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Performance and modeling of Ni(II) adsorption from low concentrated wastewater on carbon microspheres prepared from tangerine peels by FeCl3-assisted hydrothermal carbonization

José L. Diaz de Tuesta, Fernanda F. Roman, Vitor C. Marques, Adriano S. Silva, Ana P. Ferreira da Silva, Tatiane Cristina Del Bosco, Assem Shinibekova, Sadenova Aknur, Marzhan S. Kalmakhanova, Bakytgul Massalimova, Margarida Arrobas, Adrián M.T. Silva, Hélder Gomes

2022Journal of environmental chemical engineering39 citationsDOIOpen Access PDF

Abstract

The presence of heavy metals in the environment as a consequence of human activity is an issue that has caught the attention of researchers to find wastewater treatment solutions, such as adsorption. In this work, hydrochars and activated carbon microspheres are prepared from tangerine peels as carbon precursor and FeCl3 as activating and structure-directing agent in the hydrothermal carbonization, allowing to obtain hydrochar microspheres ranging from 50 to 3615 nm. In addition, a pyrochar was prepared by pyrolysis of the same precursor. The activated carbon shows the highest surface area (SBET up to 287 m2 g–1), but the basicity of the pyrochar (1.83 mmol g−1, SBET = 104 m2 g–1) was determinant in the adsorption of Ni, being considered the carbon-based material with the highest uptake capacity of Ni. Isotherm and kinetic adsorption of Ni on the most representative activated carbon microsphere, pyrochar and hydrochar microsphere are assessed by 10 and 7 models, respectively.

Topics & Concepts

Hydrothermal carbonizationAdsorptionCarbonizationMicrosphereHydrothermal circulationCarbon fibersPyrolysisChemistryActivated carbonWastewaterChemical engineeringNuclear chemistrySpecific surface areaMaterials scienceOrganic chemistryCatalysisWaste managementComposite materialEngineeringComposite numberAdsorption and biosorption for pollutant removalCarbon and Quantum Dots ApplicationsNanomaterials for catalytic reactions