Sorption of rutin and tannin on active carbon BAU-A
Abstract
Natural phenolic compounds (NPC) are the most important biologically active additives (BAA) and a part of drugs, biologically active additives (BAA) and water-ethanol extracts. AC BAU-A was used to isolate NPC from aqueous-alcoholic extracts. The purpose of this research is to study the adsorption and desorption capacity of NPC (for example, rutin and tannin) on the active carbon BAU-A.
The adsorption of NPC was carried out from solutions of standard samples and the resulting water- ethanol extracts on the ultrasonic unit on active carbon (AC) BAU-U with the particle size of 1.0-3.5 mm. It was experimentally proved that the carbon fraction with the particle size 1.0-1.5 mm most fully adsorbs the studied NPC (93-95%) during 15-30 minutes. The obtained adsorption isotherms of NPC on BAU-A belong to the L-type according to the Gibbs classification and confirm the physical mechanism of adsorption.
The adsorption isotherms were used to calculate the physicochemical parameters using the theory of monomolecular adsorption (Freindlich, Langmuir equations), polymolecular adsorption (BET model), and the theory of volume filling of micropores (Dubinin-Radushkevich equation). The obtained values of the Gibbs energy confirm that natural phenolic compounds are adsorbed in micropores due to van der Waals forces, and the surface functional groups of the AC form hydrogen bonds of the sorbate-sorbent.
The desorption of NPC was carried out under dynamic conditions in a column 360 mm long, 15 mm in diameter, and an AC layer height of 80 mm. Polar individual solvents (water, methanol), an aqueous solution of HCl, and a binary mixture of water and ethanol (φ2 = 0.47) were used as eluting solutions. The most effective eluting solution for isolating (75-80%) NPC from the sorbent is methanol or a water-ethanol binary mixture.
Thus, on the basis of the obtained experimental data, it was shown that AC BAU-A has a high ad- sorption capacity with respect to NPC. The use of a binary mixture of water-ethanol or methanol as an eluting solution makes it possible to isolate almost 80% of NPC from the BAU-A sorbent (in terms of rutin and tannin). Active carbon BAU-A manufactured according to GOST 6217-74 (OA ENPO "Neorganika", Elektrostal, Moscow region) is recommended for adsorption of NPC from water-ethanol extracts with subsequent desorption.
Downloads
References
2. Minina S.A., Kauhava I. E. Chemistry and technology of herbal remedies, M., GEOTAR- MED, 2004, 560 PP.
3. Apaev A.V., Mansurov E.T., Kukovinets O.S., Zvorygina O.B., Bulletin of the Bashkir University, 2016, Vol. 21, No 1, pp 69-72.
4. Maltseva A.A., Chistyakova A.S., Sorokin A.A., Slivkin A.I., Bulletin of VSU, Series: Chemistry. Biology. Pharmacy, 2013, No 2, pp. 203-205.
5. Makaeva A.Z., Okazawa Z.P., Advances in current natural Sciences, 2016, No 7, pp. 70-75.
6. Orynbasarova K.K. Some medicinal plants containing flavonoids of cardiovascular action and with p-vitamin activity. Studies'. Method allowance. Shymkent, 2009. 57 p.
7. Rudakov O.B., Podolina E.A., Rudakova L.V., Sorbtsionnye i khromatograficheskie prot- sessy, 2009, Vol. 9, No 2, pp. 177-190.
8. Podolina E.A., Khanina M.A., Rudakov O.B., Nebol'sin A.E., Bulletin of VSU. Series: Biology, Chemistry, Pharmacy, 2018, No 2, pp. 28-35
9. Zgorka G., Kawka S., J. Pharmaceut. and Biomed. Anal., 2001, No 24, pp. 1065-1072.
10. Suarez B., Picinelli A., Mangas J., J. Chromatogr. A, 1996, No 727, pp. 203-209.
11. Shafts R.I., Larionova I.S., Khanin, M.G., Rodin A.P. et al., Pharmacy. 2010, No 6, pp. 29-31.
12. Korolkov V.V., Kochetkova M.V., Lario- nov O.G. Emelina S.V., Sorbtsionnye i khroma- tograficheskie protsessy, 2008, Vol. 8, No 3, pp. 507-512.
13. Mukhin V. M., Klushin V. N. Production and application of carbon adsorbents: studies. benefit. - M.: Russian University of chemical technology. D. I. Mendeleev, 2012, 308 p.
14. Korzh E., Smolin S.K., Klimenko N.Ah., Chemistry and water technology, 2016, Vol. 38, No 4, pp. 342-354.
15. Krasnova T.A., Mountain N.In, Golubeva N.S., Polzunovskii]. 2014, No 3, pp. 237-239.
16. Active coals. Elastic sorbents. Catalysts, dehumidifiers A43 and chemical absorbers based on them: Catalog / under Ls. Ed. V.M. Mukhina, M., Publishing house "Ore and met- als", 2003, 280 p.
17. Pogrebnyak A.V., Stepanova E.F., Chemi- cal-pharmaceutical journal, 2003, Vol. 37, No 7, pp. 36-40.
18. Kaganovsky A.M., Klimenko I.A., Lev- chenko T.M., Roda I.G. Adsorption of organic substances from solution. L., Chemistry, 1990, 256 p.
19. Gerasimov Ya.I., Dreving V.P., Eremin E.N., Kiselev A.V. et al., Course in physical chemistry. 1964, Vol. 1, 626 p.
20. Kaganovsky A.M., Klimenko N.A. Lev- chenko T.M., Muratovski R.M., et al., Purifica- tion and use of waste-water in industrial water supply. M., Chemistry, 1983, 288 p.