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Structured LDH/Bentonite Composites for Chromium Removal and Recovery from Aqueous Solutions.

Mitra De GeestBart MichielsenRadu-G CiocarlanPegie CoolElena M Seftel
Published in: Molecules (Basel, Switzerland) (2023)
This study focuses on chromium removal through adsorption and ion exchange using structured calcined layered double hydroxide (LDH) (MgAl)-bentonite composites. Firstly, the powders were structured into granulates to study the effect on Cr sorption kinetics to circumvent the limitations of working with powders in real-life applications. Secondly, the regeneration of the structured composites was optimized to enable multi-cycling operation, which is the key for their applicability beyond laboratory scale. Firstly, the LDH/bentonite ratio was optimized to obtain the best performance for the removal of Cr 3+ and Cr 6+ species. In powder form, the calcined adsorbent containing 80 wt% LDH and 20 wt% bentonite performed best with an adsorption capacity of 48 and 40 mg/g for Cr 3+ and Cr 6+ , respectively. The desorption was optimized by studying the effect of the NaCl concentration and pH, with a 2 M NaCl solution without pH modification being optimal. The kinetic data of the adsorption and desorption steps were modelled, revealing a pseudo-second order model for both. This was also demonstrated using XRD and Raman measurements after the Cr 3+ and Cr 6+ adsorption tests, indicating successful uptake and revealing the adsorption mechanism. Finally, five consecutive adsorption-desorption cycles were performed, each showing nearly 100% adsorption and desorption.
Keyphrases
  • aqueous solution
  • machine learning
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  • risk assessment
  • mass spectrometry
  • high intensity
  • big data
  • high resolution
  • solid state