG, Saranov IA. Issledovanie gigroskopicheskih svojstv poroshkoobraznyh polufabrikatov koncentrata kvasnogo susla, solodovogo jekstrakta jachmenja i jekstrakta cikorija. Vestnik VGUIT. – 2015; 4: 17–21. ISSN 2310-1202
8. Shhekoldina, TV, Ol'hovatov EA, Stepovoj AV. Fiziko-himicheskie osnovy i obshhie principy pererabotki rastitel'nogo syr'ja. SPb: Lan', 2017; 208.
9. Aparsheva, VV. Kompozicija rastitel'nyh ingredientov v tehnologii proizvodstva hleba pshenichnogo. Vestnik Michurinskogo gosudarstvennogo agrarnogo universiteta. 2015; 3: 131–134. ISSN 1992-2582
10. Shazzo BK, Shazzo AA, Frolova EA. Ispol'zovanie netradicionnogo rastitel'nogo syr'ja pri proizvodstve hlebobulochnyh izdelij funkcional'nogo naznachenija. Novye tehnologii. 2010; 2:78–83. ISSN 2072-0920
11. Begeulov MSh, Karmashova EO. Jeffektivnost' ispol'zovanija pobochnyh produktov pererabotki rastitel'nogo syr'ja v hlebopechenii. Izvestija TSHA. 2014; 5: 73–76. ISSN 0021-342X
12. Zheltok KV. Ispol'zovanie shipovnika v kachestve vitaminizirovannoj dobavki v proizvodstve hlebobulochnyh izdelij. Uspehi sovremennogo estestvoznanija. 2011; 7: 121–126.
13. Kalinina IV, Naumenko NV, Feklicheva IV. Formirovanie potrebitel'skih dostoinstv hlebobulochnyh izdelij putem vnesenija dopolnitel'nyh syr'evyh komponentov. Vestnik JuUrGU. 2015; 2: 10–17. ISSN 2308-0256
14. Bornsek SM. Bioefficacy of anthocyanins from bilberries (Vaccinium myrtillus L.): Doctoral Dissertation. Ljubljana, 2012. 131 p.
15. Sergeev VN, Kokaev Iu.I. Pishchevaia promyshlennost', 2001; 6: 28–30.
16. Singleton VL, Orthofer R, Lamuela-Raventos RM. Analysis of total phenols and other oxidation substrates and antioxidants by means of Folin–Ciocalteu reagent, Methods Enzymol. 299(1999); 152
17. Wu X, Beecher GR, Holden JM, Haytowitz DB, Gebhardt SE, Prior RL. Concentrations of Anthocyanins in Common Foods in the United States and Estimation of Normal Consumption. J. Agric. Food Chem. 2006. Vol. 54. Pp. 69-75.
18. Ruiter А. Analysis of chemical preservatives in foods, in Methods of analysis of food components and additives, 1st edn (ed S. Otles) /Ruiter, А. and Bergwerff, А.- Taylor & Francis, England, рр ., 2005- 379-399
19. Cassinese C, De Combarieu E, Falzoni M, Fuzzati N, Pace R, Sardone N. New liquid chromatography method with ultraviolet detection for analysis of anthocyanins and anthocyanidins in Vaccinium myrtillus fruit dry extracts and commercial preparations. Journal of AOAC International. 2007. Vol. 90, N4. Pp. 911–919.
20. Vorsa N, Polashock J, Cunningham D, Roderick R. Genetic Inferences and Breeding Implications from Analysis of Cranberry Germplasm Anthocyanin Profiles. J. Am. Soc. Hortic. Sc. 2003. Vol. 128. Pp. 691–697.
21. Kähkönen MP, Heinämäki J, Ollilainen V, Heinonen M. Berry anthocyanins: isolation, identication and antioxidant activities. Journal of the Science of Food and Agriculture. 2003. Vol. 83. Pp. 1403–1411.
22. Anthocyanins Vs Anthocyanidins. Mirtoselect, Indena S.p. A. USA. [Electronic resource]. URL:http://www.mirtoselect.info/public/anthocyanins.asp.
23. Brand-Williams W, Cuvelier ME, Berset C. 1995. Use of a free radical method to evaluate antioxidant activity. Food Science and Technology 28; 25–30.