Abstract
Herein we have explored the highly efficient and environmentally benign clay mineral, Fe(III)–montmorillonite [Fe(III)–Mt], for adsorption of methylene blue (MB) dye from aqueous solution under ambient conditions. The Fe(III)–Mt was interacted with MB dye solution at different pH, temperature and solid-to-liquid ratio. The concentration of MB dye removal was estimated from its optical density at λmax = 665 nm using UV–Vis spectrophotometer. The MB dye removal was rapid at basic pH and increases with temperature up to 40 °C. A complete reduction (100%) was occurred in about 7 min at pH 7 and 10 while at pH 3 in about 10 min. The time taken for complete reduction at 0, 30 and 40 °C are 10, 7 and 5 min respectively. The removal followed by adsorption of dye molecules on the spent clay mineral was evident from FESEM/EDX analysis. More importantly, Fe(III)–Mt could be separated and retrieved easily after the reaction by centrifugation from the degraded MB dye solution. The experimental results of MB dye removal from Fe(III)–Mt follows the pseudo first order kinetics. This study reveals that Fe(III)–Mt has the potential to be used as reductant/adsorbant to remove cationic pollutants effectively and rapidly from drinking water and large scale of industrial wastewater.
Highlights
The main difficulties associated with the treatment of textile wastewater are the removal of dye effluents which possess complex aromatic structures make them more stable and it is difficult to remove the effluents discharged into water reservoirs
It has been inferred that polyacrylamide grafted xanthan gum and its nanosilica composite (h-XG/SiO2) through a sol–gel method as adsorbents to remove both Methylene blue (MB) and methyl violet (MV) dyes from aqueous solution, the results showed 99.4% removal efficiency (Ghorai et al 2014)
X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR) and Field emission scanning electron microscope with energy dispersive X-ray analysis (FESEM/Energy dispersive X-ray (EDXA)) results confirmed the formation of Fe(III)–Mt
Summary
The main difficulties associated with the treatment of textile wastewater are the removal of dye effluents which possess complex aromatic structures make them more stable and it is difficult to remove the effluents discharged into water reservoirs. This is a heterocyclic aromatic chemical compound with the molecular formula C16H18N3SCl, while it appears as a solid, odorless and dark green powder that gives a blue colour when dissolved in water. It is used in wide variety of applications such as colouring paper, temporary hair colourant, dyeing cottons, wools and coating for paper stock (Yao et al 2010). It is used in cosmetics, food, leather, plastic, paper, Vinuth et al Fash Text (2017) 4:8
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