Pseudo-second order model for sorption processes

doi:10.1016/S0032-9592(98)00112-5

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Pseudo-second order model for sorption processes

Journal Article•DOI•

Pseudo-second order model for sorption processes

Yuh-Shan Ho¹, Gordon McKay¹•Institutions (1)

Hong Kong University of Science and Technology¹

01 Jul 1999-Process Biochemistry (Elsevier)-Vol. 34, Iss: 5, pp 451-465

TL;DR: In this paper, a literature review of the use of sorbents and biosorbents to treat polluted aqueous effluents containing dyes:organics or metal ions has been conducted.

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About: This article is published in Process Biochemistry.The article was published on 1999-07-01. It has received 13746 citations till now. The article focuses on the topics: Sorption.

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Journal Article•DOI•

Review of second-order models for adsorption systems.

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Yuh-Shan Ho¹•Institutions (1)

Taipei Medical University¹

25 Aug 2006-Journal of Hazardous Materials

TL;DR: An overview of second-order kinetic expressions is described in this paper based on the solid adsorption capacity, which shows that a pseudo-second-order rate expression has been widely applied to the Adsorption of pollutants from aqueous solutions onto adsorbents.

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3,458 citations

Journal Article•DOI•

Dye and its removal from aqueous solution by adsorption: A review

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Mustafa T. Yagub¹, Tushar Kanti Sen¹, Sharmeen Afroze¹, Ha Ming Ang¹•Institutions (1)

Curtin University¹

01 Jul 2014-Advances in Colloid and Interface Science

TL;DR: An extensive list of various adsorbents such as natural materials, waste materials from industry, agricultural by-products, and biomass based activated carbon in the removal of various dyes has been compiled here.

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2,979 citations

Journal Article•DOI•

Biosorbents for heavy metals removal and their future

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Jianlong Wang¹, Can Chen¹•Institutions (1)

Tsinghua University¹

01 Mar 2009-Biotechnology Advances

TL;DR: The biosorbents widely used for heavy metal removal were reviewed, mainly focusing on their cellular structure, biosorption performance, their pretreatment, modification, regeneration/reuse, modeling of biosor adaptation (isotherm and kinetic models), the development of novel biosorbent, their evaluation, potential application and future.

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2,281 citations

Journal Article•DOI•

Kinetic models of sorption: a theoretical analysis.

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Saeid Azizian¹•Institutions (1)

Bu-Ali Sina University¹

01 Aug 2004

TL;DR: The theoretical results (derived equations) show that the observed rate constants of pseudo-first-order and pseudo-second-order models are combinations of adsorption and desorption rate constants and also initial concentration of solute.

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Abstract: The kinetics of sorption from a solution onto an adsorbent has been explored theoretically. The general analytical solution was obtained for two cases. It has been shown that at high initial concentration of solute (sorbate) the general equation converts to a pseudo-first-order model and at lower initial concentration of solute it converts to a pseudo-second-order model. In other words, the sorption process obeys pseudo-first-order kinetics at high initial concentration of solute, while it obeys pseudo-second-order kinetics model at lower initial concentration of solute. The theoretical results (derived equations) show that the observed rate constants of pseudo-first-order and pseudo-second-order models are combinations of adsorption and desorption rate constants and also initial concentration of solute. The obtained theoretical equations are used to correlate experimental data for sorption kinetics of some solutes on various sorbents. The predictions of the theory are in excellent agreement with the experimental data.

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1,860 citations

Journal Article•DOI•

Application of biosorption for the removal of organic pollutants: a review

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Zümriye Aksu¹•Institutions (1)

Hacettepe University¹

01 Mar 2005-Process Biochemistry

TL;DR: In this article, a review examines a wide variety of microorganisms (fungi, yeasts, bacteria, etc.), which are capable of uptake of organic pollutants, discusses various mechanisms involved in biosorption, discusses the effects of various parameters such as pH, temperature, concentrations of organic pollutant, other ions, and biomass in solution, pretreatment method, etc.

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1,825 citations

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References

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Journal Article•DOI•

Biosorption of cationic dyes by dead macro fungus Fomitopsis carnea: Batch studies

[...]

Atul K. Mittal¹, Santosh K. Gupta¹•Institutions (1)

Indian Institutes of Technology¹

01 Jan 1996-Water Science and Technology

TL;DR: Fomitopsis carnea shows excellent sorption potential for all the dyes studied, and decreases with decrease in pH, which mainly focuses on the effect of various sorption kinetic parameters for the uptake of ORBG.

