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Green synthesis of magnetic type Zeolites 4A as catalyst for the elimination of quinoline yellow by the Fenton process: Optimization and kinetic investigation

Roland Urselin Noumsi Foko, Cyrille Ghislain Fotsop, Donald Raoul Tchuifon Tchuifon, Charles Banenzoué, Anatole Guy Blaise Azébazé

2025Hybrid Advances22 citationsDOIOpen Access PDF

Abstract

This work describes the hydrothermal synthesis and characterization of zeolite 4A (Zeo-4A) and magnetite zeolite (Zeo-4A@Fe 3 O 4 ) from Cameroonian raw kaolin. The study also explores the efficiency of Zeo-4A@Fe 3 O 4 for the removal of quinoline yellow (E104) via Fenton process. XRD , FTIR, SEM, EDX , NMR-MAS and TGA-DSC characterizations show that Zeo-4A is crystalline with cubic morphology, while Zeo-4A@Fe 3 O 4 exhibits a bonding interaction between zeolite and Fe 3 O 4 nanoparticle leading to morphological structural changes. The degradation of quinoline yellow by heterogeneous Fenton process was carried out by varying several parameters, namely solution pH (3–7), H 2 O 2 concentration (0.5–1.5 mol/L), quinoline yellow concentration (50–100 mg/L), and catalyst mass (50–100 mg). The results of catalytic performance tests reveal that the degradation efficiency of synthetic Zeo-4A, Zeo-4A@Fe 3 O 4 and Fe 3 O 4 were 1.71 %, 93.60 % and 92.65 %, respectively, after 60 min. Confirmatory tests were carried out by response surface methodology based on the Box-Behnken design, and a degradation rate of 98.81 % was obtained under optimum conditions of pH 3.84, 50.14 mg/L, 100 mg, and 1.5 g/L; which is well in line with the model predictions. A significant quadratic regression model R 2 = 91.35 % and the adjusted coefficient of determination value (adjusted R 2 = 82.04 %) were observed using the analysis of the variance. The study of catalyst recovery and reusability shows that the catalysts remain stable with a degradation rate greater than 66 % after five cycles. The kinetics results show that the degradation of E104 follows first and second order kinetic models , influenced by pH and catalyst mass, with optimum efficiency at pH 3. The characterization results of the material after degradation show that it maintains its structural integrity after use.

Topics & Concepts

QuinolineCatalysisKinetic energyProcess (computing)ChemistryChemical engineeringOrganic chemistryComputer scienceEngineeringQuantum mechanicsPhysicsOperating systemDye analysis and toxicityNanomaterials for catalytic reactionsAdvanced oxidation water treatment
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