Rationale for obtaining protein concentrate of industrial hemp seeds of Cannabis sativa L. of modern selection based on mathematical modeling and its application in food production

In recent decades interest in hemp seed concentrates, which are characterized by a valuable amino acid composition and high nutritional value, has increased. Hemp seeds are sources of vegetable protein and essential components for maintaining health due to the rich content of protein compounds, vitamins, and unsaturated fatty acids. So, production of protein concentrates from oilseeds is becoming relevant. Taking this into account, it is relevant to conduct research aimed at developing and improving the technology for obtaining protein products from the seeds of industrial hemp Cannabis Sativa L of modern selection, as well as expanding the possibility of their use as a part of a different range of food products. The seeds of industrial hemp Cannabis Sativa L of modern selection were used as objects of the research. The studies used both generally accepted and special chemical, physicochemical and physical methods for studying the quality of raw materials and finished products. The research was carried out to improve the technology for obtaining protein concentrate from the seeds of industrial hemp Cannabis Sativa L. based on mathematical modeling of the process, which showed the greatest efficiency in extracting protein concentrate using a 20% alcohol solution as an extractant. Analysis of the composition of the resulting protein concentrate showed a predominant content of globulins. At the same time, the composition of globulin fractions, in comparison with albumin, indicates a great potential for the use of globulin in the formulations of functional food products, as well as a component of targeted technological action. In general, the studies have shown the feasibility of using protein concentrates from industrial hemp seeds of Cannabis Sativa L of modern selection in food products as a functional and technological ingredient.

1. Kubasova A.N., Lobova Yu.V., Polshakova A.S. Integrated processing of oilseeds as an element of recycling technologies in the agricultural sector. International student scientific bulletin. 2016; 3/2.

2. Vorobyova V.I., Chigirinets E.E., Vorobyova M.I. Integrated resource-saving processing of plant waste. Energy. Innovative Directions in Energy. Cals -technologies in the energy sector. 2014; 1.

3. Domoroshchenkova M.L. Current trends in the development of technologies and the market for proteins from oilseeds. Bulletin of the All-Russian Scientific Research Institute of Fats. 2013; 2.

4. Drozdov A.N., Illarionova V.V., Gvozdenko M.Yu. et al. Assessing the effectiveness of the product strategy of a food enterprise. News of higher educational institutions. Food technology. 2018; 4(364): 105-108.

5. Ipatova L.G., Kochetkova A.A., Nechaev A.P. New directions in the creation of functional fat products. Food industry. 2007; 1.

6. Ulozhinova M.Yu., Usenya Yu.S. Study of quality indicators of functional food concentrates: 4. Food industry: science and technology. 2018; 11(4): 53-62.

7. Minevich I.E., Osipova L.L., Ushchapovsky I.V. et al. Technology for obtaining protein concentrates from flaxseed cake for use in industrial production. Bakery products. 2019; 8: 34-37.

8. Bouloc P., Allegret S., Arnaud L. Hemp: industrial production and uses. 2013.

9. Pashin E.L. et al. Study of the morphological and technological properties of the stems of new hemp varieties. News of Higher Educational Institutions. textile industry technology. 2010; 4(325).

10. Fike J. Industrial Hemp: Renewed Opportunities for an Ancient Crop. Critical Reviews in Plant Sciences. 2017; 35:1-19.

11. Shelenga T.V. et al. Biochemical characteristics of hemp seeds (Cannabis sativa L.) from various regions of Russia: 2. Agrarian Russia. 2011; 2:6-9.

12. Posokina N.E., Bessarab O.V., Karastoyanova O.V. Application of sensory methods to assess the quality and technological properties of plant raw materials (review). Food industry. 2022; 12.

13. Salimgaraeva R.V. et al. Biotechnological methods for processing plant biomass. Woodworking industry. 2021; 1.

14. Kulikov D.S., Aryuzina M.A. Biocatalytic and biosynthetic methods for producing protein concentrates from peas and chickpeas. Food systems. 2021; 4(3S): 160-167.

15. Guseva M.V., Guba E.N., Illarionova V.V. Assessment of consumer properties and safety indicators of genetically modified plant products. News of higher educational institutions. Food technology. 2016; 2/3(350/351): 111-113.

16. Emelin V.P., Bokarev A.V., Trifanov I.Yu. Composition and properties of milk protein concentrates obtained by different methods. Equipment and technology of food production. 2009; 4(15).

17. Buffo R.A., Han J.H. 17 – Edible films and coatings from plant origin proteins. Innovations in Food Packaging / ed. Han J.H. London: Academic Press, 2005: 277-300.

18. Chernobabova E.G. et al. Prospects for the use of hemp seed processing products in food technologies of increased nutritional and biological value. 2021: 60-65.

19. Shchekoldina T.V. Technologies for obtaining protein-containing raw materials from sunflower seed processing products. Polythematic network electronic scientific journal of the Kuban State Agrarian University. 2015; 109: 360-378.

20. Ulyanova O.V., Illarionova V.V., Serov O.V. Search for new structure formers for ice cream and frozen desserts. News of higher educational institutions. Food technology. 2017; 4(358): 6-10.

21. Kompantsev D.V., Popov A.V., Privalov I.M. et al. Protein isolates from plant raw materials: review of the current state and analysis of the prospects for the development of technology for obtaining protein isolates from plant raw materials. Modern problems of science and education. 2016; 1:58.

22. Morgunova E.M., Shelegova N.A., Mikulinich M.L. Extraction of natural plant raw materials of increased biological value. Storage and processing of agricultural raw materials. 2010; eleven.

23. Ulyanova O.V., Illarionova V.V., Guseva M.V. Analysis of the composition and properties of stabilization systems for ice cream, frozen desserts and edible ice presented on the Russian market. News of higher educational institutions. Food technology. 2017; 2/3(356/357): 13-19.

24. Baran N., Wozny G., Arellano-Garcia H. Model-based design of experiments for model identification using closed-loop set-point response. Computer Aided Chemical Engineering. Elsevier. 2012; 30: 1337-1341.

25. Kasyanov G.I., Kaminir O.N. Application of mathematical modeling in the development of recipes for semi-finished products using fish and vegetable raw materials. International Scientific Research Journal. 2015; 6/1(37).

26. Ovsyannikov D.L., Bobrov A.S., Frolov V.M. Mathematical modeling of an extreme experiment in the development of optimal drying modes. Advanced Science. 2017; 3(7).