Kinetic and isotherm modeling for acid blue 113 dye adsorption onto low-cost nutraceutical industrial fenugreek seed spent

The present study reports about the use of fenugreek seed spent as a new and efficient biosorbent for the removal of acid blue 113 dye from aqueous media and textile industrial effluent. The spent is a low-cost by-product of nutraceutical industry. The effects of various process parameters of adsorp...

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Bibliographic Details
Published in:Applied water science 2020-02, Vol.10 (2), p.1-16, Article 58
Main Authors: Dhaif-Allah, Mohammed A. H., Taqui, Syed Noeman, Syed, Usman Taqui, Syed, Akheel Ahmed
Format: Article
Language:English
Subjects:
Acid blue 113
Adsorbents
Adsorption
Adsorption isotherm
Analytical methods
ANOVA
Aquatic Pollution
Aqueous solutions
Comparative Law
Design of experiments
Dyes
Earth and Environmental Science
Earth Sciences
Electron microscopy
Enthalpy
Entropy
Experimental design
Fenugreek
Fourier analysis
Fourier transforms
Free energy
Functional foods & nutraceuticals
Gibbs free energy
Hydrogeology
Industrial and Production Engineering
Industrial effluents
Industrial wastewater
Infrared spectroscopy
International & Foreign Law
Isotherms
Kinetics
Low cost
Mathematical models
Molecular diffusion
Nanotechnology
Nutraceutical industrial fenugreek seed spent
Original Article
Private International Law
Process parameters
Scaling
Scanning electron microscopy
Trigonella foenum-graecum
Variance analysis
Waste Water Technology
Water Industry/Water Technologies
Water Management
Water Pollution Control
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Summary:The present study reports about the use of fenugreek seed spent as a new and efficient biosorbent for the removal of acid blue 113 dye from aqueous media and textile industrial effluent. The spent is a low-cost by-product of nutraceutical industry. The effects of various process parameters of adsorption, such as pH, initial dye concentration, adsorbent dose, adsorbent particle size, contact time and temperature onto nutraceutical industrial fenugreek seed spent (NIFGS) have been studied. Four numbers of two-parameter and six numbers of three-parameter isotherm models were used in the analysis of adsorption equilibrium data. Kinetic studies data conformed to pseudo-second-order model. Molecular diffusion studies were carried out using Weber–Morris, Dumwald–Wagner and film diffusion models. Change in enthalpy (Δ H °), entropy change (Δ S °) and Gibbs free energy change (Δ G °) of adsorption system indicated that the process is physisorption. Scanning electron microscopy, Fourier transform infrared spectroscopy and point of zero charge were used in characterizing the adsorbent. Fractional factorial experimental design and analysis of variance along with statistically developed model for adsorption helped to predict for a maximum adsorption of 661.5 mg g −1 using NIFGS. Application of NIFGS to textile industrial effluent and scaling up of the experimental process by three orders gave encouraging results.
ISSN:2190-5487
2190-5495
DOI:10.1007/s13201-020-1141-3