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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Optymalizacja procesów ekstrakcji rozpuszczalnych w wodzie polisacharydów w działaniu pola elektrycznego
Języki publikacji
Abstrakty
The process of water extraction of polysaccharides was experimentally investigated when pulsed, alternating and direct current passes through the suspension "hyssop grass - water".
Eksperymentalnie zbadano proces ekstrakcji wody polisacharydów, gdy przez zawiesinę „trawa hyzopowa – woda” przepływa prąd pulsacyjny, zmienny i stały.
Wydawca
Czasopismo
Rocznik
Tom
Strony
73--76
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
autor
- Institute of Impulse Processes and Technologies of NAS of Ukraine, Ukraine
autor
- Institute of Impulse Processes and Technologies of NAS of Ukraine, Ukraine
autor
- Petro Mohyla Black Sea National University, Ukraine
autor
- Lviv Polytechnic National University, Ukraine
autor
- University of Presov, Slovak Republic
Bibliografia
- [1] Agenda˗21, (1992). EU, URL: https: // sustainabledevelopment.un.org/ content/documents/Agenda21.pdf
- [2] Mitryasova O., Pohrebennyk V., Kochanek, A., Stepanova O.: Environmental Footprint Enterprise as Indicator of Balance it’s Activity. 17th International Multidisciplinary Scientific Geoconference SGEM, (2017), 51 (17), 371–378.
- [3] Mitryasova O., Pohrebennyk V.: Hydrochemical Indicators of Water System Analysis as Factors of the Environmental Quality State, (2020), Sustainable Production: Novel Trends in Energy, Environment and Material Systems. Studies in Systems, Decision and Control, vol 198. Springer, Cham., 91−104. URL: https://doi.org/10.1007/978-3-030-11274-5_7
- [4] Butler D., Ward S., Sweetapple C., Astaraie-Imani M., Diao K., Farmani R. and Fu G. Reliable, Resilient and Sustainable Water Management: The Safe and SuRe Approach. (2016), J. Global Challenges, 1 (1), 63–77.
- [5] Tahir M., Khushtar M., Fahad M., Rahman Md.A.: Phytochemistry and pharmacological profile of traditionally used medicinal plant Hyssop (Hyssopus officinalis L.), (2018), Journal of Applied Pharmaceutical Science, 8(07), 132-140.
- [6] Mitryasova O., Pohrebennyk V., Salamon I., Oleksiuk A., Mats A.: Temporal Patterns of Quality Surface Water Changes, (2021), Journal of Ecological Engineering, 22(4), 283–295, URL: DOI: https://doi.org/10.12911/22998993/134199
- [7] Petrov O., Petrichenko S., Yushchishina A., Mitryasova O., Pohrebennyk V.: Electrospark Method in Galvanic Wastewater Treatment for Heavy Metal Removal. Applied Sciences, Special Issue «Determination and Extraction of Heavy Metals from Wastewater and Other Complex Matrices», (2020), 10(15), 5148, URL: https://doi.org/10.3390/app10155148
- [8] Przystupa K., Petrichenko S., Yushchishina A., Mitryasova O., Pohrebennyk V., Kochan O.: Electric Spark Method of Purification of Galvanic Waste Waters. (2020), PRZEGLĄD ELEKTROTECHNICZNYR, R. 97 NR 12, 230–233. URL: http://pe.org.pl/articles/2020/12/50.pdf
- [9] Mitryasova О., Pohrebennyk V., Kardasz P.: Hydrochemical Aspects of Surface Water Quality Assessment. 18th International Multidisciplinary Scientific Geoconference SGEM, (2018), 5.2.(18), 513−520.
- [10] Kalynyn L.H.: Systemnyi analyz uslovyi ekstrahyrovanyia rastytelnoho syria v pyshchevom y farmatsevtycheskom proyzvodstve (System analysis of the conditions for the extraction of plant raw materials in food and pharmaceutical production), Микроволновые технологии в народном хозяйстве, (2009), 7-8, 9-14. (in Russian).
- [11] Campanone L.A., Zaritzky N.E.: Mathematical analysis of microwave heating process, (2005), Journal of Food Engineering, 69, 359- 368.
- [12] Kuznetsova S.A., Mikhailov A.G., Skvortsova G.P. and others: Yntensyfykatsyia protsessa vodnoi эkstraktsyy arabynohalaktana yz drevesyny lystvennytsy (Intensification of the process of water extraction of arabinogalactan from larch wood), Chemistry of plant raw materials, (2005), 1, 53-58,
- [13] Mandal V., Mandal V., Mohan Y., Hemalatha S.: Microwave Assisted Extraction – An Innovative and Promising Extraction Tool for Medicinal Plant Research, (2007), Pharmacognosy Reviews,1 (1), 7-18.
