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Sorption kinetics of Cd(II) ions on fermented grape marc

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The sorption kinetics of Cd(II) ions on the biosorbent which is waste in wine production has been investigated. The sorption process took place relatively quickly, enabling one to achieve equilibrium within a period of 15–20 min only, depending on initial concentration of the sorbate. Kinetic models of pseudo-first and pseudo-second order, model of diffusion in a fluid film and Weber’s and Morris’ intraparticle diffusion model were used to describe the experimental results. The pseudo-second order kinetic model described the sorption process with a high correlation coefficient (R2 = 0.998) better than the other kinetic models. The mass transfer coefficient decreases upon increasing the initial concentration of the solution, which can be explained by the fact that the mechanism of binding of Cd(II) ions to the surface of the sorbent is ion exchange followed by discharge of exchangeable cations from the surface. Characteristic constants in the Weber–Morris model increase upon increasing the initial concentration of the solution.
Rocznik
Strony
243--252
Opis fizyczny
Bibliogr. 25 poz., tab., rys.
Twórcy
autor
  • Faculty of Metallurgy and Technology, University of Montenegro, Džordža Vašingtona BB, 81000 Podgorica, Montenegro
  • Faculty of Metallurgy and Technology, University of Montenegro, Džordža Vašingtona BB, 81000 Podgorica, Montenegro
  • Faculty of Metallurgy and Technology, University of Montenegro, Džordža Vašingtona BB, 81000 Podgorica, Montenegro
Bibliografia
  • [1] ADEDIRIN O., ADAMU U., NNABUK E.O., Removal of Cd(II) from aqueous solution using Bacillus subtilis and Ecsherichia coli immobilized in agarose gel: equilibrium, kinetics and thermodynamic study, Arch. Appl. Sci. Res., 2011, 3, 59.
  • [2] PRADO A.G.S., MOURA A.O., HOLANDA M.S., CARVALHO T.O., ANDRADE R.D.A., PESCARA I.C., DE OLIVEIRA A.H.A., OKINO E.Y.A., PASTORE T.C.M., SILVA D.J., ZARA L.F., Thermodynamic aspects of the Pb adsorption using Brazilian sawdust samples: Removal of metal ions from battery industry wastewater, Chem. Eng. J., 2010, 16, 549.
  • [3] LIU Y., CAO Q., LUO F., CHEN J., Biosorption of Cd2+, Cu2+, Ni2+ and Zn2+ ions from aqueous solutions by pretreated biomass of brown algae, J. Hazard. Mater., 2009, 163, 931.
  • [4] SHENG P.X., TING Y.P., CHEN J.P., HONG L., Sorption of lead, copper, cadmium, zinc, and nickel by marine algal biomass: characterization of biosorptive capacity and investigation of mechanisms, J. Colloid Interface Sci., 2004, 275, 131.
  • [5] UPENDRA K., MANAS B., Sorption of cadmium from aqueous solution using pretreated rice husk, Bioresour. Technol., 2006, 97, 104.
  • [6] LI X., TANG Y., CAO X., LU D., LUO F., SHAO W., Preparation and evaluation of orange peel cellulose adsorbents for effective removal of cadmium, zinc, cobalt and nickel, Colloids Surf., 2008, 317, 512.
  • [7] CAY S., UYANÝK A., OZASIK A., Single and binary component adsorption of copper(II) and cadmium(II) from aqueous solutions using tea-industry waste, Sep. Purif. Technol., 2004, 38, 273.
  • [8] BOZIC D., STANKOVIC V., GORGIEVSKI M., BOGDANOVIC G., KOVACEVIC R., Adsorption of heavy metal ions by sawdust of deciduous trees, J. Hazard. Mater., 2009, 171, 684.
  • [9] NAGY B., MAICANEANU A., INDOLEAN C., BURCA S., SILAGHI-DUMITRESCU L., MAJDIK C., Cadmium(II) ions removal from aqueous solutions using Romanian untreated fir tree sawdust – a green biosorbent, Acta Chim. Slov., 2013, 60 (2), 263.
