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Изучены сорбционные и комплексообразующие свойства импрегнированных сорбентов на основе PAD600 по от-ношению к иону Pt(II). Определены параметры сорбционного извлечения ионов платины. Установлено, что лучшими сорбционными свойствами по отношению к катионам платины обладают импрегнированные сорбенты. На основании обработки интегральных кинетических кривых сорбции установлено, что процесс сорбции идет в соответствии с моде-лями второго порядка. Применение моделей химической кинетики показало, что вклад в общую скорость процесса также вносит стадия химического взаимодействия ионов платины (II) с функциональными группами сорбента.

  • Web Address
  • DOI
  • Date of creation in the UzSCI system09-12-2019
  • Read count396
  • Date of publication20-08-2019
  • Main LanguageRus
  • Pages3-9
Ўзбек

PAD600 ga asoslangan impregnirlangan sorbentlarning Pt(II) ioniga nisbatan sorbsiyalanish va kompleks hosil qilish xususiyatlari o'rganildi. Platina ionlarning sorbsion ajratish parametrlari aniqlanadi. Impregnirlangan sorbentlarn-ing platina kationlariga nisbatan eng yaxshi sorbsion xususiyati borligi aniqlandi. Integral kinetik egri chizig'ini qayta ish-lashga asoslangan holda sorbsiya jarayoni ikkinchi darajali modellarga mos kelishi aniqlangan. Kimyoviy kinetika model-larining ishlatilishi platina (II) ionlarining sorbentning funktsional guruhlari bilan kimyoviy ta'sirlanish bosqichi ham umumiy sorbsiya jarayoni tezligiga yordam berishini ko'rsatdi.

Русский

Изучены сорбционные и комплексообразующие свойства импрегнированных сорбентов на основе PAD600 по от-ношению к иону Pt(II). Определены параметры сорбционного извлечения ионов платины. Установлено, что лучшими сорбционными свойствами по отношению к катионам платины обладают импрегнированные сорбенты. На основании обработки интегральных кинетических кривых сорбции установлено, что процесс сорбции идет в соответствии с моде-лями второго порядка. Применение моделей химической кинетики показало, что вклад в общую скорость процесса также вносит стадия химического взаимодействия ионов платины (II) с функциональными группами сорбента.

English

The sorption and complex-forming properties of PAD600-based impregnated sorbents with respect to the Pt (II) ion were studied. The parameters of sorption extraction of platinum ions are determined. It was found that impregnated sorbents have the best sorption properties with respect to platinum cations. Based on the processing of the integral kinetic sorption curves, it has been established that the sorption process proceeds according to second-order models. The use of chemical kinetics models has shown that the stage of chemical interaction of platinum (II) ions with functional groups of the sorbent also contributes to the overall process rate.

