Kinetic modeling of chromium(III) extraction with aliquat 336 from alkaline aqueous solutions containing chlorides

Wionczyk, B.

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Kinetic modeling of chromium(III) extraction with aliquat 336 from alkaline aqueous solutions containing chlorides

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Wionczyk B.

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Abstrakty

The effects of time, composition and history of preparation of the aqueous phase on the liquidliquid extraction of chromium(III) with Aliquat 336 from the aqueous alkaline solutions containing chlorides were studied. At time far from the equilibrium the yield and initial rate of the chromium(III) extraction depend on NaOH concentration, ionic strength of the aqueous phase and the way of its preparation. At the constant composition of the feed solution, rate of the Cr(III) extraction in approach to the equilibrium is higher when chromium(III) is extracted from the alkaline aqueous phase freshly prepared by direct dissolution of a weighted sample of CrCl3 than from that obtained by dilution of aged stock solution of CrCl3. Kinetic analysis by the mathematical models showed that within the whole period of time needed to reach the equilibrium, the rate of the Cr(III) extraction is limited by the second-, and third-order chemical reaction towards Cr(III), irrespective of composition and preparation history of the aqueous phase. The three-dimensional diffusion and chemical reaction at phase boundary substrateproduct (the contracting volume) models have a significant effect on the chromium(III) extraction within the initial extent of the process.

Słowa kluczowe

extraction chromium(III) chloride Aliquat 33 kinetic analysis

Wydawca

Oficyna Wydawnicza Politechniki Wrocławskiej

Czasopismo

Physicochemical Problems of Mineral Processing

Rocznik

2013

Tom

Vol. 49, iss. 2

Strony

587--605

Opis fizyczny

Bibliogr. 46 poz., rys., tab.

Twórcy

autor

Wionczyk B.

