Effective adsorption of Direct Red 23 by sludge biochar-based adsorbent: adsorption kinetics, thermodynamics and mechanisms study

Using solid adsorbents, such as biochar, has been a potential practice to remove the pollutants from water bodies to render the water safer for potential usage. A potential application of sludge biochar-based adsorbent (SBA), obtained by pyrolysis with hydrothermal treatment, was developed to adsorb...

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Bibliographic Details
Main Authors: Ruqing Jiang, Guangwei Yu, Pamphile Ndagijimana, Yu Wang, Futian You, Zhenjiao Xing, Yin Wang
Format: Article
Language:English
Published: IWA Publishing 2021-05-01
Series:Water Science and Technology
Subjects:
Online Access:http://wst.iwaponline.com/content/83/10/2424
Description
Summary:Using solid adsorbents, such as biochar, has been a potential practice to remove the pollutants from water bodies to render the water safer for potential usage. A potential application of sludge biochar-based adsorbent (SBA), obtained by pyrolysis with hydrothermal treatment, was developed to adsorb Direct Red 23 (DR23) from wastewater. The results showed that for the synthesized SBA (0.5 g/L) in the adsorption of DR23 at low concentration (<20 mg/L), the DR23 was totally removed from the aqueous solution. pH had a limited effect on the adsorption, while an increase in temperature was shown to have a large enhancing effect. The adsorption kinetics were best fitted by the pseudo-second-order kinetic model, while the equilibrium data were best fitted by the Langmuir isotherm. A maximum saturation adsorption capacity of SBA of 111.98 mg/g was achieved. SBA could then be regenerated by pyrolysis, and after three cycles, SBA still retained good adsorption ability for DR23, a removal rate exceeding 97% was achieved. Functional groups, pores, π-π bond, and electrostatic interactions are the key to the adsorption mechanisms. The results proved that SBA would be a promising material in the application of removing dyes in printing and dyeing wastewater. HIGHLIGHTS An adsorbent was synthesized from sludge by pyrolysis with hydrothermal treatment.; The adsorbent presented high removal efficiency for DR23 with 111.98 mg/g.; Physicochemical interactions are key factors for the adsorption mechanism.; The new adsorbent could be regenerated to obtain awesome adsorption performance.;
ISSN:0273-1223
1996-9732