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Year 2021, Volume: 4 Issue: 1, 13 - 26, 31.05.2021

Abstract

References

  • Balarak D, Mahdavi Y, KordMostafapour F, Joghatayi A. Batch Removal of Acid Blue 292dye by Biosorption onto Lemna minor: Equilibrium and Kinetic Studies. Journal of Human, Environment and Health Promotion. 2016;2(1):9-19.
  • Igwegbe CA, Mohmmadi L, Ahmadi S, Rahdar A, Khadkhodaiy D, Dehghani R, et al. Modeling of adsorption of Methylene blue dye on Ho-CaWO4 nanoparticles using Response surface methodology (RSM) and Artificial neural network (ANN) techniques. MethodsX. 2019;6:1779-97.
  • Ahmadi S, Mohammadi L, Rahdar A, Rahdar S, Dehghani R, Igwegbe CA, et al. Acid Dye Removal from Aqueous Solution by Using Neodymium (III) Oxide Nanoadsorbents. Nanomaterials. 2020;10(3):556.
  • Balarak D, Jaafari J, Hassani G, Mahdavi Y, Tyagi I, Agarwal S, et al. The use of low-cost adsorbent (Canola residues) for the adsorption of methylene blue from aqueous solution: Isotherm, kinetic and thermodynamic studies. Colloids and Interface Science Communications. 2015;7:16-9.
  • Ighalo JO, Adeniyi AG, Eletta OAA, Arowoyele LT. Competitive Adsorption of Pb(II), Cu(II), Fe(II) and Zn(II) from Aqueous Media Using Biochar from Oil Palm (Elaeis guineensis) Fibers: A Kinetic and Equilibrium Study. Indian Chemical Engineer. 2020:1-11.
  • Igwegbe CA, Onukwuli OD, Ighalo JO, Okoye PU. Adsorption of Cationic Dyes on Dacryodes Edulis Seeds Activated Carbon Modified Using Phosphoric Acid and Sodium Chloride. Environmental Processes. 2020;7(4):1151-71.
  • Langmuir I. The adsorption of gases on plane surfaces of glass, mica and platinum. Journal of the American Chemical society. 1918;40(9):1361-403.
  • Freundlich H. Over the adsorption in solution. J Phys Chem. 1906;57(385471):1100-7.
  • Temkin M, Pyzhev V. Recent modifications to Langmuir isotherms. Acta Physiochim URSS. 1940;12:217-22.
  • Dubinin MM, Radushkevich LV. Equation of the characteristic curve of activated charcoal. Proceedings of the Academy Sciences Physical Chemistry Section, USSR. 1947;55:331-3.
  • Lagergren S, Svenska BK. On the theory of so-called adsorption of dissolved substances. The Royal Swedish Academy of Sciences Documents Band. 1898;24:1-13.
  • Ho YS, McKay G. Pseudo-second order model for sorption processes. Process Biochemistry. 1999;34:451–65.
  • Weber W, Morris J. Kinetics of adsorption on carbon from solution. J Sanit Eng Div Am Soc Civ Eng 1963;89:31-60.
  • Inyinbor A, Adekola F, Olatunji GA. Kinetics, isotherms and thermodynamic modeling of liquid phase adsorption of Rhodamine B dye onto Raphia hookerie fruit epicarp. Water Resources and Industry. 2016;15:14-27.
  • BALARAK D, CHANDRIKA K, IGWEGBE CA, AHMADI S, UMEMBAMALU CJ. BIOSORPTION OF PHENOL USING MODIFIED BARLEY HUSK: STUDIES ON EQUILIBRIUM ISOTHERM, KINETICS, AND THERMODYNAMICS OF INTERACTIONS. Sigma: Journal of Engineering & Natural Sciences/Mühendislik ve Fen Bilimleri Dergisi. 2020;38(3).
  • Eletta AAO, Tijani IO, Ighalo JO. Adsorption of Pb(II) and Phenol from Wastewater Using Silver Nitrate Modified Activated Carbon from Groundnut (Arachis hypogaea L.) Shells. West Indian Journal of Engineering. 2020;43(1):26-35.

Ultimate Eradication of Acid Orange 7 from Contaminated Liquid via Synthesised Mesoporous Goethite

Year 2021, Volume: 4 Issue: 1, 13 - 26, 31.05.2021

Abstract

This paper carried out the study on the adsorption of Acid Orange 7 (ACO7) from aqueous solutions by mesoporous goethite (MPG). The adsorbent was characterized by XRD, FE-SEM, BJH desorption and BET. The effect of process variables such as MPG dosage, reaction time, concentration of ACO7, pH, and reaction temperature on the ACO7 uptake capacity were systematically investigated in an attempt to illustrate adsorption performance of MPG. Optimal conditions for the adsorption process was 1 g/L adsorbent dosage, temperature of 328 K, pH of 3, 75 minutes’ contact time and 100 mg/L ACO7 concentration. The adsorption kinetic was best fit to the intra-particle diffusion model while the equilibrium isotherm was best fit to the Langmuir model, suggesting that homogeneous uptake was the principal mechanism adopted in the process of ACO7 adsorption. The study revealed that the pseudo-second order model and the Langmuir isotherm model were the best-fit kinetics and isotherm models to describe the process. The uptake of ACO7 by MPG was endothermic and spontaneous. The major mechanisms for ACO7 uptake onto MPG were pore diffusion, hydrogen bonds, π – π stacking interactions and hydrophobic interactions. MPG has excellent reusability potential with only an 8% drop in performance after 8 cycles. These results indicate that MPG has wide application prospects in removing ACO7 from wastewater.

