4.7 Article

Rice husk-based adsorbents for removing ammonia: Kinetics, thermodynamics and adsorption mechanism

Journal

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.jece.2021.105793

Keywords

Gas adsorption; Rice husk-based material; Adsorption kinetics; Surface analysis

Funding

  1. Victorian Government's Victoria-Jiangsu Program for Technology and Innovation Research and Development

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This study investigated the adsorption behaviors of ammonia onto different biomass rice husk-based adsorbents, revealing their adsorption capacities, kinetic data, and thermodynamic activation parameters. Possible adsorption mechanisms involving chemisorption based on Lewis acid-base reaction were proposed, contributing to the design of efficient adsorbents for VOCs and odors removal and air pollution control.
Volatile organic compounds (VOCs) and odor are the main indoor air pollutants that can have impact on human health. In this study, the ammonia adsorption behaviors onto the three adsorbents from biomass rice husks, including silica carbon composite (RH-SiO2-C), activated carbon (RH-AC) and silicon dioxide (RH-SiO2) were investigated by time-resolved infrared spectroscopy. It was found that 85% of the initial concentration was eliminated under the optimized conditions. The adsorption capacity of ammonia onto RH-SiO2-C, RH-AC and RH-SiO2 at 298 K were found to be 7.28 mg g(-1), 11.22 mg g(-1) and 6.61 mg g(-1), respectively. The pseudo-secondorder model fit the kinetic data well for all the adsorbents and the adsorption rate constants were calculated. Thermodynamic activation parameters were obtained by studying the adsorption behavior at different temperatures, the activation energy values of ammonia adsorption onto RH-SiO2-C, RH-AC and RH-SiO2 were calculated to be 38.80 kJ mol(-1), 19.24 kJ mol(-1) and 54.64 kJ mol(-1), respectively. The activation enthalpy (Delta H-#), entropy (Delta S-#) and Gibbs free energy (Delta G(#)) were also determined. Inverse gas chromatography (IGC), infrared spectroscopy (IR), X-ray photoelectron spectroscopy (XPS) and surface area experiment were conducted to propose possible adsorption mechanisms. Beside surface area related with porous structures, chemisorption based on Lewis acid-base reaction may be a crucial interaction between ammonia and the adsorbents. This study gains insights into the adsorption of ammonia onto the biomass rice husk-based adsorbents, which inspires the further design of adsorbents to effectively remove VOCs and odors, therefore achieving a high efficiency for air pollution control.

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