Removing mercury from aqueous solution using sulfurized biochar and associated mechanisms

Park, Jong Hwan; Wang, Jim J.; Zhou, Baoyue; Mikhael, Joseph E.R.; DeLaune, R. D.

Removing mercury from aqueous solution using sulfurized biochar and associated mechanisms

2019

Park, Jong Hwan | Wang, Jim J. | Zhou, Baoyue | Mikhael, Joseph E.R. | DeLaune, R. D.

Biochar has been used to remove heavy metals from aqueous solutions. In this study, a sulfurized wood biochar (SWB) by direct impregnation with elemental sulfur was produced and evaluated along with pristine wood biochar (WB) for adsorption characteristics and mechanism of mercury. Mercury adsorption by WB and SWB was well described by Langmuir model and pseudo second order model and the maximum adsorption capacities of WB and SWB were 57.8 and 107.5 mg g⁻¹, respectively. Intraparticle diffusion model showed that mercury adsorption was fast due to boundary layer and slow adsorption due to diffusion into biochar pores. Although, mercury adsorption by both WB and SWB was predominantly influenced by the pH, temperature, salt concentration, and biochar dosage, the SWB showed a relatively stable mercury adsorption compared to WB under different conditions, suggesting the strong affinity of SWB for mercury. The XPS analysis showed different adsorption mechanisms of mercury between WB and SWB. In particular, mercury adsorption in WB was due to Hg-Cπ bond formation and interaction with carboxyl and hydroxyl groups, whereas in SWB it is primarily due to mercury interaction with C-SOₓ-C and thiophenic groups in addition to Hg-Cπ bond formation and interaction with carboxyl groups. The SEM-EDS mapping also demonstrated that mercury in SWB was related to carbon, oxygen and sulfur. Overall, the sulfurized biochar was effective for removing mercury from aqueous solution, and its direct production through pyrolysis with elemental sulfur impregnation of wood chips could make it an economic option as absorbent for treating mercury-rich wastewater.

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Mots clés AGROVOC

absorbents adsorbent adsorption carbon heavy metals mercury models oxygen ph pyrolysis pyrolysis sulfur temperature wastewater wood wood chips

Informations bibliographiques

Publié dans

Environmental pollution

Volume 244 Pagination 627 - 635 ISSN 0269-7491

Editeur

Elsevier Ltd

D'autres materias

Wood chip; Salt concentration; Sulfur functional groups; Sorption isotherms; Moieties; Scanning electron microscopy; Aqueous solutions; Biochar; X-ray photoelectron spectroscopy; Element sulfur; Energy-dispersive x-ray analysis

Langue

anglais

Licence

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Type

Journal Article; Text

Sur AGRIS depuis: 2024-02-28

Format: MODS

Fournisseur de données

Cette notice bibliographique a été fournie par National Agricultural Library

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Liens

DOI DOI https://dx.doi.org/10.1016/j.envpol.2018.10.069

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