- [14] Cravotto G., Binello A., Merizzi G., & Avogadro M.: Improving solvent-free extraction of policosanol from rice bran by highintensity ultrasound treatment/ (2004), European Journal of Lipid Science and Technology, 106, 147–151.
- [15] Ovsyannikova E.A., Ponamareva M.V., A.N. Potapov, Ovsyannikova E.A., Kiseleva T.F.: Yntensyfykatsyia ekstraktsyonnykh protsessov byokatalytycheskym metodom (Intensification of extraction processes by the biocatalytic method), (2013), KrasGAU Bulletin, 1, 169 – 173. (in Russian).
- [16] Derzhavna Farmakopeia Ukrainy (State Pharmacopoeia of Ukraine), State Pharmacopoeia of Ukraine, (2007), 520 p. (in Ukranian).
- [17] Bukeeva A.B., Kudaibergenova S. Zh.: Obzor sovremennыkh metodov vydelenyia byoaktyvnykh veshchestv yz rastenyi (Review of modern methods of isolation of bioactive substances from plants), (2012), ENU Bulletin them. L.N. Gumilyov, 2, 192-198. (in Russian).
- [18] Wang L., Weller C. L.: Recent advances in extraction of nutraceuticals from plants. (2006), Trendsin Food Science& Technology, 17, 300–312.
- [19] Konichev A.S., P.V. Baurin: (Traditional and modern methods of extraction of biologically active substances from plant raw materials: prospects, advantages, disadvantages), (2011), MGOU Bulletin. Natural Sciences Series,3, 49-54. (in Russian).
- [20] Luque de Castro M.D., Garcia-Ayuso L. E.: Soxhlet extraction of solid materials: An outdated technique with a promising innovative future. (1998), Analytica Chimica Acta, 369, 1–10.
- [21] Richter B.E, Pohl C., Avdalovic N.: Accelerated solvent extraction: a technique for sample preparation. (1996), Anal. Chemistry, 68, 1033-1039
- [22] Kulazynski M., Stolarski M., Faltynowicz H., Narowska B., Swiatek L., Lukaszewicz M.: Supercritical fluid extraction of vegetable materials. (2016), Chemistry & chemical technology, 10, (4s), 637-644
- [23] Awaluddin S. A., Thiruvenkadam S., Izhar S., Hiroyuki Y., Danquah M.K., Harun R.: Subcritical Water Technology for Enhanced Extraction of Biochemical Compounds from Chlorellavulgaris/ (2016), Hindawi Publishing Corporation, Bio Med Research International, 10 p.
- [24] Chemat S., Lagha A., AitAmar H., Bartels P.V., Chemat F.: Comparison of conventional and ultrasound-assisted extraction of carvone and limonene from caraway seeds. (2004), Flavour and Fragrance Journal, 19, 188–195.
- [25]. Cravotto G., Binello A., Merizzi G., & Avogadro M.: Improving solvent-free extraction of policosanol from rice bran by high-intensity ultrasound treatment. (2004), European Journal of Lipid Science and Technology, 106, 147–151.
- [26] Mandal V., Mohan Yo., Hemalatha S.: Microwave Assisted Extraction – An Innovative and Promising Extraction Tool for Medicinal Plant Research. (2007), Pharmacognosy Reviews, 1 (1), 7-18.
- [27] Malushevskij P.P., Yushchishina A.N.: Electrical explosion in chemical and technological processes. Part two. (2001), Elektronnaya Obrabotka Materialov, 5, 51-70.
- [28] El-Belghiti, K. Effets d’un champelectrique pulse sur le transfert de matiere et surles caracteristiques vegetales. PhD thesis. (2005), Genie des procedes industriels. Compiegne, University of Compiegne. 208 р. (in Spenish)
- [29] Malyushevskii P.P., Malyushevskaya A.P., Yushchishina A.N.: 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. (2017), Surface Engineering and Applied Electrochemistry, 53 (4), 383-393.
- [30] Ivanishin D.S., Katina Z.F., Rybachuk I.Z.: Handbook for the procurement of medicinal plants, (1986), К., Урожай, 284. (on Russian).
- [31] State Pharmacopoeia of Ukraine, (2007), Scientific and expert pharmacopoeial center, 520 p. (in Ukrainian).
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-92318bef-00bd-4b0d-8f24-1f9c6a4af1ae