Selectivity adsorption of thiophene alkylated derivatives over modified Cu^+-13X zeolite 被引量：7

Selectivity adsorption of thiophene alkylated derivatives over modified Cu^+ -13X zeolite

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摘要 Solid adsorbents Cu＋- 13X and Cu＋-13X loaded with La element were prepared by ion-exchange method. X-ray diffraction （XRD） and scanning electron microscope （SEM） were used to characterize the structure of the prepared zeolite. Adsorption of thiophene with differ- ent groups over the two adsorbents was investigated by static adsorption equilibrium and kinetic test. Static equilibrium data were correlated based on the Langmuir model and the modified Langmuir model. Kinetic data were fitted very well by Crank diffusion model. The results re- vealed that the adsorption capacity of single component over the Cu＋-13X loaded with La element increased about 10% as compared to the non-doped Cu＋-13X. Fitting results of ηi and De illustrated that loading of the La element into zeolite could change the interaction force be- tween binary components. The kinetic test showed that the competitive adsorption became moderate, and thus resulted in the improvement of the total desulfiarization capacity. Keywords： rare earths; static adsorption; kinetic adsorption; thiophene; 3-methylthiophene; 2,5-dimethvlthiophene; benzothiophene Solid adsorbents Cu＋- 13X and Cu＋-13X loaded with La element were prepared by ion-exchange method. X-ray diffraction （XRD） and scanning electron microscope （SEM） were used to characterize the structure of the prepared zeolite. Adsorption of thiophene with differ- ent groups over the two adsorbents was investigated by static adsorption equilibrium and kinetic test. Static equilibrium data were correlated based on the Langmuir model and the modified Langmuir model. Kinetic data were fitted very well by Crank diffusion model. The results re- vealed that the adsorption capacity of single component over the Cu＋-13X loaded with La element increased about 10% as compared to the non-doped Cu＋-13X. Fitting results of ηi and De illustrated that loading of the La element into zeolite could change the interaction force be- tween binary components. The kinetic test showed that the competitive adsorption became moderate, and thus resulted in the improvement of the total desulfiarization capacity. Keywords： rare earths; static adsorption; kinetic adsorption; thiophene; 3-methylthiophene; 2,5-dimethvlthiophene; benzothiophene

作者缪同居沈贵薛峰

机构地区 College of Chemistry and Chemical Engineering

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2012年第8期807-813,共7页 稀土学报（英文版）

基金 Project supported by National Natural Science Foundation of China(21176118)

关键词 rare earths static adsorption kinetic adsorption THIOPHENE 3-METHYLTHIOPHENE 2 5-dimethylthiophene BENZOTHIOPHENE rare earths static adsorption kinetic adsorption thiophene 3-methylthiophene 2,5-dimethylthiophene benzothiophene

分类号 O621.2 [理学—有机化学]

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Journal of Rare Earths

2012年第8期

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