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Chemical modification of cellulose for boron sorption from water solutions

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
It is shown that natural cellulose obtained from the walnut shell (Juglans regia) can be used for chemical modification of the selective boron sorbent. The modification was carried out by the coupling technique of chlorine derivatives of the polyhydric alcohols or polyols (mannitol, xylitol, sorbitol or glycerol). In this case new hybrid substances (sorbents) were obtained and they are represented by the formula: R-O-(CHOH)n -CH3 , where R is a residue of the cellulose backbone, n is the number of functional (OH) groups of the polyhydric alcohols. The pulp mercerization was carried out by processing the ground walnut shell (WS) with hot solution of sodium hydroxide. Chlorination of polyhydric alcohols was carried out by gaseous hydrochloric acid sparging through the polyhydric alcohol aqueous solution. The coupling process proceeds according to the mechanism of substitution of the cellulose hydroxyl groups with chlorine atoms.
Rocznik
Strony
123--128
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
  • Social Fund “Research Centre of Salt Technology”, BC Ansar, 25 Syganak, 010000 Astana, Republic of Kazakhstan
  • Social Fund “Research Centre of Salt Technology”, BC Ansar, 25 Syganak, 010000 Astana, Republic of Kazakhstan
  • Social Fund “Research Centre of Salt Technology”, BC Ansar, 25 Syganak, 010000 Astana, Republic of Kazakhstan
  • Social Fund “Research Centre of Salt Technology”, BC Ansar, 25 Syganak, 010000 Astana, Republic of Kazakhstan
  • Fund “Research Centre of Salt Technology”, BC Ansar, 25 Syganak, 010000 Astana, Republic of Kazakhstan
autor
  • Institute of Plant Protection – National Research Institute, Władysława Węgorka 20, 60-318 Poznań, Poland
Bibliografia
  • 1. Kuznetsov, N.T. 1988. Boron. In I.L. Knunyants (ed.), Chemical Encyclopedia (p. 299). Moscow, Russia: Soviet Encyclopedia.
  • 2. Vithana, E.N., Morgan, P., Sundaresan, P., Ebenezer, N.D., Tan, D.T., Mohamed, M.D., Anand, S, Khine, K.O., Venkataraman, D., Yong, V.H., Salto-Tellez, M., Venkatraman, A., Guo, K., Hemadevi, B., Srinivasan, M., Prajna, V., Khine, M., Casey, J.R., Inglehearn, C.F. & Aung, T. (2006). Mutations in sodium-borate cotransporter SLC4A11 cause recessive congenital hereditary endothelial dystrophy (CHED2). Nat. Genet. 38(7), 755-7. DOI: 10.1038/ng1824.
  • 3. Zhirkov, A.A., Razvazhnaya, O.V., Kazakova, T.A., Petrenko, D.A., Proskurnin, M.A., Dedkov, Yu.M. & Zuev, B.K. (2011). Quantification of boron in water by of spectrophotometry and thermal lens spectrometry using reaction with berillon III. J. Anal. Chem. 66 (12), 1180-1185. DOI: 10.1134/S106193481109022X.
  • 4. Arslan, N. (2013). Invisible face of boron pollution in fluvial ecosystem: The level in the tissues of sentinel and nectonic organisms. Ambio. 42(6), 715-723. DOI: 10.1007/ s13280-013-0383-9.
  • 5. Zheng, M.P., Qi, W. & Yuan, H.R. (2005). Characteristics of salt lake boron deposits and magnesium borate deposits of the Qinghai-Tibet Plateau, China. In Mineral Deposit Research: Meeting the Global Challenge (pp. 1123-1125). Springer Berlin Heidelberg.
  • 6. Zheng, X. (1984). Distribution characteristics of boron and lithium in brine of Zhacang Caka salt lake, Xizang (Tibet), China. Chin. J. Oceanol. Limnol. 2(2), 218-227. DOI: 10.1007/ BF02851493.
  • 7. Warren, J.K. (2016). Evaporites. A geological Compendium (2nd Edition). Berlin, Springer.
  • 8. Mazitov, L.A., Finatov, A.N., Finatova, I.L. & Orlova, A.P. (2014). RU Patent No. 2523466.
  • 9. Pastuchov, A.V., Nikitin, N.V. & Davankov, V.A. (2014). RU Patent No. 2527217.
  • 10. Mazitov, L.A., Finatov, A.N. & Finatova, I.L. (2014). RU Patent No. 2527240.
  • 11. Mazitov, L.A., Finestov, A.N., Finatova, I.L. & Druzhinina, N.S. (2013). RU Patent No. 2498850.
  • 12. Mazitov, L.A., Finestov, A.N. & Finatova, I.L. (2014). RU Patent No. 2528696.
  • 13. Sirotkina, E.E. (2014). RU Patent No. 2520473.
  • 14. Yan, C.Y. & Wen, T.Y. (2013). Boron Adsorption by Cellulose Supported Layered Double Hydroxides. Adv. Mat. Res. 807-809, 1380-1383. DOI: 10.4028/ www.scientific.net/AMR.807-809.1380.
  • 15. Sánchez, J., Wolska, J., Yörükoğlu, E., Rivas, B.L., Bryjak, M. & Kabay, N. (2016). Removal of boron from water through soluble polymer based on N-methyl-D-glucamine and regenerated-cellulose membrane. Desalin. Water Treat. 57(2), 861-869. DOI: 10.1080/19443994.2014.979369.
  • 16. Inukai, Y., Tanaka, Y., Matsuba, T., Mihara, N., Yamada, K., Nambu, N., Itoh, O., Doi, T., Kaida, Y. & Yasuda, S. (2004). Removal of boron (III) by N-methylglucamine-type cellulose derivatives with higher adsorption rate. Anal. Chim. Acta. 511(2), 261-265. DOI: 10.1016/j.aca.2004.01.054.
  • 17. Chester, W.A (1972). G.B. Patent No. 1430578.
  • 18. Willard, D.P. (1974). U.S. Patent No. 3856670.
  • 19. Leikin, Yu. A., Yagodin, G.A. & Kosaeva, А.С. (1986). USSR Patent No. 1244934.
  • 20. Bishimbaev, V.K. & Sarsenov, A. (1996). Extraction of boron compounds using active coals. Bulletin of the High School. 3, 15-22.
  • 21. Garret, D.E. (1998). Borrates. Handbook of deposits, processing and use. Academic. Press, San Diego, California. USA.
  • 22. Sarsenov, A.M. (2012). KZ Patent No. 26502
  • 23. Bazarbayeva, S.M (2008). Boron-containing micronutrients of the solution of acid waste water. Bulletin of the Bashkir University. 13(1), 33-35.
  • 24. Grushko, Ya.M. (1979) Harmful Inorganic Compounds in Industrial Wastewater, Leningrad: Khimiya.
  • 25. Williams, W.J. (1979). Handbook of Anion Determination., USA: Butterworth-Heinemann.
  • 26. Lurie, Yu. (1984). Analytical chemistry of industrial wastewater. Moscow, Russia: Izdatelstvo Khimija.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c0d49337-2456-42f9-8b78-3040ac036af0
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