F. Haghseresht scite author profile

Carbonaceous adsorbents were prepared by heat treatment of coal reject at 600 °C, after chemical treatment in HNO 3 , H 2 SO 4 , and NaOH at 25 and 75 °C. Pore structure characterization and the phenol adsorption capacities of the adsorbents showed that nitric acid pretreatment significantly enhanced the surface properties, consequently the adsorption capacities of the adsorbents. A number of samples were subsequently prepared by carbonizing coal reject at 600 °C, after pretreatment in HNO 3 under various conditions. The acid concentration, residence time, and reaction temperature were varied to obtain adsorbents with various pore structures. The adsorption capacities of the derived adsorbents for phenol, p-nitrophenol, and benzene were measured to gain further insights into the pore structure evolution. Adsorption isotherms of phenol, p-nitrophenol, and p-chlorophenol on the best adsorbent prepared were determined and correlated with theoretical isotherm equations, such as the Langmuir, Freundlich, and Redlich-Peterson equations.

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Phosphate removal from wastewater using red mud

Huang¹,

Wang²,

Zhu³

et al. 2008

Journal of Hazardous Materials

430

159

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The physical and surface chemical characteristics of activated carbons and the adsorption of methylene blue from wastewater

Wang

Zhu

Coomes

et al. 2005

Journal of Colloid and Interface Science

345

138

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Adsorption Study for Removal of Basic Red Dye Using Bentonite

Qiao

Haghseresht

et al. 2005

Ind. Eng. Chem. Res.

238

102

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Colored wastewater poses a challenge to the conventional wastewater treatment techniques. Solid−liquid phase adsorption has been found to be effective for the removal of dyes from effluent. In this paper, the ability of bentonite as an adsorbent for the removal of a commercial dye, Basic Red 2 (BR2), from an aqueous solution has been investigated under various experimental conditions. The adsorption kinetics was shown to be pseudo-second-order. It was found that bentonite had high adsorption capacity for BR2 due to cation exchange. The adsorption equilibrium data can be fitted well by the Langmuir adsorption isotherm model. The effect of the experimental parameters, such as temperature, salt, and pH was investigated through a number of batch adsorption experiments. It was found that the removal of dye increased with the increase in solution pH. However, the change of temperature (15−45 °C) and the addition of sodium chloride were found to have little effect on the adsorption process. The results show that electrostatic interactions are not dominant in the interaction between BR2 and bentonite. It was found that the adsorption was a rapid process with 80−90% of the dye removed within the first 2−3 min. Bentonite as an adsorbent is promising for color removal from wastewater.

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F. Haghseresht

Adsorption Characteristics of Phenolic Compounds onto Coal-Reject-Derived Adsorbents

Phosphate removal from wastewater using red mud

The physical and surface chemical characteristics of activated carbons and the adsorption of methylene blue from wastewater

Adsorption Study for Removal of Basic Red Dye Using Bentonite

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