Innovative technologies for the processing of raw materials of plant origin to improve the quality of food supply of the troops

ScienceRise Pub Date : 2022-10-30 DOI:10.21303/2313-8416.2022.002772

M. Riabchykov, I. Tsykhanovska, L. Tovma, O. Aleksandrov, Denis Kovylev, Oleh Rikunov, Oleh Smahin, Kostiantyn Orlov

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Abstract

The object of research: morphological and cultural characteristics of micromycetes: yeast Saccharomyces cerevisiae and mycelial fungi Mucorracemosus grown on agar medium.The subject of research: flax seed suspension, ultrafine powder of double oxide of divalent and trivalent ferrum, micromycetes: yeast Saccharomyces cerevisiae and mycelial fungi MucorracemosusInvestigated problem: ensuring the bacteriostatic properties of raw materials and obtaining products with an extended dates of expiry.The subject in scientific results: the impact of nanoparticles (NP FeO×Fe2O3) on the bacteriostatic (protective) properties of flax seeds against fungal infections has been studied and the dependence of bacteriostatic properties on the amount of nanomagnetite has been determined. The ability of nanomagnetite to improve the bacteriostatic properties of flax seeds has been proven: addition of 0.1 %; 0.15 %; 0.2 % of nanomagnetite suppresses the development of microflora (micromycetes) in flax seed samples by 8–20 times. A reduction in the number of micromycetes (yeast Saccharomycescerevisiae and mycelial fungi Mucorracemosus) by 8–10 times and the size by 10–20 times was established compared to the control. The rational content of nanoparticles (NPs FeO×Fe2O3–nanomagnetite) has been determined as 0.15 % of the weight of the recipe mixture. The proposed mathematical model makes it possible to predict the effectiveness of using NP FeO×Fe2O3 – nanomagnetite to inhibit the growth of mycelial fungi to ensure the bacteriostatic properties of raw materials, in particular, flax seeds. The area of practical use of the research results: food industry enterprises specializing in the production of bakery and flour confectionery products using a mixture of wheat and rye flour with the addition of food additives. Innovative technological product: flour raw material with a mineral nano-additive suspension based on the double oxide of divalent and trivalent ferrum, which allows to ensure quality and extend dates of expiry of the product. Scope of the innovative technological product: to enhance the quality of food supply of the troops in extreme conditions

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创新植物原料加工技术，提高部队食品供应质量

研究对象:在琼脂培养基上生长的酵母菌、酿酒酵母菌和毛状菌菌丝真菌的形态和培养特性。研究课题:亚麻籽悬浮液、二价铁和三价铁双氧化物超细粉、微菌:酵母、酿酒酵母、菌丝体真菌。研究问题:保证原料抑菌性能，获得延长有效期的产品。科学成果的主题:研究了纳米颗粒(NP FeO×Fe2O3)对亚麻种子抗真菌感染抑菌(保护)特性的影响，并确定了抑菌特性与纳米磁铁矿含量的依赖关系。纳米磁铁矿提高亚麻种子抑菌性能的能力已被证实:添加0.1%;0.15%;0.2%的纳米磁铁矿对亚麻种子样品中微生物群(微菌)的抑制作用为其8 ~ 20倍。与对照相比，微菌(酵母、酿酒酵母和毛状菌)的数量减少了8-10倍，大小减少了10-20倍。纳米粒子(NPs FeO×Fe2O3-nanomagnetite)的合理含量为配方混合物重量的0.15%。提出的数学模型可以预测使用NP FeO×Fe2O3 -纳米磁铁矿抑制菌丝真菌生长的有效性，以确保原料，特别是亚麻种子的抑菌性能。研究成果的实际应用领域:食品工业企业专业生产烘焙和面粉糖果产品，使用小麦和黑麦面粉的混合物添加食品添加剂。创新科技产品:面粉原料中添加了以二价和三价铁的双氧化物为基础的矿物纳米添加剂悬浮液，保证了产品的质量，延长了产品的保质期。创新技术产品范围:提高部队在极端条件下的食品供应质量

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3 weeks