Jinyu Feng scite author profile

A new adsorbent/catalyst Co-Fe/sepiolite was prepared and tested for its potential application in dye wastewater. CoFe/sepiolite acted as an adsorbent at adsorption stage, then was used as a catalyst, which accelerated regeneration speed and increased the regeneration rate during regeneration. The efficiency of this adsorbent/catalyst was investigated using crystal violet (CV) as a model pollutant. Through the sorption capacity of the Co-Fe/sepiolite, the dye was removed from wastewater, the adsorbent was regenerated subsequently by high temperature gas flow catalytic oxidation, accompanied by the decomposition of CV. CV was oxidized into CO 2 , CO, NO, and CH compounds during regeneration, the formation of these compounds as final products made it possible to regenerate the Co-Fe/sepiolite by high temperature gas flow. The effect of heat treatment on Co-Fe/sepiolite structure was studied. In addition, the effects of temperature, space velocity, and time on regeneration rate were investigated. The results suggested high temperature gas flow regeneration as an efficient regeneration process. The Co-Fe/sepiolite can be potentially applied for combined dye adsorption and degradation processes.

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Synthesis of Ce–Ni/sepiolite with excellent adsorption and catalytic oxidation performance toward dyes

Chen

Wang

Feng

et al. 2023

New J. Chem.

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Jinyu Feng

An investigation on the effect of surface roughness of crystallization plate on protein crystallization

Removal of dye from aqueous solution via an adsorption-high temperature gas flow regeneration method on Co-Fe/sepiolite

Synthesis of Ce–Ni/sepiolite with excellent adsorption and catalytic oxidation performance toward dyes

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