  • [10] CONORS K., Chemical kinetics, The study of reaction rates in solution, Publisher VCH, New York 1990, 245.
  • [11] GRUDIĆ V., ŠĆEPANOVIĆ J., BOŠKOVIĆ I., Removal of cadmium(II) from aqueous solution using fermented grape marc as a new adsorbent, Chem. Ind. Chem. Eng. Q., 2015, 21 (2), 285.
  • [12] HO Y.S., Citation review of Lagergren kinetic rate equation on adsorption reactions, Scientometr., 2004, 59 (1), 171.
  • [13] MURITHI G., ONINDO C.O., WAMBU E.W., MUTHAKIA G.K., Removal of cadmium(II) ions from water by adsorption using water hyacinth (Eichhorniacrassipes), Biores., 2014, 9 (2), 3613.
  • [14] ERDOGAN B.C., ÜLKÜ S., Cr(VI) sorption by using clinoptilolite and bacteria loaded clinoptilolite rich mineral, Micropor. Mesopor. Mat., 2012, 152, 253.
  • [15] HO Y.S., OFOMAJA A.E., Kinetics an thermodynamics of lead ion sorption on palm kernel fibre from aqueous solution, Process Biochem., 2005, 40, 3455.
  • [16] OFOMAJA A.E., HO Y.S., Kinetic biosorption study of cadmium onto coconut copra meal as biosorbent, Int. J. Environ. Pollut., 2008, 34, 466.
  • [17] FEBRIANTO J., KOSASIH A.N., SUNARSO J., JU Y., INDRASWATI N., ISMADJI S., Equilibrium and kinetic studies in adsorption of heavy metals using biosorbent. A summary of recent studies, J. Hazard. Mater., 2009, 162, 616.
  • [18] ABUH M.A., AKPOMIE G.K., NWAGBARA N.K., ABIA-BASSEY N., APE D.I., AYABIE B.U., Kinetic rate equations application on the removal of copper(II) and zinc(II) by unmodified lignocellulosic fibrous layer of palm tree trunk. Single component system, Stud., Int. J. Basic Appl. Sci., 2013, 1, 800.
  • [19] ARECO M.M., SANTOS A.M., Copper, zinc, cadmium and lead biosorption by Gymnogongrus torulosus. Thermodynamics and kinetics studies, Coll. Surf. B, Bioint., 2010, 81 (2), 620.
  • [20] KUNCORO E.P., FAHMI M.Z., Kinetics of Hg and Pb removal in aqueous solution using coal fly ash adsorbent, IPTEK J. Techn. Sci., 2014, 25 (3), 67.
  • [21] SASIKALA S., MUTHURAMAN G., Kinetic studies for chromium(VI) removal by using Strychnos potatorum seed powder and fly ash, Int. J. Sci., Eng. Techn. Res., 2015, 4, 118.
  • [22] OUBAGARANADIN J.U.K., SATHYAMURTHY N., MURTHY Z.V.P., Evaluation of Fuller’s Earth for the adsorption of mercury from aqueous solutions. A comparative study with activated carbon, J. Hazard. Mater., 2007, 142, 165.
  • [23] SAHMOUNE M.N., LOUHAB K., Kinetic analysis of trivalent chromium biosorption by dead streptomyces rimosus biomass, Arab. J. Sci. Eng., 2010, 35, 69.
  • [24] KOUMANOVA B., PEEVA P., ALLEN S.J., Variation of intraparticle diffusion parameter during adsorption of p-chlorophenol onto activated carbon made from apricot stones, J. Chem. Techn. Biotechn., 2003, 78, 582.
  • [25] CHEUNG W.H., SZETO Y.S., MCKAY G., Intraparticle diffusion processes during acid dye adsorption onto chitosan, Bioresour. Techn., 2007, 98, 2897.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a7266003-b55c-4e06-97d2-f5870f9620df
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