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Mild hydrothermally treated brewer's spent grain for efficient removal of uranyl and rare earth metal ions.

Yi SuWendelin BöhmMarco WenzelSilvia PaaschMargret AckerThomas DoertEike BrunnerThomas HenleJan J Weigand
Published in: RSC advances (2020)
The increasing concerns on uranium and rare earth metal ion pollution in the environment require sustainable strategies to remove them from wastewater. The present study reports an eco-friendly approach to convert a kind of protein-rich biomass, brewer's spent grain (BSG), into effective biosorbents for uranyl and rare earth metal ions. The employed method reduces the energy consumption by performing the hydrothermal treatment at a significantly lower temperature (150 °C) than conventional hydrothermal carbonization. In addition, with the aid of the Maillard reaction between carbohydrates and proteins forming melanoidins, further activation processes are not required. Treatment at 150 °C for 16 h results in an altered biosorbent (ABSG) with increased content of carboxyl groups (1.46 mmol g -1 ) and a maximum adsorption capacity for La 3+ , Eu 3+ , Yb 3+ (pH = 5.7) and UO 2 2+ (pH = 4.7) of 38, 68, 46 and 221 mg g -1 , respectively. Various characterization methods such as FT-IR, 13 C CP/MAS NMR, SEM-EDX and STA-GC-MS analysis were performed to characterize the obtained material and to disclose the adsorption mechanisms. Aside from oxygen-containing functional groups, nitrogen-containing functional groups also contribute to the adsorption. These results strongly indicate that mild hydrothermal treatment of BSG could be applied as a greener, low-cost method to produce effective adsorbents for uranyl and rare earth metal ion removal.
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