Abstract
This study investigates the potential use of activated carbon, prepared from pomegranate peels, as an adsorbent activated using H3PO4 and its ability to remove crystal violet from an aqueous solution. The adsorbent was characterized by the Brunauer–Emmett–Teller method (specific surface area: 51.0674 m2 g−1) and point of zero charge (pHPZC = 5.2). However, some examined factors were found to have significant impacts on the adsorption capacity of activated carbon derived from pomegranate peels such as the initial dye concentration (5–15 mg L−1), solution pH (2–14), adsorbent dose (1–8 g L−1), agitation speed (100–700 r/min), and temperature (298–338 K). The best adsorption capacity was found at pH 11 with an adsorbent dose of 1 g L−1, an agitation speed at 400 r/min, and a contact time of 45 min. The adsorption mechanism of crystal violet onto activated carbon derived from pomegranate peels was studied using the pseudo-first-order, pseudo-second-order, Elovich, and Webber–Morris diffusion models. The adsorption kinetics were found to rather follow a pseudo-second order kinetic model with a determination coefficient ( R2) of 0.999. The equilibrium adsorption data for crystal violet adsorbed onto activated carbon derived from pomegranate peels were analyzed by the Langmuir, Freundlich, Elovich, and Temkin models. The results indicate that the Langmuir model provides the best correlation with qmax capacities of 23.26 and 76.92 mg g−1 at 27°C and 32°C, respectively. The adsorption isotherms at different temperatures have been used for the determination of thermodynamic parameters like the free energy, enthalpy, and entropy to predict the nature of adsorption process. The negative values Δ G0 (−5.221 to −1.571 kJ mol−1) and Δ H0 (−86.141 kJ mol−1) indicate that the overall adsorption is spontaneous and exothermic with a physisorption process. The adsorbent derived from pomegranate peels was found to be very effective and suitable for the removal of reactive dyes from aqueous solutions, due to its availability, low-cost preparation, and good adsorption capacity.
Highlights
There are thousands of various chemicals and toxic substances in effluents discharged from industries
This study exhibits the successful preparation of activated carbon derived from pomegranate peels (ACPP) and its efficiency as an adsorbent for removal of cationic dye from aqueous solution
The adsorption capacity of crystal violet (CV) increased with increasing initial dye concentration, time, and pH, the latter was optimized at ~11
Summary
There are thousands of various chemicals and toxic substances in effluents discharged from industries. The ability of activated carbons to adsorb pollutants from aqueous solutions depends on two major factors: experimental conditions of the activation processes and the nature of organic material utilized for the preparation of activated carbon.[19,20,21,22] In this study, it was necessary to understand how the dye crystal violet (CV) interacts with the adsorbent and to describe the processes involved for the discoloration For this purpose, we carried out a parametric study of the adsorption, by studying the effect of significant parameters on the decolorizing power like the contact time, adsorbent dose, the pH, stirring speed, and temperature. The performances of activated carbon derived from pomegranate peels (ACPP) on dye adsorptions were evaluated using the equilibrium, kinetic, and thermodynamic studies
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