Adsorption Behaviors of Hydroquinone onto Porous Adsorbents

Zeng Yin Zhu; Bing Li; Hai Suo Wu; Wei Liu; Jin Wei

doi:10.4028/www.scientific.net/AMR.610-613.1971

Paper Titles

Hazards and Treatment Methods of Large-Scale Livestock Sewage Pollution in China
p.1954

Study on Direct Electrochemical Preparation of Ferrate by Plate Diaphragm Electrolytic Cell
p.1958

Establishment of the Lakes and Reservoirs’ Model
p.1962

Water Repellency and Corrosion Resistance for High-Temperature Filter Fabrics Based on a Fluorinated Finishing Composition
p.1967

Adsorption Behaviors of Hydroquinone onto Porous Adsorbents
p.1971

A Review of Impacts of Agricultural Non-Point Source Pollution on Microbial Community in Riparian Zone
p.1975

Investigation of the Kinetics of Sulfite Oxidation on by-Production Recovery Process in WFGD
p.1980

A Preliminary Study on Pb Contamination in Soil and Plant in Zhaoyuan City
p.1986

Speciation Analysis of Inorganic Arsenic in Coal Samples
p.1991

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 610-613Adsorption Behaviors of Hydroquinone onto Porous...

Adsorption Behaviors of Hydroquinone onto Porous Adsorbents

Abstract:

As the toxicity even at low concentrations, pollution of phenolic compounds has become an issue of international concern. Adsorption has been proven to be the effective and widely used method for phenolic compounds removal. In this study, porous resins as adsorbents for the removal of hydroquinone from aqueous solutions were evaluated. Activated carbon F400D was employed for comparison. The faster adsorption kinetic was observed on the mesoporous XAD-4, while the higher adsorption capacity was obtained on the microporous NDA150, which had larger surface area. Despite the different surface properties and pore structures of the studied adsorbents, similar trends of pH-dependent adsorption were observed, implying the importance of the hydroquinone molecular species to the adsorption onto the porous adsorbents. This work provided an understanding of adsorption behavior of hydroquinone on porous adsorbents.