Name of reference
1 Mokhodoyeva OB, Myasoyedova G.V., Kubrakova I.V., Nikulin A.V., Artyushin O.I., Odinets I.L. Novyye tverdofaznyye ekstragenty dlya kontsentrirovaniya blagorodnykh metallov [New solid phase extractants for concentrating precious metals]. Zhurnal analiticheskoy ximii, 2010, vol. 65, no. 1, pp. 15-20.
2 Iwasaki K. Determination of mugram amounts of palladium in titanium alloys by x-ray fluorescence spectrometry after solvent extraction and collection on a filter paper. Analytica Chimica Acta, 1979, vol. 110, no. 1, pp. 67-74.
3 Dmitriev S.N., Shishkina T.V., Zhuravleva E.L., Chimeg J. Determination of gold in geological samples by x-ray fluorescence spectrome-try after extraction with tributyl phosphate. J. Anal. Chim. Acta, 1991, vol. 243, pp. 81.
4 Igarashi S., Takahashi A., Ueki Y., Yamaguchi H. Homogeneous liquid–liquid extraction followed by X-ray fluorescence spectrometry of a microdroplet on filter-paper for the simultaneous determination of small amounts of metals. Analyst, 2000, vol. 125, pp. 797.
5 Gordeyeva V.P., Yermakov A.I., Tsizin G.I. Kontsentrirovaniye palladiya na tsellyuloznykh sorbentakh, impregnirovannykh trioktila-minom [Concentration of palladium on cellulose sorbents impregnated with trioctylamine]. Vest. Mosk.un-ta. Ser.2. Khimiya, 2003, vol. 44, no. 3, pp. 183-188.
6 Vydysh A.A., Dovgiy I.I., Lyapunov A.YU. Izvlecheniye zolota(III) sorbentom na osnove 4,4’(5)’-dinitro-dibenzo-24-kraun-8 [Extraction of gold (III) by a sorbent based on 4.4 ’(5)’ - dinitro-dibenzo-24-crown-8]. Uchenyye zapiski Krymskogo federal'nogo universiteta im. V.I.Vernadskogo. Ser. Biologiya, khimiya, 2015, vol. 1, no. 1, pp. 197-203.
7 Gandhi M.R., Yamada M., Kondo Y., Shibayama A. Hamada p-Sulfonatothiacalix[6]arene-impregnated resins for the sorption of plati-num group metals and effective separation of palladium from automotive catalyst residue. Journal of Industrial and Engineering Chemistry, 2015, vol. 30, pp. 20-28.
8 Serarols J., Poch J., Llop M. F., Villaescusa I. Determination of the effective diffusion coefficient for gold (III) on a macroporous resin XAD-2 impregnated with triisobutyl phosphine sulfide. Reactive and Functional Polymers, 1999, vol. 41, no. 1-3, pp. 27-35.
9 Villaescusa I., Salvado V., De Pablo J., Valiente M., Aguilar M. Liquid-solid extraction of gold (III) from aqueous chloride solutions by macroporous resins impregnated with triisobutyl phosphine sulfide (Cyanex 471). Reactive polymers, 1992, vol. 17, no. 1, pp. 69-73.
10 10 Xu Y., Xie Z., Xue L. Chelation of heavy metals by potassium butyl dithiophosphate. Journal of Environmental Sciences, 2011, vol. 23, no. 5, pp. 778-783.
11 11. Roukala J., Orr S.T., Hanna J.V., Vaara J., Ivanov A.V., Antzutkin O.N., Lantto P. Experimental and first-principles NMR analysis of Pt (II) complexes with O, O′-Dialkyldithiophosphate ligands. The Journal of Physical Chemistry A, 2016, vol. 120, no. 42, 8326-8338.
12 12. Warshawsky A., Strikovsky A. G., Jerabek, K., Cortina, J. L. Solvent-impregnated resins via acid-base interaction of poly (4-vinylpyridine) resin and di (2-ethylhexyl) dithiophosphoric acid. Solvent extraction and ion exchange. 1997, vol. 15, no. 2, pp. 259-283.
13 13. Daminova Sh.Sh., Kadirova Z.Ch., Sharipov H.T. Sorption of Ag(I) ions on solid impregnated resins PAD600 and PAD400. Austrian Jour-nal of Technical and Natural Sciences, 2016, no. 11-12, pp. 60-63.
14 14. Daminova SH.SH., Sharipov KH.T., Talipova L.L. Kristallicheskaya struktura kompleksa Pt(II) s diizopropilditiofosfornoy [The crystal structure of the complex Pt (II) with diisopropyldithiophosphoric]. Uzbekskiy khimicheskiy zhurnal, 2001, no. 1, pp. 20-23.
15 15. Daminova SH.SH., Kadirova Z.CH., Sharipov KH.T. IK-spektroskopicheskoye issledovaniye perekhodnykh metallov s impregnirovanny-mi sorbentami na osnove Porolasa [IR-spectroscopic study of transition metals with Porolas-based impregnated sorbents]. Uzb. khimich. zhurn., 2016, no. 6, pp. 3-9.
16 16. Daminova SH.SH., Kadirova Z.CH., Sharipov KH.T. IK-spektroskopicheskoye issledovaniye blagorodnykh metallov s impregnirovannymi sorbentami [IR spectroscopic study of noble metals with impregnated sorbents]. Uzb. khimich. zhurn., 2018, no. 2, pp. 3-11.
17 17. Garnovsky D. A. et al. Direct evidence of coordination on the endocyclic nitrogen atom in the adducts of 2-aminoazoles and 2-aminoazines with copper (II) acetate. Inorganica chimica acta, 1989, vol. 160, no. 2, pp. 177-182.
18 Daminova SH.SH. Issledovaniye sostoyaniya ionov metallov v faze impregnirovannykh sorbentov metodom ESDO [Investigation of the state of metal ions in the phase of impregnated sorbents by the method of ESDO]. Khimiya i khimicheskaya tekhnologiya, 2018, no. 3, pp. 50-53.
19 Gammons C.H. Experimental investigations of the hydrothermal geochemistry of platinum and palladium: V. Equilibria between platinum metal, Pt(II), and Pt(IV) chloride complexes at 25 to 30 oC. Geochimica et Cosmochimica Acta, 1996, vol. 60, no. 10, pp. 1683-1694.
20 Wood S.A. Experimental determination of the hydrolysis constants of Pt2+ and Pd2+ at 25 0C from the solubility of Pt and Pd in aqueous hydroxide solutions. Geochimica et Cosmochimica Acta, 1991, vol. 55, no. 7, pp. 1759-1767.
21 Ho Y. S. Review of second-order models for adsorption systems, J. of Hazardous Materials, 2006, B136, pp. 681-689.
22 22. Douven S., Paez C.A., Gommes C.J. The range of validity of sorption kinetic models. Journal of Colloid and Interface science, 2015, vol. 448, pp. 437–450.
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