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123 citations

Journal Article•DOI•

Removal of chrome dye from aqueous solutions by fly ash

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G.S. Gupta¹, G. Prasad¹, K. K. Panday¹, V. N. Singh¹•Institutions (1)

Banaras Hindu University¹

01 Jan 1988-Water Air and Soil Pollution

TL;DR: In this article, the ability of fly ash to remove Omega Chrome Red ME (a chrome dye, mostly used in textile industries) from water has been studied, and it has been found that low adsorbate concentration, small particle size of adsorbent, low temperature, and acidic pH of the medium favor the removal of chrome dye from aqueous solutions.

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Abstract: The ability of fly ash to remove Omega Chrome Red ME (a chrome dye, mostly used in textile industries) from water has been studied. It has been found that low adsorbate concentration, small particle size of adsorbent, low temperature, and acidic pH of the medium favor the removal of chrome dye from aqueous solutions. The dynamics of adsorbate transport from bulk to the solid phase has been studied at different temperatures in light of the adsorption of dye on the outer surface as well as diffusion within the pores of fly ash. The applicability of Langmuir isotherm suggests the formation of monolayer coverage of dye molecules on the outer interface of adsorbent. The thermodynamics of chrome dye-fly ash system indicates spontaneous and exothermic nature of the process. The pronounced removal of chrome dye in the acidic range may be due to the association of dye anions with the positively charged surface of the adsorbent.

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123 citations

Journal Article•DOI•

Removal of arsenite and arsenate ions from aqueous solution by basic yttrium carbonate

[...]

S. A. Wasay, Md. Jelas Haron, Akira Uchiumi, Shuzo Tokunaga

01 May 1996-Water Research

TL;DR: In this paper, a new method was developed to remove arsenite and arsenate ions from aquatic systems by using basic yttrium carbonate (BYC). Various parameters such as pH, anion concentration and reaction time were studied to establish optimum conditions.

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120 citations

"Pseudo-second order model for sorpt..." refers background in this paper

...[75] 1st order Basic yttrium carbonate As(III) and As(V) 2nd order Ho et al....
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Journal Article•DOI•

Agricultural solid wastes for the removal of heavy metals: Adsorption of Cu(II) by coirpith carbon

[...]

Chinnaiya Namasivayam¹, Krishna Kadirvelu¹•Institutions (1)

Bharathiar University¹

01 Jan 1997-Chemosphere

TL;DR: In this paper, aqueous solution on carbonized coirpith was used to study the adsorption of copper(II) from carbon dioxide solutions under varying conditions of agitation time, metal ion concentration, adsorbent dose, and pH.

