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The principles of sustainable development and green chemistry are priorities in the development of new technologies for the extraction of useful biologically active substances, for example, in the manufacture of medicines. The processes of extracting substances from plant raw materials have many applications. Intensification of such processes, reducing their duration, energy consumption and consumption of the extractant is urgent. The object of the reseach is the green approach to intensify the extraction processes of polysaccharide substances from plant materials. The research methodology was experimental with statistical data processing. In the field of experimental research was the process of the influence of pulsed, alternating and direct current on the intensity of aqueous extraction of polysaccharides from plant materials. The high efficiency of intensification of extraction by a pulsed electric field was studied. The process can reduce the time for obtaining water-soluble polysaccharides by 3 times in comparison with traditional pharmacopoeial convection methods and reduce energy consumption by 20 times. The significance of the pulse current parameters for effective extraction was determined: the referred pulse shape, the frequency of the pulse current for extracting the maximum amount of water-soluble polysaccharides, the pulse duration, and the optimal processing time. The green approach to the use of a moderate electric field of pulsed current to accelerate the extraction of biologically active substances is the basis of the method of intensification of other traditional mass transfer processes for the sustainable development of technology.
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197--204
Opis fizyczny
Bibliogr. 34 poz., rys.
Twórcy
autor
- Institute of Pulse Processes and Technologies, National Academy of Sciences of Ukraine, Bohoyavlensky Avenue, 43a, Mykolayiv, 54018, Ukraine
autor
- Department of Chemistry and Environmental Engineering, Rzeszow University of Technology, Aleja Powstańców Warszawy 12, 35-959 Rzeszów, Poland
autor
- Department of Chemistry, V.O. Sukhomlynskyi National University of Mykolaiv, Nikolska Street, 24, Mykolaiv, 54030, Ukraine
autor
- Department of Ecology and Environmental Management, Petro Mohyla Black Sea National University, 68 Desantnykiv Street, 10, Mykolayiv, 54003, Ukraine
autor
- Department of Chemistry and Environmental Engineering, Rzeszow University of Technology, Aleja Powstańców Warszawy 12, 35-959 Rzeszów, Poland
Bibliografia
- 1. Awaluddin, S.A., Thiruvenkadam, S., Izhar, S., Hiroyuki, Y., Danquah, M.K., Harun, Razif. 2016. Subcritical Water Technology for Enhanced Extraction of Biochemical Compounds from Chlorellavulgaris. Hindawi Publishing Corporation, Bio Med. Research International, 10.
- 2. Bezsonov, Ye., Mitryasova, O., Smyrnov, V., Smyrnova, S. 2017. Influence of the South-Ukraine electric power producing complex on the ecological condition of the Southern Bug River. Eastern-European Journal of Enterprise Technologies, 4/10(88), 20–28.
- 3. Bukeeva, A.B., Kudaibergenova, S.Z. 2012. Review of Modern Methods for Isolating Bioactive Substances from Plants. Bulletin of the L.N. Gumilyov ENU, 2, 192-198 (Bukeeva, A.B., Kudaiberhenova, S.Zh. 2012. Obzor sovremennykh metodov vudelenyia byoaktyvnykh veshchestv yz rastenyi, Vestnyk ENU ym. L.N. Humyleva, 2, 192–198.) (in Russian).
- 4. Chemat, S., Lagha, A., AitAmar, H., Bartels, P. V., Chemat, F. 2004. Comparison of Conventional and Ultrasound-Assisted Extraction of Carvone and Limonene from Caraway Seeds. Flavour and Fragrance Journal, 19, 188–195.
- 5. Cravotto, G., Binello, A., Merizzi, G., Avogadro, M. 2004. Improving Solvent-Free Extraction of Policosanol from Rice Bran by High-Intensity Ultrasound Treatment. European Journal of Lipid Science and Technology, 106, 147–151.
- 6. Granot, I., Rubinsky, B. 2008. Mass Transfer Model for Drug Delivery in Tissue Cells with Reversible Electroporation. International Journal of Heat and Mass Transfer, 51(23–24), 5610–5616.
