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Insights into isotherms, kinetics, and thermodynamics of adsorption of acid blue 113 from an aqueous solution of nutraceutical industrial fennel seed spent

Research studies have been carried out to accentuate Fennel Seed Spent, a by-product of the Nutraceutical Industry, as an inexpensive, recyclable and operational biosorbent for bioremediation of Acid Blue 113 (AB113) in simulated water-dye samples and textile industrial effluent (TIE). The physical...

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Bibliographic Details
Main Authors: Taqui S.N., Syed A.A., Mubarak N.M., Farade R.A., Khan M.A.M., Kalam M.A., Dehghani M.H., Soudagar M.E.M., Rather R.A., Shamshuddin S.Z.M., Karri R.R.
Other Authors: 57194204137
Format: Article
Published: Nature Research 2024
Subjects:
acid
adsorbent
chemical compound
dye
industrial effluent
nutraceutical
water
adsorption
aqueous solution
article
bioremediation
chemical structure
controlled study
diffusion
electron microscopy
experimental design
fennel
Foeniculum
infrared spectroscopy
isotherm
kinetics
nonhuman
pH
simulation
temperature
textile
thermodynamics
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Summary:Research studies have been carried out to accentuate Fennel Seed Spent, a by-product of the Nutraceutical Industry, as an inexpensive, recyclable and operational biosorbent for bioremediation of Acid Blue 113 (AB113) in simulated water-dye samples and textile industrial effluent (TIE). The physical process of adhesion of AB113 on the surface of the biosorbent depends on various parameters, such as the initial amount of the dye, amount and expanse of the biosorbent particles, pH of the solution and temperature of the medium. The data obtained was analyzed using three two-parameter and five three-parameter adsorption isotherm models to glean the adsorbent affinities and interaction mechanism of the adsorbate molecules and adsorbent surface. The adsorption feature study is conducted employing models of Weber-Morris, pseudo 1st and 2nd order, diffusion film model, Dumwald-Wagner and Avrami model. The study through 2nd order pseudo and Avrami models produced complementary results for the authentication of experimental data. The thermodynamic features, ?G 0, ?H 0, and ?S 0 of the adsorption process are acclaimed to be almost spontaneous, physical in nature and endothermic in their manifestation. Surface characterization was carried out using Scanner Electron Microscopy, and identification and determination of chemical species and molecular structure was performed using Infrared Spectroscopy (IR). Maximum adsorption evaluated using statistical optimization with different combinations of five independent variables to study the individual as well as combined effects by Fractional Factorial Experimental Design (FFED) was 236.18�mg�g?1 under optimized conditions

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