name
Kupin Grigoriy Anatolievich
Scholastic degree
•
Academic rank
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Honorary rank
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Organization, job position
• Krasnodar Research Institute of Agricultural Products Storage and Processing
заведующий отделом хранения и комплексной переработки сельскохозяйственного сырья
Research interests
Разработка технологий хранения и переработки растительного сырья с применением физико-химических и биотехнологических методов с целью получения БАД, продуктов питания функционального и специализированного назначения
Web site url
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Current rating (overall rating of articles)
0
TOP5 co-authors
Articles count: 19
Сформировать список работ, опубликованных в Научном журнале КубГАУ
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CHARACTERISTIC OF EXISTING TECHNOLOGIES AND WAYS OF STORING OF TOPINAMBUR TUBERS
Description
The article analyzes the existing technologies and methods of storage of tubers of topinambur. We have analyzed the traditional methods of storage of tubers of topinambur - in containers, boxes or bags in storage or in the ground clamps. Russian and foreign topinambur tubers storage technologies in modified atmosphere, with use of easily removable wax coating, with plant extracts treatment, at different storage temperatures are studied. We have also carried out analysis of scientific and patent sources led to the conclusion that existing technologies and methods of storing topinambur tubers, which do not allow reducing to the maximum extent the weight loss and the inulin hydrolysis during storage. A reasonable conclusion was made about the advisability of further studies in the field of innovative technologies and methods of preparation for storage and storage of topinambur tubers, ensuring minimal weight loss, as well as maximum preservation in their structure of inulin, vitamin C and other biologically active substances during storage
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CHARACTERISTIC AND FEATURES OF MODERN TOPINAMBUR VARIETIES
Description
The article lists the characteristic and scrutinizes features of modern topinambur varieties. Data, characterizing acres in crops and crop yield abroad and in Russian Federation, are analyzed. Classification traits of topinambur varieties, included in the state register of selection achievements, are studied. Data on crop yield, duration of vegetative period, composition of carbohydrate complex, content of vitamins, macro- and microelements are systematized. The article studies most popular foreign topinambur varieties. The carried out analysis of scientific sources on agrobiological properties and chemical composition of topinambur varieties allowed choosing varieties, which are the most promising for industrial processing
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WAYS TO PROVIDE STABILITY OF RAW MATERIAL DURING STORAGE
Description
An analysis of patented in Russia and abroad methods for providing preservation of plant products, particularly apples and pears, was carried out in the article. The patent search was made for the period from 1995 to 2015 in the databases of patent offices of the United States of America, Japan and European patent organization. The patented methods, realization of which allows increasing of storage life of agricultural products by means of using different kinds of electromagnetic radiation, regulating the content of gaseous medium in the storage, treating with chemical substances, inhibiting the microbiological processes, creating hermetic storing conditions, were systematized. The realized research allowed drawing a conclusion on the relevance of work in the field of search for new methods for providing stable quality of fruits in the process of storing, particularly with the use of electromagnetic fields of very low frequency
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Description
The article analyzes the ways of ensuring a stable quality of vegetable raw materials in the process of storage and use of biopreparations patented in Russia and abroad. The search was conducted in the period from 1995 to 2015 on the databases of the patent agencies of the Russian Federation, the United States, Japan and the European Patent Organization. We have systematized the patented methods, the implementation of which can increase the shelf life of vegetable raw materials. The study led to the conclusion of the usefulness of developing innovative ways of ensuring a stable quality of vegetable raw materials in the process of storage using biopreparations
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Description
The article provides experimental data, which help to substantiate the effectiveness and feasibility of application of plant resources, produced by the rubbing of the pears in the production process of puree as raw material for the production of secondary food additive. For the first time, with the use of pulsed NMR it is established that processing of secondary resources of pears processing in UHF EMF influence on the redistribution of bound and free moisture, i.e., the maximum transition was for linked moisture to free moisture, noted in the processing of secondary resources in UHF EMF with the rate of heating (increase in temperature) 0,4 °С/s to a temperature of 60 °С. It is established that such processing of secondary resources of processing of pears allows to increase the average speed of the subsequent IR-drying and reduce the time IR drying in 2 times in comparison with IR-drying of control sample (without pretreatment in UHF EMF). Pre-treatment of secondary resources of processing of pears to UHF EMF for the identified modes allows for their subsequent IR-drying to reduce the loss of vitamin C, 23.9% and P-active substances – by 20.6% compared with the control sample. We have developed technological modes of production of food additives from secondary resources of processing of pears, providing maximum preservation in its composition of thermolabile biologically active substances – vitamin C and P-active substances. On the basis of these studies, there was developed a set of technical documentation, including TU 10.39.25-423- 040801346-2016 "Food additive. Pear Powder" and a technological instruction for the production of food additives
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Description
