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Abstract
In this study, PROP adsorption was investigated using activated carbon derived from Bactris Guineensis residues and physical statistical modeling. The characterization results indicate high specific surface areas (624.72 and 1125.43 m2 g−1) and pore diameters (2.703 and 2.321 nm) for the peel and stone-activated carbon, respectively. Adsorption equilibrium was investigated at different temperatures (298 to 328 K), and it was found that the adsorption capacity increased with temperature, reaching maximum values of 168.7 and 112.94 mg g−1 for the peel and stone-activated carbon, respectively. The application of physical statistical modeling indicates that a monolayer model with one energy site is adequate for describing both systems, with an R2 above 0.986 and a low BIC of 20.021. According to the steric parameters, the density of molecules per site tends to increase by 116.9% for the stone and 61.6% for the peel. In addition, the model indicates that the number of molecules decreases with increasing temperature from 1.36 to 0.81 and from 1.03 to 0.82. These results indicate that temperature controls the number of receptor sites and the orientation in which propranolol is adsorbed at the surface. The adsorption energies were similar for both systems (approximately 10 kJ mol−1), which indicates that the adsorption occurred due to physical interactions. Finally, the application of thermodynamic potential functions indicates that the maximum entropy is reached at concentrations of half-saturation (Ce 3.85 and 4.6 mg L−1), which corresponds to 1.60 × 10–18 and 1.86 × 10–18 kJ mol−1 K−1 for the stone and peel, respectively. After this point, the number of available sites tends to decrease, which indicates the stabilization of the system. The Gibbs energy tended to decrease with increasing concentration at equilibrium, reaching minimum values of − 1.73 × 10–19 and − 1.99 × 10–19 kJ mol−1, respectively. Overall, the results obtained here further elucidate how the adsorption of propranolol occurs for different activated carbons from the same source.
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1 Universidad de la Costa, CUC, Department of Civil and Environmental, Barranquilla, Colombia (GRID:grid.441867.8) (ISNI:0000 0004 0486 085X)
2 Universidad de la Costa, CUC, Department of Civil and Environmental, Barranquilla, Colombia (GRID:grid.441867.8) (ISNI:0000 0004 0486 085X); Federal University of Santa Maria, Department of Civil and Environmental, Santa Maria, Brazil (GRID:grid.411239.c) (ISNI:0000 0001 2284 6531)
3 Federal University of Santa Maria, Department of Civil and Environmental, Santa Maria, Brazil (GRID:grid.411239.c) (ISNI:0000 0001 2284 6531)
4 Federal University of Alagoas, Process Laboratory, Technology Center, Maceió, Brazil (GRID:grid.411179.b) (ISNI:0000 0001 2154 120X)
5 Autonomous University of Baja California, Faculty of Chemical Sciences and Engineering, Tijuana, Mexico (GRID:grid.412852.8) (ISNI:0000 0001 2192 0509)
6 Jazan University, Civil Engineering Department, College of Engineering, Jazan, Saudi Arabia (GRID:grid.411831.e) (ISNI:0000 0004 0398 1027)
7 King Khalid University, Civil Engineering Department, College of Engineering, Abha, Kingdom of Saudi Arabia (GRID:grid.412144.6) (ISNI:0000 0004 1790 7100)
8 Aligarh Muslim University, Department of Civil Engineering, Zakir Hussain College of Engg and Technology, Aligarh, India (GRID:grid.411340.3) (ISNI:0000 0004 1937 0765)