Multifaceted optimization of CO2/H2O activation on the surface properties of food waste biochar: An efficient green adsorbent for the removal of Pb(II) from water
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Abstract
In this study, an adsorbent (CHBC) with good adsorption performance for Pb(II) was successfully prepared by CO2/H2O activation of food waste biochar. Specifically, the specific surface area of CHBC reached 144 m2·g−1, which was 48 times higher than that of unactivated food waste biochar, and the adsorption of Pb(II) by CHBC was a spontaneous heat-absorption reaction, with a maximum Pb(II) adsorption capacity of 114.59 mg·g−1, which can be well described by the pseudo-second-order kinetic model and the Freundlich isothermal adsorption model. The adsorption process of Pb(II) on CHBC is dominated by chemisorption, and the adsorption mechanism includes the ion-exchange reaction of Pb(II) with Ca2+ on CHBC, the precipitation reactions with phosphate and SO32-, the complexation reactions with oxygen-containing functional groups such as –OH and C=O, the electrostatic attraction, and the Pb(II)-π interactions. The combination of these mechanisms results in an excellent adsorption capacity for Pb(II) for CHBC.
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Chemical engineering enables the transformation of natural resources and energy into useful products for society. It draws on and applies natural sciences, mathematics and economics, and has developed fundamental engineering science that underpins the discipline.
Chemical Engineering Science (CES) has been publishing papers on the fundamentals of chemical engineering since 1951. CES is the platform where the most significant advances in the discipline have ever since been published. Chemical Engineering Science has accompanied and sustained chemical engineering through its development into the vibrant and broad scientific discipline it is today.
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