Modification of the Process of Obtaining Pectin by the Methods of Membrane Technology

Davitadze, Nazi

doi:10.12911/22998993/171469

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Tytuł artykułu

Modification of the Process of Obtaining Pectin by the Methods of Membrane Technology

Autorzy

Davitadze Nazi

Treść / Zawartość

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11_davitadze_modification_jee_11_2023.pdf

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Identyfikatory

DOI

10.12911/22998993/171469

Warianty tytułu

Języki publikacji

Abstrakty

The proposed approach to the processing of plant materials using membrane methods is new in the field of developing new methods for isolating pectin substances and obtaining not only pectin itself, but also new low-cost high-quality pectin-containing products. The studies were carried out on pressings obtained after squeezing juice from citrus fruits (Georgia): lemon (“Meer”), Washington-Navel orange variety, “Unshiu” mandarin and the largest citrus pomelo fruit (China). From the fruits harvested in April-December, the juice was squeezed out and from the remaining mass, which was crushed, by adding HCl (1:10) pectin isolates were obtained, which were concentrated by ultrafiltration. Soluble pectin was precipitated from the concentrated extract with ethyl alcohol, i.e. converted to an insoluble form. The resulting precipitate was thoroughly washed with alcohol and then dried at T = 55°C. The concentration of isolates was carried out by tangential filtration in dynamic mode on a UPL-06 unit, an AR-0.2 ultrafiltration separating apparatus was used as a membrane, which was located vertically in the unit and was a ready-made module with a filtration area of 2 m²; obtained on the basis of polyamide and phenylone – C 2-B hollow fibers VPU-15PA with a pore size of 500 A. Ultrafiltration was carried out in circulation mode to the maximum possible concentration of the extract. The dependence of the productivity of the process of purification-concentration of pectin extracts from citrus fruit waste without their morphological division, pressure, duration and filtration mode, type and term of fruit harvesting was studied. The work performed has shown that the use of semi-permeable membranes for concentrating pectin extracts allows: to a large extent to remove carbohydrates from the extract, to achieve partial discoloration of the pectin extract; ensure 100% retention of pectin substances by membranes; to achieve a high degree of concentration of the extract and made it possible to obtain a pectin preparation with a purity of 95%. The proposed technology using membrane technology makes it possible to obtain pectin with a purity of 95% or more by purifying it from ballast impurities at the stage of extract concentration.

Słowa kluczowe

pectin ultrafiltration hollow fibre

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2023

Tom

Vol. 24, nr 11

Strony

117--126

Opis fizyczny

Bibliogr. 24 poz., rys.

Twórcy

autor

Davitadze Nazi

nazidavitadze@mail.ru

Georgian Technical University, LTD Batumi Water, 19 Tabukashvili str., Batumi GE 6000, Georgia

https://orcid.org/0009-0003-2722-7520

Bibliografia

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3. Bejanidze I., Kharebava T., Pohrebennyk V., Didmanidze N., Nakashidze N. 2021a. High-quality pectin from waste of citrus juice production using ecologically pure and reagent-free method – electrodialysis. Proceedings of VIII International Congress of Ecologists – 2021. Vinnytsya, 1, 3.
4. Bejanidze I., Pogrebennyk V., Kharebava T., Dydmanidze N., Nakashidze N. 2021b. Vegetable waste is a source of high-quality dietary fiber. Collection of Theses. Papers of the V Specialized International Zaporizh Ecological Forum “ECO FORUM – 2021”, 1, 2.
5. Bejanidze I., Pohrebennyk V., Kharebava T., Koncelidze Z., Jun S. 2019. Development of waste- free, eco-pure combined technology for fruit processing. 19th International Multidisciplinary Scientific Geoconference Albena Resort, Bulgaria. Conference proceeding & EXPO SGEM, 19(5.1), 173–180.
6. Bejanidze I., Kontselidze Z., Kharebava T. 2018. Dietary fiber – multifunctional food ingredients. Review Publisher – RS Global Sp. z o.o., Scientific Educational Center Warsaw, Poland, 1(8)2, 30–35.
7. Bejanidze I., Pogrebennik V., Kharebava T., Didmanidze N., Nakashidze N. 2021. Intensification of technological processes for processing waste of citrus productions. Actual problems, priority directions and development strategies of Ukraine: abstracts of reports of the III International scientific and practical online conference, Kyiv, 1, 371–373.
8. Davitadze N, Bejanidze I. 2012. Effective way to obtain food fiber by membrane methods technology. Second International Conference of young scientists “Chemistry today. ICYC– 2012. 21–23 April 2012. Tbilisi. Collection of works of International Conference, 29–31
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22. Sebaoui O., Moussaoui R., Kadi H., et al. 2017. Kinetic modeling of pectin extraction from wasted citrus Lemon L. Waste and Biomass Valorization, 8, 2329–2337.
23. Senit J.J., Velasco D., Gomez Manrique A., et al. 2019. Orange peel waste upstream integrated processing to terpenes, phenolics, pectin and monosaccharides: Optimization approaches. Ind Crops Prod, 134, 370–381.
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Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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