Adsorption of K^+ from an aqueous phase onto an activated carbon used as an electric double-layer capacitor electrode 被引量：3

Adsorption of K^+ from an aqueous phase onto an activated carbon used as an electric double-layer capacitor electrode

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摘要 The adsorption capacity and absorption rate for electrolyte onto activated carbon are important parameters used to characterize activated carbon electric double-layer capacitor electrodes. In this paper the pore structure of typical commercial activated carbons, and various Mn-doped activated carbons prepared on a laboratory scale, are described. The pore structure was character-ized by N2 adsorption/desorption isotherms. Isotherms for K+ adsorption onto these activated carbons from the aqueous phase were also obtained. The experimental, equilibrium K+ adsorption data were fitted to the Langmuir, Freundlich or Temkin equations. Adsorption of K+ onto the activated carbons was measured and plotted as a function of time. The adsorption kinetic data were modeled by either pseudo-first or pseudo-second order equations. The Elvoich equation, a liquid film diffusion and an intra-particle diffusion model were used to fit the kinetic data. The results indicate that the adsorption of K+ onto activated carbon is influenced by many factors including pore size distribution, specific surface area and the surface chemistry of the activated carbons. The Temkin equation best describes the equilibrium adsorption data. The pseudo-second order model exactly describes the whole adsorption process, which is controlled by both liquid film and intra-particle diffusion. The adsorption capacity and absorption rate for electrolyte onto activated carbon are important parameters used to characterize activated carbon electric double-layer capacitor electrodes. In this paper the pore structure of typical commercial activated carbons, and various Mn-doped activated carbons prepared on a laboratory scale, are described. The pore structure was characterized by N2 adsorption/desorption isotherms. Isotherms for K^+ adsorption onto these activated carbons from the aqueous phase were also obtained. The experimental, equilibrium K^+ adsorption data were fitted to the Langmuir, Freundlich or Temkin equations. Adsorption of K^+ onto the activated carbons was measured and plotted as a function of time. The adsorption kinetic data were modeled by either pseudo-first or pseudo-second order equations. The Elvoich equation, a liquid film diffusion and an intra-particle diffusion model were used to fit the kinetic data. The results indicate that the adsorption of K^+ onto activated carbon is influenced by many factors including pore size distribution, specific surface area and the surface chemistry of the activated carbons. The Temkin equation best describes the equilibrium adsorption data. The pseudo-second order model exactly describes the whole adsorption process, which is controlled by both liquid film and intra-particle diffusion.

作者 LI Ying XIE Qiang YAN Wen WANG Yan ZHANG Zhonghua

机构地区 School of Chemical and Environmental Engineering

出处《Mining Science and Technology》 EI CAS 2010年第4期551-556,共6页 矿业科学技术(英文版)

基金 the financial support from the Research Fund for the Doctoral Program of Higher Education of China (No.2006 0290006)

关键词 activated carbon adsorption isotherm adsorption kinetics electric double-layer capacitor activated carbon adsorption isotherm adsorption kinetics electric double-layer capacitor

分类号 TM53 [电气工程—电器]

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