References

  • Balarak D, Mahdavi Y, KordMostafapour F, Joghatayi A. Batch Removal of Acid Blue 292dye by Biosorption onto Lemna minor: Equilibrium and Kinetic Studies. Journal of Human, Environment and Health Promotion. 2016;2(1):9-19.
  • Igwegbe CA, Mohmmadi L, Ahmadi S, Rahdar A, Khadkhodaiy D, Dehghani R, et al. Modeling of adsorption of Methylene blue dye on Ho-CaWO4 nanoparticles using Response surface methodology (RSM) and Artificial neural network (ANN) techniques. MethodsX. 2019;6:1779-97.
  • Ahmadi S, Mohammadi L, Rahdar A, Rahdar S, Dehghani R, Igwegbe CA, et al. Acid Dye Removal from Aqueous Solution by Using Neodymium (III) Oxide Nanoadsorbents. Nanomaterials. 2020;10(3):556.
  • Balarak D, Jaafari J, Hassani G, Mahdavi Y, Tyagi I, Agarwal S, et al. The use of low-cost adsorbent (Canola residues) for the adsorption of methylene blue from aqueous solution: Isotherm, kinetic and thermodynamic studies. Colloids and Interface Science Communications. 2015;7:16-9.
  • Ighalo JO, Adeniyi AG, Eletta OAA, Arowoyele LT. Competitive Adsorption of Pb(II), Cu(II), Fe(II) and Zn(II) from Aqueous Media Using Biochar from Oil Palm (Elaeis guineensis) Fibers: A Kinetic and Equilibrium Study. Indian Chemical Engineer. 2020:1-11.
  • Igwegbe CA, Onukwuli OD, Ighalo JO, Okoye PU. Adsorption of Cationic Dyes on Dacryodes Edulis Seeds Activated Carbon Modified Using Phosphoric Acid and Sodium Chloride. Environmental Processes. 2020;7(4):1151-71.
  • Langmuir I. The adsorption of gases on plane surfaces of glass, mica and platinum. Journal of the American Chemical society. 1918;40(9):1361-403.
  • Freundlich H. Over the adsorption in solution. J Phys Chem. 1906;57(385471):1100-7.
  • Temkin M, Pyzhev V. Recent modifications to Langmuir isotherms. Acta Physiochim URSS. 1940;12:217-22.
  • Dubinin MM, Radushkevich LV. Equation of the characteristic curve of activated charcoal. Proceedings of the Academy Sciences Physical Chemistry Section, USSR. 1947;55:331-3.
  • Lagergren S, Svenska BK. On the theory of so-called adsorption of dissolved substances. The Royal Swedish Academy of Sciences Documents Band. 1898;24:1-13.
  • Ho YS, McKay G. Pseudo-second order model for sorption processes. Process Biochemistry. 1999;34:451–65.
  • Weber W, Morris J. Kinetics of adsorption on carbon from solution. J Sanit Eng Div Am Soc Civ Eng 1963;89:31-60.
  • Inyinbor A, Adekola F, Olatunji GA. Kinetics, isotherms and thermodynamic modeling of liquid phase adsorption of Rhodamine B dye onto Raphia hookerie fruit epicarp. Water Resources and Industry. 2016;15:14-27.
  • BALARAK D, CHANDRIKA K, IGWEGBE CA, AHMADI S, UMEMBAMALU CJ. BIOSORPTION OF PHENOL USING MODIFIED BARLEY HUSK: STUDIES ON EQUILIBRIUM ISOTHERM, KINETICS, AND THERMODYNAMICS OF INTERACTIONS. Sigma: Journal of Engineering & Natural Sciences/Mühendislik ve Fen Bilimleri Dergisi. 2020;38(3).
  • Eletta AAO, Tijani IO, Ighalo JO. Adsorption of Pb(II) and Phenol from Wastewater Using Silver Nitrate Modified Activated Carbon from Groundnut (Arachis hypogaea L.) Shells. West Indian Journal of Engineering. 2020;43(1):26-35.
There are 16 citations in total.

Details

Primary Language English
Subjects Material Production Technologies
Journal Section Full-length articles
Authors

Davoud Balarak 0000-0003-3679-9726

Fatemeh Ganji This is me 0000-0001-6730-5587

Periakaruppan Rajiv This is me 0000-0002-5792-818X

Chinenye Igwegbe 0000-0002-5766-7047

Joshua Ighalo This is me 0000-0002-8709-100X

Publication Date May 31, 2021
Submission Date January 23, 2021
Acceptance Date March 1, 2021
Published in Issue Year 2021 Volume: 4 Issue: 1

Cite

APA Balarak, D., Ganji, F., Rajiv, P., Igwegbe, C., et al. (2021). Ultimate Eradication of Acid Orange 7 from Contaminated Liquid via Synthesised Mesoporous Goethite. Journal of the Turkish Chemical Society Section B: Chemical Engineering, 4(1), 13-26.

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J. Turk. Chem. Soc., Sect. B: Chem. Eng. (JOTCSB)