wionczyk@ips.lodz.pl

Institute of Leather Industry, Zgierska 73, 91-462 Lodz, Poland

Bibliografia

1. ABEZGAUZ L., KUPERKAR K., HASSAN P.A., RAMON O., BAHUDUR P., DANINO D., 2010, Effect of Hofmeister anions on micellization and micellar growth of the surfactant cetylpyridinium chloride, J. Colloid Interface Sci. 342, 83–92.
2. ALGUACIL F.J., ALONSO M., LOPEZ F.A., LOPEZ-DELGADO A., 2009, Application of pseudoemulsion based hollow fiber strip dispersion (PEHFSD) for recovery of Cr(III) from alkaline solutions, Sep. Purif. Technol. 66 , 586–590.
3. AOUDIA M., ALLAL N., DJENNET A., TOUMI L., 2003, Dynamic micellar enhanced ultrafiltration: use of anionic (SDS)–nonionic(NPE) system to remove Cr3+ at low surfactant concentration, J. Membrane Sci. 217, 181–192.
4. APOSTOLUK W., BARTECKI A., 1985, Extraction of chromium(III) from sodium chloride solutions by means of carboxylic acids, Hydrometallurgy 15, 191–202.
5. APTE A.D., VERMA S., TARE V., BOSE P., 2005, Oxidation of Cr(III) in tannery sludge to Cr(VI): Field observations and theoretical assessment, J. Hazard. Mater. B121, 215–222.
6. BOSNIC M., BULJAN J., DANIELS R.P., 2000, Pollutants in tannery effluents. Definitions and environmental impact. Limits for discharge into water bodies and sewers, UNIDO Report US/RAS/92/120. Regional Programme for Pollution Control in the Tanning Industry in South-East Asia, 9 August.
7. BUONOMENNA M.G., ORANGES T., MOLINARI R., DRIOLI E., 2006, Chromium(III) removal by supported liquid membranes: a comparison among D2HEPA, DNNSA, and a novel extractant as carriers, Water Environ. Res. 78, 69–75.
8. CISZEWSKI A., BARANIAK M., 2006, Chemical and Electrochemical Activity of Elements in Aqueous Medium, Edition by Poznan University of Technology, Poznan, 258–275.
9. GALWEY A.K., BROWN M.E., 1998, Kinetic background to thermal analysis and calorimetry, Chapter 3 in: Handbook of Thermal Analysis and Calorimetry, Vol. 1: Principles and Practice, M.E. Brown (Ed.), Elsevier, 147–224.
10. GAUGLHOFER J., 1991, Chromium in tannery effluents and its impact on the environment, J. Soc. Leather Technol. Chem. 75 (3), 103–106.
11. GAWRONSKI R., RELIGA P., 2007, Transport mechanism of chromium(III) through the unmixed bulk liquid membrane containing dinonylonaphthalenesulfonic acid as a carrier, J. Membr. Sci. 289, 187–190.
12. GODE F., PEHLIVAN E., 2006, Removal of chromium(III) from aqueous solutions using Lewatit S 100: The effect of pH, time, metal concentration and temperature, J. Hazard. Mater. B136, 330–337.
13. HINTERMEYER B.H., LACOUR N.A., PEREZ-PADILLA A., TAVANI E.L., 2008, Separation of the chromium(III) present in a tanning wastewater by means of precipitation, reverse osmosis and adsorption, Latin Am. Appl. Res. 38, 63–71.
14. INDULSKI J.A. (Ed.), 1992, Environmental Health Criteria, Edition by Institute of Labour Medicine, Łódź, 133–142.
15. IRVING H.M.N.H., AL-JARRAH R.H., 1973, The extraction of the chromium(III)-EDTA complex by solutions of Aliquat 336 in various organic solvents, Anal. Chim. Acta 63, 79–84.
16. ISLAM F., BISWAS R.K., 1979, The solvent extraction of chromium(III) with bis-(2-ethyl hexyl) phosphoric acid in benzene and other solvents, J. Inorg. Nucl. Chem. 41, 229–233.
17. JAKUBOWSKA A., 2012a, Surfactants – application and micelle formation, Wiad. Chem. 66, 209–226.
18. JAKUBOWSKA A., 2012b, Ion binding to interfaces and specific ion effects, Wiad. Chem. 66, 193–208.
19. JONES L., ATKINS P., 2009, Chemistry. Molecules, Matter, and Change, (fourth edition translated in Polish by J. Kuryłowicz) Edition by Wydawnictwo Naukowe PWN, Warszawa, 599–652.
20. KABATA-PENDIAS A., PENDIAS H., 1993, Biogeochemistry of Trace Elements, PWN, Warszawa, 242–251.
21. KARAOGLU M.H., ZOR S., UGURLU M., 2010, Biosorption of Cr(III) from solutions using vineyard pruning waste, Chem. Eng. J. 159, 98–106.
22. KENTISH S.E., STEVENS G.W., 2001, Innovations in separations technology for the recycling and reuse of liquid waste streams, Chem. Eng. J. 84, 149–159.
23. KIMBROUGH D.E., COHEN Y., WINER A.M., CREELMAN L., MABUNI C., 1999, A critical assessment of chromium in the environment, Critical Reviews in Environmental Science and Technology 29 (1), 1–46.
24. KONCZYK J., KOZLOWSKI C., WALKOWIAK W., 2010, Removal of chromium(III) from acidic aqueous solution by polymer inclusion membranes with D2EHPA and Aliquat 336, Desalination, 263, 211–216.