- 7. Hutchison, James E. 2019. Systems Thinking and Green Chemistry: Powerful Levers for Curricular Change and Adoption. Journal of Chemical Education, 96(12), 2777–2783.
- 8. Ishchenko, V., Pohrebennyk, V., Kochan, R., Mitryasova, О., Zawislak S. 2019. Assessment of Hazardous Household Waste Generation in Eastern Europe. International Multidisciplinary Scientific Geoconference SGEM 2019, Albena, Bulgaria 2019, 6.1(19), 559−566.
- 9. Eissen, M. 2012. Sustainable Production of Chemicals – an Educational Perspective. Chem. Educ. 13(2), 103–111.
- 10. Kanduser, M., Miklavciс, D. 2008. Electroporation in Biological Cell and Tissue: an overview. Electrotechnologies for Extraction from Food Plants and Biomaterials, Editors: Eugene Vorobiev, Nkolai Lebovka, Springer Science+Business Media, LLC, 11–47.
- 11. Kaur, R., Gul, K., Singh, A.K. 2016. Nutritional Impact of Ohmic Heating on Fruits and Vegetables. A review. Cogent Food & Agriculture, 2, 1159000.
- 12. Kulazynski, M., Stolarski, M., Faltynowicz, H., Narowska, B., Swiatek, L., Lukaszewicz, M. 2016. Supercritical Fluid Extraction of Vegetable Materials. Chemistry & Chemical Technology, 10(4s), 637–644.
- 13. Kulshrestha, S., Sarang, S., Loghavi, L., Sastry, S. 2008. Moderaterate Electrothermal Treatments of Cellular Tissues, Electrotechnologies for Extraction from Food Plants and Biomaterials. Springer Science+Business Media, LLC, 91–102.
- 14. Luque de Castro, M.D., Garcia-Ayuso, L.E. 1998. Soxhlet Extraction of Solid Materials: An Outdated Technique with a Promising Innovative Future. Analytica Chimica Acta, 369, 1–10.
- 15. Malushevskij, P.P., Yushchishina, A.N. 2001. Electrical Explosion in Chemical and Technological Processes. Part two. Elektronnaya Obrabotka Materialov, 5, 51–70.
- 16. Malyushevskii, P.P., Malyushevskaya, A.P., Yushchishina, A.N. 2017. On the Mechanism of Electric Discharge Enhancement of Processes for Purifying Plant Fibers from Noncellulose Substances: Part 2. Chemical and electrophysical influence of electric discharge on an aqueous medium—experimental investigations. Surface Engineering and Applied Electrochemistry, 53(4), 383–393.
- 17. Malyushevskaya, A., Yushchishina, A., Mitryasova, O., Pohrebennyk, V., Salamon, I. 2021. Optimization of Extraction Processes of Water-Soluble Polysaccharides under the Electric Field Action. Przegląd Elektrotechniczny, 97(12), 73–76.
- 18. Mandal, V., Mohan, Y., Hemalatha, S. 2007. Microwave Assisted Extraction – An Innovative and Promising Extraction Tool for Medicinal Plant Research. Pharmacognosy Reviews, 1(1), 7–18.
- 19. Mariychuk, R., Porubská, J., Ostafin, M., Čaplovičová, M., Eliašová, A. 2020a. Green Synthesis of Stable Nanocolloids of Monodisperse Silver and Gold Nanoparticles Using Natural Polyphenols from Fruits of Sambucus Nigra L. Applied Nanoscience (Switzerland), 10(12), 4545–4558.
- 20. Mariychuk, R., Grulova, D., Grinchenko, L., Linnyk, R., Lisnyak, V. 2020b. Green Synthesis of Non-Spherical Gold Nanoparticles Using Solidago Canadensis L. Extract. Applied Nanoscience, 10(12), 4817–4826.
- 21. Mitryasova, O., Pohrebennyk, V. 2017. The Status of the Small River as an Indicator of the Water Security of Natural Surface Water. International Multidisciplinary Scientific GeoConference SGEM 2017, Vienna, Austria 2017, 33(17), 391– 398.
