Ag+改性NaY分子筛的制备及其吸附脱氮性能研究

Preparation of Ag+ modified NaY molecular sieve and its adsorption and denitrogenation properties

  • 摘要: 采用Ag+改性NaY分子筛成功制备了AgY分子筛,利用XRD射线衍射、FT-IR、N2吸附-脱附对NaY和AgY分子筛进行了表征,并用于吸附脱除模拟燃料中吡啶、苯胺、喹啉碱性氮化物,AgY分子筛的吸附能力明显优于NaY分子筛。考察了吸附温度、吸附时间对AgY分子筛吸附三种氮化物的影响,实验结果表明,吸附能力均为:苯胺>喹啉>吡啶,为了进一步研究其吸附机理,采用Materials Studio软件建立了AgY分子筛12T团簇模型并在303、323、343 K下模拟三种氮化物分子在AgY分子筛上的吸附,计算了吸附能、活性中心与吡啶、苯胺、喹啉分子的距离、前线轨道、等密度分布、径向分布函数等相关参数,计算结果也表明,AgY分子筛对苯胺的吸附优于喹啉,优于吡啶,与实验结果一致,且吸附以化学吸附为主,AgY分子筛S位和W位为主要吸附位。吸附等温线研究结果表明,AgY分子筛对吡啶的吸附符合Langmuir-Freundlich混合吸附模型,对苯胺、喹啉的吸附符合Freundlich吸附模型。吸附动力学和吸附热力学结果表明,AgY分子筛对吡啶的吸附符合准二级动力学模型,对苯胺、喹啉的吸附符合准一级动力学模型,吸附是自发的熵增过程。

     

    Abstract: An AgY molecular sieve modified by Ag+ ion was characterized by XRD, FT-IR and N2 adsorption and desorption and used to the adsorption denitrogenation from model fuels containing pyridine, aniline and quinoline basic nitrides. The adsorption capacity for N with the AgY molecular sieve was obviously better than that with the NaY molecular sieve. The effects of adsorption temperature and adsorption time on the adsorption capacity of three kinds of nitrides by AgY molecular sieve were investigated. The experimental results show that the adsorption capacity for N is aniline>quinoline>pyridine. To study the adsorption mechanism of AgY, the 12T cluster model of AgY molecular sieve was established by Materials Studio software and the adsorption of three kinds of nitride molecules on the AgY molecular sieve was simulated at 303 K, 323 K and 343 K. The adsorption energy, the distance between the active center and pyridine, aniline and quinoline molecules, the frontier orbit, the isodensity distribution, the radial distribution function and other relevant parameters were calculated. The calculated results show that the adsorption of aniline by AgY molecular sieve is better than that of quinoline and pyridine, which is consistent with the experimental results. Moreover, the adsorption is mainly the chemical adsorption, and the S and W sites of AgY molecular sieve are the main adsorption sites. The results of isothermal adsorption show that the adsorption of pyridine on the AgY follows the Langmuir-Freundlich mixed adsorption model, and the adsorption of aniline and quinoline follows the Freundlich adsorption model. The results of adsorption kinetics and thermodynamics show that the adsorption of pyridine on the AgY molecular sieve conforms to the quasi-second-order kinetic model, while the adsorption of aniline and quinoline conforms to the quasi-first-order kinetic model, and all adsorption processes are spontaneous entropy increasing process.

     

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