Preparation of Cu(I)-Ce(IV)-Y adsorbent and its adsorptive desulfurization performance

SONG Hua; GAO Hui-jie; SONG Hua-lin; CUI Xue-han; WAN Xia; YUAN Dan-dan

Volume 42 Issue 12

Dec. 2014

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Article Navigation > Journal of Fuel Chemistry and Technology > 2014 > 42(12): 1485-1492

SONG Hua, GAO Hui-jie, SONG Hua-lin, CUI Xue-han, WAN Xia, YUAN Dan-dan. Preparation of Cu(I)-Ce(IV)-Y adsorbent and its adsorptive desulfurization performance[J]. Journal of Fuel Chemistry and Technology, 2014, 42(12): 1485-1492.

Citation:

SONG Hua, GAO Hui-jie, SONG Hua-lin, CUI Xue-han, WAN Xia, YUAN Dan-dan. Preparation of Cu(I)-Ce(IV)-Y adsorbent and its adsorptive desulfurization performance[J]. Journal of Fuel Chemistry and Technology, 2014, 42(12): 1485-1492.

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Preparation of Cu(I)-Ce(IV)-Y adsorbent and its adsorptive desulfurization performance

1.
Provincial Key Laboratory of Oil & Gas Chemical Technology, Northeast Petroleum University, Daqing 163318, China;
2.
Key Laboratory of Cancer Prevention and Treatment of Heilongjiang Province, Mudanjiang Medical University, Mudanjiang 157011, China;
3.
PetroChina Daqing Petrochemical Company, Daqing 163714, China;
4.
CPE Xinjiang Petroleum Prospecting and Design Research Institute (Co., Ltd.), Karamay 834000, China

Received Date: 2014-07-15
Rev Recd Date: 2014-09-24
Publish Date: 2014-12-30

Abstract

Abstract

Cu(I)Y, Ce(IV)-Y and Cu(I)-Ce(IV)-Y adsorbents were successfully prepared by liquid-phase ion-exchange of Y zeolites with combined Cu and Ce ions. The adsorbents were characterized by means of X-ray diffraction (XRD) and N₂-adsorption specific surface area measurements (BET). The effect of preparation conditions on the adsorptive desulfurization properties over Cu(I)-Ce(IV)-Y were studied by a static desulfurization method. The breakthrough sulfur capacities of the adsorbents were studied in a fixed-bed reactor system. Meanwhile, adsorptive desulfurization selectivities of the adsorbents were studied through model fuels, which made up of 1-octane solution of benzothiophene and thiophene, then respectively mixed with a certain amount of toluene, cyclohexene or pyridine. The results indicate that the optimum preparation conditions of Cu(I)-Ce(IV)-Y is ion-exchange time of 48 h, Cu/Ce molar ratio of 1, and calcination temperature of 550 ℃. Cu(I)-Ce(IV)-Y adsorbent exhibited the best desulfurization performance with model fuels, which contain a certain amount of toluene and cyclohexene. The effect of toluene, cyclohexene and pyridine at the same concentration, on the metal ion-exchanged Y zeolites for sulfur removal is in the order: pyridine > cyclohexene > toluene. The introduction of Cu⁺ can improve the desulfurization activity of adsorbent, while the introduction of Ce⁴⁺ can improve the selectivity of adsorbent. The synergistic effect of Cu⁺ and Ce⁴⁺ contribute to Cu(I)-Ce(IV)-Y not only has the high sulfur adsorption capacity but also has the ability of resistance to aromatics and olefins.
- Cu(I)-Ce(IV)-Y,
- preparation,
- benzothiophene,
- adsorptive desulfurization

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References(19)

References

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