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119 citations

"Pseudo-second order model for sorpt..." refers background in this paper

...Taylor et al. [33] reported that zinc sorption kinetics by 12 Alabama soils was best described by the Elovich equa- Table 1 Comparison of mechanisms of sorption from the literature Solute ModelSorbent Reference Bhattacharya ands1st orderCd(II)Giridih coal and Coconut shell Venkobachar [2] Cr(VI) 1st orderFly ash/Wollastonite Panday et al. [42] Panday et al. [43]1st orderFly ash Cu(II) 2nd order Gosset et al. [12]Peat Cu(II), Cd(II), Ni(II) and Zn(II) Dzombak and Morel2nd orderHydrous ferric oxide Cd(II) [20] Victoria Blue 1st orderFly ash Khare et al. [34] Ho and McKay [44]2nd orderPeat Pb(II) 1st order Singh et al. [35]Wollastonite Fe(II) Gupta et al. [45]s1st orderFly ash OCRME 1st order Gupta et al. [45]1:1 Fly ash and coal OCRME 1st order Chaturvedi et al. [46]Fly ash Floride CN− 2nd orderPeat Cancela et al. [47] Sharma et al. [7]Ni(II)Wollastonite 1st order Sharma et al. [8]1st orderChina clay Ni(II) Cr(VI) s1st orderGroundnut husk carbon Periasamy et al. [48] Namasivayam and1st orderBanana pith Acid violet Kanchana [49] Cd(II) *1st orderBeech leaves Salim et al. [27] s1st order Rao et al. [50]Coconut shell carbons Cr(VI) Namasivayam and Ya-1st orderBiogas residual slurry Congo Red muna [51] 1st order Namasivayam and Ya-Rhodamine-BBiogas residual slurry muna [52] 1st order Yamuna and Namasi-Biogas residual slurry Acid Brilliant Blue vayam [53] 1st order Namasivayam and Peri-Peanut hull carbon Hg(II) asamy [54] Orhan and Büyükgün-Cr(VI), Cd(II), Al(III)Waste tea, Turkish coffee, Exhausted coffee, s1st order gör [55]Nut shell and Walnut shell 2nd order Sharma and ForsterCr(VI)Peat [13] m1st order Sarkar and ChattorajSilica Lysozyme. b-Lactoglobulin and Hemoglobin [23] Namasivayam and Ran-1st orderCr(VI)Fe(III)/Cr(III) hydroxide ganathan [56] 1st order Namasivayam et al. [57]Fe(III)/Cr(III) hydroxide Paraquat 1st order Singh and Rawat [38]Fly ash and Impregnated fly ash Phenol, o-Cresol, m-Cresol, p-Cresol, o-Nitrophenol, m-Nitrophenol and p-Nitrophenol Cr(VI) 1st orderBi2O3 Bhutani and Kumari [39] 1st orderCd(II)Peanut hull carbon Periasamy and Namasivayam [58] 2nd order Sharma and ForsterLeaf mould Cr(VI) [14] 0.7 order Salim et al. [28]Cypress leaves Pb(II) 2nd order Ho et al. [16]Peat Cu(II) Periasamy and Namasi-1st orderPeanut hull carbon Pb(II) vayam [59] Ni(II) 1st orderPeanut hull carbon Periasamy and Namasivayam [60] Ni(II) Ho et al. [17]Peat 2nd order Namasivayam and Ran-1st orderFe(III)/Cr(III) hydroxide Cd(II) ganathan [61] Merthylene Blue 1st order Low et al. [10]Water hyacinth roots Cr(III) and Cr(VI) 1st order Lee et al. [62]Moss and Copper-coated moss 2nd order Fernadez et al. [63]Algae Lauryl benzyl sulphonate Biogas residual slurry Namasivayam and Ya-1st orderDirect red 12 B muna [64] Cr(VI) 1st order Namasivayam and Ya-Biogas residual slurry muna [65] Table 1 (Continued) ReferenceModelSorbent Solute Namasivayam and Ya-1st orderPb(II)Biogas residual slurry muna [66] CN− s1st order van Deventer and vanActivated carbon der Merwe [67] 1st orderCd(II)Hydrous ceric oxide Mishra and Singh [68] Hg(II) 1st order Mishra et al. [69]Hydrous zirconium oxide Pb(II) 1st orderKaolinitic clay Orumwense [70] 1st order Ramelow et al. [29]Cu(II) and Pb(II)Immobilized bimomass Singh et al. [71]1st orderFeldspar As(V) Singh et al. [71]1st orderHaematite As(V) Cr(VI) s1st orderFly ash Dasmahapatra et al. [72] Hg(II) m1st orderKaolinite Singh et al. [21] Peanut hull carbon Periasamy and Namasi-1st orderCu(II) vayam [73] F, P and As(V) 1st order Wasay et al. [74]Lanthanum-impregnated silica gel Wasay et al. [75]1st orderBasic yttrium carbonate As(III) and As(V) 2nd order Ho et al. [18]Peat Cu(II) and Ni(II) 2nd order Sharma and Forster [15]Acitvated carbon Cr(VI) Pb(II) 1st orderBiopolymers Seki and Suzuki [11] Mittal and Gupta [76]Orlamar Red BGFomitopsis Crania 1st order Bis Acid A2 1st orderKaolinite Atun and Sismanogly [24] m1st orderBisphenol A Pesticide phosphamidon m,s1st and 2ndAntimony(V) phosphate cation exchanger Varshney et al. [22] order Congo Red, Procion Orange and Rhodamine-B 1st orderOrange peel Namasivayam et al. [77] Acid Blue 29 and Reactive Blue 2 1st orderChrome sludge Lee et al. [78] Fe(III)/Cr(III) hydroxide Namasivayam and1st orderHg(II) Senthilkumar [79] Cu(II) 1st orderCoirpith carbon Namasivayam and Kadirvelu [80] Congo red 1st orderRed mud Namasivayam and Arasi [81] Worrall et al.[30]+1st orderSoil Isoproturon *1st order Locke et al. [31]Soil Acifluorfen Hg(II) 2nd orderSoil Yin et al. [82] 2nd order Kim et al. [83]Acid blue 193, Acid blue 40, Direct yellow 44,Chitin Direct blue 78 Banerjee et al. [84]s1st orderFly ash o-xylene s 1st Order: a first order rate expression based on solution concentration. m 1st Order: multiple first order kinetics....
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...[78] Fe(III)/Cr(III) hydroxide Namasivayam and 1st order Hg(II) Senthilkumar [79] Cu(II) 1st order Coirpith carbon Namasivayam and Kadirvelu [80] Congo red 1st order Red mud Namasivayam and Arasi [81] Worrall et al....
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Journal Article•DOI•

Adsorption kinetics of o-xylene by flyash

[...]

Kashi Banerjee, Paul N. Cheremisinoff¹, Su Ling Cheng¹•Institutions (1)

New Jersey Institute of Technology¹

01 Feb 1997-Water Research

TL;DR: In this paper, a detailed study of the kinetics of sorption of o-xylene on flyash was conducted in a controlled batch system, where the effects of solute concentration, particle size of the adsorbent, and temperature on the adsorption rate were investigated.

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107 citations