- 22. Mitryasova, O., Pohrebennyk, V., Kochanek, A., Stepanova, O. 2017. Environmental Footprint Enterprise as Indicator of Balance it’s Activity. 17th International Multidisciplinary Scientific Geoconference SGEM 2017, Albena, Bulgaria 2017, 51(17), 371–378.
- 23. Mitryasova, O., Koszelnik, P., Gruca-Rokosz, R., Smirnov, V., Smirnova, S., Bezsonov, Ye., Zdeb, M., Ziembowicz, S. 2020. Features of Heavy Metals Accumulation in Bottom Sediments of the Southern Bug Hydroecosystem. Journal of Ecological Engineering, 21(3), 51–60.
- 24. Petrov, O., Petrichenko, S., Yushchishina, A., Mitryasova, O., Pohrebennyk, V. 2020. Electrospark Method in Galvanic Wastewater Treatment for Heavy Metal Removal. Determination and Extraction of Heavy Metals from Wastewater and Other Complex Matrices. Applied Sciences, 10(15), 5148.
- 25. Pohrebennyk, V., Cygnar, M., Mitryasova, O., Politylo, R., Shybanova, A. 2016. Efficiency of Sewage Treatment of Company “Enzyme”. 16th International Multidisciplinary Scientific Geoconference SGEM 2016. Ecology, Economics, Education and Legislation. Ecology and Environmental Protection. Albena, Bulgaria 2016, 5(2), 295–302.
- 26. Richter, B.E., Pohl, C., Avdalovic, N. 1996. Accelerated Solvent Extraction: A Technique for Sample Preparation. Anal. Chemistry, 68, 1033–1039.
- 27. Tahir, M., Khushtar, M., Fahad, M., Rahman, M.A. 2018. Phytochemistry and Pharmacological Profile of Traditionally Used Medicinal Plant Hyssop (Hyssopus officinalis L.). Journal of Applied Pharmaceutical Science, 8(7), 132–140.
- 28. Trineeva, O.V., Slivkin A.I. 2017. Determination of the Sum of Polysaccharides and Simple Sugars in Stinging Nettle Leaves, Bulletin of VSU. Series: chemistry, biology, pharmacy, (Tryneeva O.V., Slyvkyn A.Y. Opredelenye summy polysakharydov y prostykh sakharov v lystiakh krapyvy dvudomnoi. – Vestnyk VHU. Seryia: khymyia, byolohyia, farmatsyia), 1, 164–169. (in Russian)
- 29. Sensoy, I., Sastry, S.K. 2004. Extraction Using Moderate Electric Fields. Journal of Food Science, 69(1), 7–13.
- 30. State Pharmacopoeia of Ukraine. 2007, Scientific and Expert Pharmacopoeia Center, 1st ed., supplement, 520. (in Ukrainian)
- 31. Sun, H., Gea, X., Lv, Y., Wang, A. 2012. Application of Accelerated Solvent Extraction in the Analysis of Organic Contaminants, Bioactive and Nutritional Compounds in Food and Feed. Journal of Chromatography, 1237, 1–23.
- 32. Varghese, K.S., Pandeym, M.C., Radhakrishna, K., Bawa, A.S. 2014. Technology, Applications and Modelling of Ohmic Heating: a review. Journal of Food Science and Technology, 51(10), 2304–2317.
- 33. Wang, L., Curtis, L.W. 2006. Recent Advances in Extraction of Nutraceuticals from Plants. Trendsin Food Science & Technology, 17, 300–312.
- 34. Yushchishina, A., Pasichnyk, M., Mitryasova, O., Koszelnik, Р., Gruca-Rokosz, R., Kida, M. 2020. Rsearch of Aggregatic Stability and Bactericidal Activities of Nanosilver Colodid Solutions, Rocznik Ochrona Środowiska, 22, 40–50.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6f85ff3a-55f5-4c0c-8958-3e9c4bbfd6a9