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Optimization of active metal Ni d charge density for efficient phenanthrenehydrogenation over Ni2P / Al2O3 catalyst

2024 No. 02
288
112
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Authors:
JING Jieying
LI Ze
ZHAO Zemin
ZHANG Yu
Unit:
State Key Laboratory of Clean and Efficient Coal Utilization,Taiyuan University of Technology
Abstract:

The content of phenanthrene in high temperature coal tar is relatively high. The hydrogenation saturation of phenanthrenethrough catalytic not only expands the utilization of phenanthrene, but also obtains perhydrophenanthrene, which is an ideal component forjet fuel due to its high density and calorific value. However, the competitive adsorption between phenanthrene and intermediate hydrogenation products in the process of phenanthrene hydrogenation is not conducive to the adsorption and activation of phenanthrene on the catalyst, and the further hydrogenation of symmetric octahydrophenanthrene is the speed control step in the hydrogenation saturation process ofphenanthrene. Due to the difficulty in adsorption and activation of symmetric octahydrophenanthrene on the catalyst, the catalyst activity isoften difficult to meet the hydrogenation demand. According to the π-complex adsorption mechanism between polycyclic aromatic hydrocarbon and transition metals, polycyclic aromatic hydrocarbon and active metals act as electron donors and electron accepters respectivelyin the process of reactant adsorption and activation. Therefore, when the active metal Ni in the Ni-based catalyst is in the electron-deficient state, it is conducive to the formation of perhydrophenanthrene. However, the reason why the amount of Ni electron deficiency and itselectronic structure affect the performance of the catalyst for hydrogenation of phenanthrene and symmetric octahydrophenanthrene needs tobe further explored. In addition, considering the advantages of the supported Ni2P catalysts, such as high stability, strong sulfur resistanceand nitrogen resistance, Ni2P / Al2O3 catalysts with different d charge densities were prepared by adjusting the P / Ni amount-of-substanceratios using hypophosphite disproportionation method, to investigate the influence of Ni d charge density on the adsorption and reactionperformance of phenanthrene and symmetric octahydrophenanthrene. The results show that under reaction conditions of 320 ℃ , 5 MPa,and Weight Hourly Space Velocity (WHSV) of 1 309 h-1, the Ni-2.5P / Al2O3 catalyst obtains the highest turnover-frequency(fTO) of44.64×10-3 s-1. By describing the interaction strength between phenanthrene, symmetric octahydrophene, and catalyst surfaces throughadsorption activation entropy, it was found that the adsorption strength of phenanthrene and symmetric octahydrophenanthrene on the surface of Ni-xP / Al2O3 catalysts with different P / Ni molar ratios are different. Further, by quantitatively calculating the Ni d charge density,it was identified that the suitable Ni d charge density for the hydrogenation of phenanthrene over Ni-xP / Al2O3 catalyst is about -0.24 e,and the suitable Ni d charge density for the hydrogenation of symmetric octahydrophenanthrene is about -0.05 e.

Keywords:
phenanthrene
hydrogenation saturation
Ni2P / Al2O3 catalysts
d charge density
perhydrophenanthrene
Citation format:
荆洁颖(1985—),女,山西襄汾人,教授,博士生导师,博士。E-mail:jingjieying@tyut.edu.cn
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Citation format:
JING Jieying,LI Ze,ZHAO Zemin,et al.Optimization of active metal Ni d charge density for efficient phenanthrene hydro-genation over Ni2P / Al2O3 catalyst[J].Clean Coal Technology,2024,30(2):102-113.

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  • Executive director

    China Coal Science and Industry Group Co., Ltd

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    XIE Qiang

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    YU Chang
    SHI Yixiang
    ZHAO Yongchun
    DUAN Linbo
    CAO Jingpei
    ZENG Jie

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