25. KORUS I., LOSKA K., 2009, Removal of Cr(III) and Cr(VI) ions from aqueous solutions by means of polyelectrolyte-enhanced ultrafiltration, Desalination 247, 390–395.
26. LABANDA J., KHAIDAR M.S., LLORENS J., 2009, Feasibility study on the recovery of chromium(III) by polymer enhances ultrafiltration, Desalination 249, 277–581.
27. LIU Y., GUO L., ZHU L., SUN X., CHEN J., 2010, Removal of Cr(III, VI) by quaternary ammonium and quaternary phosphonium ionic liquids functionalized silica materials, Chem. Eng. J. 158, 108–114.
28. MARCUS Y., 2004, Principles of Solubility and Solutions, in: Solvent Extraction Principles and Practice, Rydberg, J., Cox, M., Musikas, C., Choppin, G.R., (Eds.), Dekker, M., New York, 27–80.
29. MULLER W., DEJUGNAT C., ZEMB T., DUFRECHE J.F., DIAT O., 2013, How do Anions Affect Selfassembly and solubility of cetylpyridinum surfactants in water, J. Phys. Chem B 117, 1345–1356.
30. OCHROMOWICZ K., APOSTOLUK W., 2010, Modelling of carrier mediated transport of chromium(III) in the supported liquid membrane system with D2EHPA, Sep. Purif. Technol. 72, 112– 117.
31. OLIVEIRA B., BERTAZZOLI R., 2007, On role of the surfactant aliquat® 336 on the kinetics of oxygen reduction reaction and on the rate of hydrogen peroxide electrosynthesis, J. Electroanal. Chem. 611, 126–132.
32. PANDEY B.D., COTE G., BAUER D., 1996, Extraction of chromium(III) from spent tanning baths, Hydrometallurgy 40, 343–357.
33. PAPANDREOU A.D., STOURNARAS C.J., PANIAS D., PASPALIARIS I., 2011, Adsorption of Pb(II), Zn(II) and Cr(III) on coal fly ash porous pellets, Minerals Engineering 24, 1495–1501.
34. PEREZ-MAQUEDA L.A., SANCHEZ-JIMENEZ P.E., CRIADO J.M., 2005, Kinetic analysis of solidstate reactions: precision of the activation energy calculated by integral methods, Int. J. Chem. Kinet. 37, 658–666.
35. RELIGA P., KOWALIK A., GIERYCZ P., 2011, Application of nanofiltration for chromium concentration in the tannery wastewater, J. Hazard. Mater. 186, 288–292.
36. SENCZUK W., (Ed.), 1999, Toxicology, third edition, PZWL, Warszawa, Chapter 13.4, 448–454.
37. SUNDAR K., MUKHERJEE A., SADIQ M., CHANDRASEKARAN N., 2011, Cr(III) bioremoval capacities of indigenous and adapted bacterial strains from Palarriver basin, J. Hazard. Mater. 187, 553–561.
38. VANDEGRIFT G.F., McCARTY LEWEY S., DYRKACZ G.R., HORWITZ E.P., 1980, Interfacial activity of liquid/liquid extraction reagents-II. Quaternary ammonium salts, J. Inorg. Nucl. Chem. 42, 127–130.
39. WIONCZYK B., 2009, Effect of temperature on the extraction of chromium(III) from alkaline aqueous solution with trioctylmethylammonium chloride (Aliquat 336). Solvent Extr. Ion Exch. 27, 423–446.
40. WIONCZYK B., APOSTOLUK W., 2004a, Solvent extraction of chromium(III) from alkaline media with quaternary ammonium compounds. Part I. Hydrometallurgy 72, 185–193.
41. WIONCZYK B., APOSTOLUK W., 2004b, Solvent extraction of chromium(III) from alkaline media with quaternary ammonium compounds, Part II. Hydrometallurgy 72, 195–203.
42. WIONCZYK B., APOSTOLUK W., 2005, Equilibria of extraction of chromium(III) from alkaline solutions with trioctylmethylammonium chloride (Aliquat 336), Hydrometallurgy 78, 116–128.
43. WIONCZYK B., APOSTOLUK W., CHAREWICZ W.A., 2006, Solvent extraction of chromium(III) from spent tanning liquors with Aliquat 336, Hydrometallurgy 82, 83–92.
44. WIONCZYK, B. APOSTOLUK W., CHAREWICZ W.A., ADAMSKI Z., 2011a, Recovery of chromium(III) from wastes of uncolored chromium leathers. Part I. Kinetic studies on alkaline hydrolytic decomposition of the wastes, Sep. Purif. Technol. 81, 223–236.
45. WIONCZYK B., APOSTOLUK W., CHAREWICZ W.A., ADAMSKI Z., 2011b, Recovery of chromium(III) from wastes of uncolored chromium leathers. Part II. Solvent extraction of chromium(III) from alkaline protein hydrolyzate, Sep. Purif. Technol. 81, 237–242.
46. WIONCZYK B., CIERPISZEWSKI R., MOL A., PROCHASKA K., 2011c, Studies on the kinetics and equilibrium of the solvent extraction of chromium(III) from alkaline aqueous solutions of different composition in the system with Aliquat 336, J. Hazard. Mater. 198, 257–268.

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Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-88823935-19a3-4b14-8a6a-b21acc7846d4