Перегляд за Автор "Bereza-Kіndzerska, Ludmila"

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Environmental assessment of rivers in the Kiev region (Ukraine) according to the health and indicators
(2016) Shumigay, I. V.; Togachynska, Olga; Nychyk, Oksana; Salavor, Oksana; Bereza-Kіndzerska, Ludmila
The study of water in reservoirs of Ukraine through passive monitoring methods permit to detect heavy metals in the proportion that far exceeds the Maximum Allowable Concentrations (M. A. C.). This article presents the results of the monitoring of some toxic substances in several small rivers in Kiev region, considering the influence of anthropogenic factors. Also there was analyzed the state of aquatic ecosystems and there was made their ecological assessment based on a sanitary indicators. Nowadays we can provide the ecological safety using waste-free technologies with full utilization of all the raw materials’ constituents. The main research area of the water resources protection is the elaboration of the ecological control methods of the effluents quality.
Qualitative indicators of grain flakes of functional purpose
(2019) Bazhay-Zhezherun, Svitlana; Simahina, Galina; Bereza-Kіndzerska, Ludmila; Naumenko, Nataliia
The influence of temperature regime and duration of cold grain conditioning on its biological value is determined. The dependence of basic physical and technological parameters of cereal flakes and organoleptic properties of finished samples of finished products on their component composition is investigated. The degree of maintenance of daily needs of the adult population in the macro and microcurrencies is determined, due to the consumption of 100 g of cereals. The indicators of microbiological stability of products are established.
Research of influence of biological activation on the vitamin complex of grain cereal cultures
(2017) Bazhay-Zhezherun, Svitlana; Bereza-Kіndzerska, Ludmila; Togachynska, Olga
We offered to hydrothermal treatment processing grain of cereal cultures - wheat, bare grain oats, triticale, which promotes increase in its nutritional value, in particular increase in amount of vitamins, by biological activation. . In the course of the offered grain preparation contents of anti-mineral substance of phytin significantly decrease, the content of vitamins of antioxidants, of vitamins of group B, of inositol considerably grows.
The use of the biologically activated grain is in technology of health products
(2016) Simahina, Galina; Bazhay-Zhezherun, Svitlana; Fedorenko (Mykoliv), Tetiana; Bereza-Kіndzerska, Ludmila; Antoniuk, Maria
The concept of scientific, methodical and technological support for learning logic is presented. The concept founds on the notions ofThe basic stages of technological process of production of semi-finished products or mixtures from grain, enriched by microelements, grounded. The mutual influence of microelements on content of amino acid in germinated grain of oat is determined. Ways of the processing enriched with mineral substances of grain raw materials it is offered. intensification of synthesis of vitamins is experimentally investigational in the process of germinating of wheat grain with the use of plant extracts that contain phytoncides. The technology of manufacturing health products is worked out on the basis of the biologically activated grain of wheat "ZerniatkoPikantne" (the kernel) with the extract of garlic or onion extract. Представлена концепція наукового, методичного та технологічного забезпечення логіки навчання. Концепція ґрунтується на уявленнях основних етапів технологічного процесу виробництва напівфабрикатів або сумішей з зерна, збагачених мікроелементами, обґрунтованих. Визначено взаємний вплив мікроелементів на вміст амінокислоти в пророслому зерні вівса. Запропоновано спосіб переробки, збагачений мінеральними речовинами зернової сировини. Інтенсифікація синтезу вітамінів експериментально досліджується в процесі проростання зерна пшениці з використанням рослинних екстрактів, що містять фітонциди. Технологія виробництва оздоровчих продуктів розроблена на основі біологічно активованого зерна пшениці «ZerniatkoPikantne» (ядро) з екстрактом часнику або цибульного екстракту.
Use of lupine flour and cavbuz puree in bread technology
(2022) Bazhay-Zhezherun, Svitlana; Simahina, Galina; Bereza-Kіndzerska, Ludmila; Romanovska, Tetiana
Introduction. The influence of plant fortifiers: сavbuz (a hybrid of watermelon and pumpkin) puree and flour of non–alkaloid lupine on the nutritional and biological value of wheat bread, its sorption capacity in relation to toxic lead ions was studied. Materials and methods. Protein content was determined by Bradford method, starch – polarimetrically; fat – by exhaustive extraction with chemically pure hexane; vitamins E, P (rutin), β–carotene – colorimetrically; vitamin C – titrimetrically; В1, В2 – fluorometrically; fiber – by acid hydrolysis; pectin by the calcium–pectate method. The amount of lead absorbed was determined by “wet burning” method. Results and discussion. сavbuz puree is a rich source of substances with antioxidant activity: β-carotene, 13.4 mg, Р (rutin), 45.4 mg, phenolic compounds, 283.23 mg, as well as natural food sorbents such as fiber 1.7 % and pectin, 1.5 % per 100 g of product (moisture 83.1 %). According to sensory and physico-chemical characteristics, cavbuz puree may be used as a component in the manufacturing of health products. Lupine flour contains 3.9 times more protein, 40 times more fiber, 10.5 pectin substances compared to wheat flour; a significant amount of tocopherols - 12.8 mg, β-carotene - 0.52 мг, vitamin C – 35.84 мг per 100 g of product (moisture 9.5 %). The inclusion of 4-7% of lupine flour and 3-5% of cavbus puree in the recipe of wheat bread, makes it possible to obtain bread for health purposes, in which the protein content is 22-32%, fiber content is two to three times higher, tocopherols are 9 times higher than in control, provided that the physico-chemical and organoleptic parameters of the product are acceptable. 100 g of developed bread provides 23% of the minimum rate of pectin consumption, 6% of the daily need for vitamin E; 13.8% in В1, 14% in β–carotene; 6.6% in flavonoids, which are absent in wheat bread. Enriched bread has a 25–30 times higher sorption capacity for toxic divalent lead ions than wheat bread.