Based on the complex of studies carried out, the formulation of wafers (wafer sheets) enriched with food additives "Powder from the tubers of Jerusalem artichoke" and skimmed sunflower lecithin was developed, as well as the formulation of fat filling enriched with a complex of food additives "Powder from tubers of Jerusalem artichoke", "Powder from hips" And low-fat sunflower lecithin. A recipe was developed and an assessment of the organoleptic and physicochemical parameters of enriched waffles with a filling was made. The storage period, ensuring safety and maximum preservation of consumer properties, was established. The study of the nutritional value of the developed waffles with filling allowed to establish that in comparison with the control sample they contain inulin and vitamin C, while the degree of satisfaction of the daily demand for these nutrients with consumption of 100 g of the developed product is 16.46 and 24.65% respectively. In addition, the developed products, in comparison with the control sample, are characterized by an increased content of dietary fiber, potassium, magnesium, phosphorus, iron, vitamins B1, B2 and B6
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USE OF RADIOACTIVE AGROBIOTECHNOLOGIES IN STORING AND PROCESSING OF PLANT MATERIALS
05.20.00 Processes and machines of agroengineering systems
Description
The article analyzes the patented in different countries methods of using of the ionizing radiation in processes of storing and processing of plant materials. Description of nature of the radioactive treatment and the ionizing radiation is given; examples of possible sources of the ionizing radiation are listed. Advantages and disadvantages of the radioactive treatment are shown. The patent search in databases of the WIPO was carried out. Patents, registered in countries like Korea, China, Japan, etc., were analyzed. Methods, realization of which allows sterilizing of material and increasing its storing period, and also improving its processing, were systematized. The carried out survey of the patent documentation revealed, that at the present time there is quite a number of methods of using of the ionizing radiation in storing and processing of plant materials, which can be explained by the fact, that irradiation allows to solve quite effectively a number of important tasks, such as sterilizing the material and modifying chemical substances in its content. In the article it is also shown, that, nevertheless, issues of safety and quality of irradiated products have not yet been fully resolved. In the end, the conclusion was made about the relevance of further research in this field
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RESEARCH OF QUALITY, SAFETY AND CONTENT OF BIOLOGICALLY ACTIVE SUBSTANCES OF FOOD RED BEET
Description
The article presents results of research of quality, safety and content of biologically active substances of food red beet roots of Bordo 237 variety, grown in the Krasnodar region in 2014. On the basis of the research carried out it was established, that there are carbohydrates, proteins, organic acids and mineral substances in the food red beet roots of Bordo 237 variety. Food red beet roots are a source of dietary fibers (pectin, protopectin, hemicelluloses and cellulose), possessing antitoxic, antioxidant, radiation protective, cholesterol-lowering and lipid correcting qualities, and also a source of vitamins C, B9 (folic acid) and P-active substances, possessing antioxidant properties. Due to high content in food red beet of a complex of microelements – iron, zinc, manganese and copper, and a complex of macro elements – potassium and magnesium, it can be recommended for prophylaxis and treatment of hypertension, atherosclerosis and other diseases of heart and vascular system, and for prophylaxis of iron-deficiency anemia. Thus, the research of quality, safety and content of biologically active substances showed that food red beet roots of Bordo 237 variety are a high quality component ingredient for creation of food products of specialized and functional purpose
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Description
Long-term storage of fruits can be achieved by means of their special preparation by pre-treatment before storage by electromagnetic fields of extremely low frequency (ELF EMF). In the current study patterns of influence of ELF EMF pre-treatment of fruits on the effectiveness of reducing microbial contamination during storage for the development of effective technological modes of preparation of fruits before storage are revealed. Qualitative and quantitative characteristics of microbial contamination of the fruits’ surface were studied. Effective modes of fruits (apples and pears) treatment by ELF EMF were established - for apples: frequency - 22 Hz, current - 10 A for 40 minutes, and for pears: frequency - 26 Hz, current - 5 A for 50 minutes, allowing to reduce to the maximum extent the microbial contamination of their surface, and also to reduce the loss of their weight from microbial spoilage during storage. The terms of storage of processed by ELF EMF fruits under refrigeration were established - for apple varieties Idared and Golden Delicious - within 8 months, for pear variety Conference - for 7 months
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05.20.00 Processes and machines of agroengineering systems
Description
The article presents the results of the research of the influence of preliminary treatment of garden beet roots with electromagnetic fields of extremely low frequency on the loss of dry and biologically active substances, such as vitamin C and P-active substances, in the process of long term storage. Garden beet roots of Bordo 237 variety were the objects of research. The objects of research were stored for 7 months at a temperature of 0…+1° С and relative humidity of 90 %. Sampling was carried out every month during the entire storage period. The treatment with electromagnetic fields of extremely low frequency was carried out using an experimental setup of our own assembly. As a result of the conducted research it is established, that the treatment of garden beet roots of Bordo 237 variety with electromagnetic fields of extremely low frequency before dispatching into storage allows to decrease the losses of dry substances by 4,1 % by the end of the 7 months storage period, and also to decrease the losses of vitamin C by 14,8 % and P-active substances by 15,1 %. The data obtained can be used to develop new or improve existing technologies of garden beet roots storing
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