Adsorption behavior of ammonium by a bioadsorbent-Boston ivy leaf powder 被引量：7

Adsorption behavior of ammonium by a bioadsorbent-Boston ivy leaf powder

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摘要 The adsorption behaviors of ammonium ions from aqueous solution by a novel bioadsorbent, the Boston ivy （Parthenocissus tricuspidata） leaf powder （BPTL） were investigated. The SEM images and FT-IR spectra were used to characterize BPTL. The mathematical models were used to analyze the adsorption kinetics and isotherms. The optimum pH range for ammonium adsorption by BPTL was found to be 5-10. The adsorption reached equilibrium at 14 b.r, and the kinetic data were well fitted by the Logistic model. The intraparticle diffusion was the main rate-controlling step of the adsorption process. The high temperature was favorable to the ammonium adsorption by BPTL, indicating that the adsorption was endothermic. The adsorption equilibrium fitted well to both the Langmuir model and Freundlich model, and the maximum monolayer adsorption capacities calculated from Langmuir model were 3.37, 5.28 and 6.59 mg N/g at 15, 25 and 35~C, respectively, which were comparable to those by reported minerals. Both the separation factor （RL） from the Langmuir model and Freundiich exponent （n） suggested that the ammonium adsorption by BPTL was favorable. Therefore, the Boston ivy leaf powder could be considered a novel bioadsorbent for ammonium removal from aqueous solution. The adsorption behaviors of ammonium ions from aqueous solution by a novel bioadsorbent, the Boston ivy （Parthenocissus tricuspidata） leaf powder （BPTL） were investigated. The SEM images and FT-IR spectra were used to characterize BPTL. The mathematical models were used to analyze the adsorption kinetics and isotherms. The optimum pH range for ammonium adsorption by BPTL was found to be 5-10. The adsorption reached equilibrium at 14 b.r, and the kinetic data were well fitted by the Logistic model. The intraparticle diffusion was the main rate-controlling step of the adsorption process. The high temperature was favorable to the ammonium adsorption by BPTL, indicating that the adsorption was endothermic. The adsorption equilibrium fitted well to both the Langmuir model and Freundlich model, and the maximum monolayer adsorption capacities calculated from Langmuir model were 3.37, 5.28 and 6.59 mg N/g at 15, 25 and 35~C, respectively, which were comparable to those by reported minerals. Both the separation factor （RL） from the Langmuir model and Freundiich exponent （n） suggested that the ammonium adsorption by BPTL was favorable. Therefore, the Boston ivy leaf powder could be considered a novel bioadsorbent for ammonium removal from aqueous solution.

作者 Haiwei Liu Yuanhua Dong Haiyun Wang Yun Liu

机构地区 State Key Laboratory of Soil and Sustainable Agriculture Tobacco Research Institute Graduate University of Chinese Academy of Sciences

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2010年第10期1513-1518,共6页 环境科学学报（英文版）

基金 supported by the National Supporting Plan of Science and Technology(No.2006BAD10B05) the National Natural Science Foundation of China(No. 20907058) the Natural Science Foundation of Jiangsu Province of China(No.BK2008499)

关键词 ammonium ion bioadsorbent ISOTHERM kinetics plant material ammonium ion bioadsorbent isotherm kinetics plant material

分类号 O647.3 [理学—物理化学] O613.61 [理学—无机化学]

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