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Citation: WANG Jun-feng, SHEN Jian, LI Jian. Preparation of Mg/Ce-SBA-15 catalyst and its performance on phenol alkylation with methanol[J]. Journal of Fuel Chemistry and Technology, ;2017, 45(5): 633-640. shu

Preparation of Mg/Ce-SBA-15 catalyst and its performance on phenol alkylation with methanol

  • College of Petrochemical Engineering, Liaoning Shihua University, Fushun 113001, China

  • Corresponding author: LI Jian, jlqdsd@163.com
  • Received Date: 20 December 2016
    Revised Date: 13 March 2017

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  • Mg/Ce-SBA-15 mesoporous molecular sieves were synthesized by using Ce-SBA-15 as support and magnesium nitrate as precursor through impregnation method. The samples were characterized by XRD, N2 adsorption-desorption, BET, SEM, NH3-TPD, Py-FTIR and TG-DTA techniques. The results indicate that the original crystal structures of SBA-15 remain unchanged after modification with Mg, but the number of weak acids were increased especially L acids. The performances of catalysts in phenol alkylation with methanol were studied in a fixed bed reactor. The results showed that the catalyst showed the highest catalytic activity under the conditions of Mg content=7%, calcination temperature=550℃ and calcination time=4.5 h.At 460℃, n(phenol):n(methanol)=1:4, WHSV=3.0 h-1 and atmospheric pressure, the conversion of phenol was 80.1% and the selectivity to o-cresol was 86.4%.
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    1. [1]

      LIU J Y, HUANG H, ZHONG S, PENG W C, SHE X C, YIN D L. Research progress in vapor phase C-alkylation of phenol with methanol over metallic oxides[J]. Chem Ind Eng Prog, 2013,32(11):2609-2613.  

    2. [2]

      WANG K, XU Y, LIU Z. Cresol producing method through phenol methanol gas-phase alkylation: WO, EP2878590[P]. 2015.

    3. [3]

      CHARY K V R, RAMESH K, VIDYASAGAR G, RAO V V. Vapour phase alkylation of phenol with methanol over vanadium oxide supported on zirconia[J]. J Mol Catal A: Chem, 2003,198(1/2):195-204.  

    4. [4]

      GANDHE A R, FERNANDES J B. Methylation of phenol over Degussa P25 TiO2[J]. J Mol Catal A: Chem, 2005,226(2):171-177. doi: 10.1016/j.molcata.2004.10.035

    5. [5]

      LIU Y, LOTERO E, GOODWIN J G. A comparison of the esterification of acetic acid with methanol using heterogeneous versus homogeneous acid catalysis[J]. J Catal, 2006,242(2):278-286. doi: 10.1016/j.jcat.2006.05.026

    6. [6]

      HUANG H, ZHONG S, XU B, SHE X C. Synthesis of o-cresol from phenol and methanol via gas phase alkylation[J]. Petrochem Technol, 2010,39(11):1265-1268.  

    7. [7]

      PENA L F G, SAD M E, PADRO C L, APESTEGUIA C R. Study of the alkylation of phenol with methanol on Zn (H)-exchanged NaY zeolites[J]. Catal Lett, 2011,141(141):939-947.  

    8. [8]

      BARMAN S, PRADHAN N C, BASU J K. Kinetics of alkylation of phenol with methanol over Ce-exchanged NaX zeolite[J]. Catal Lett, 2006,111(1):67-73.  

    9. [9]

      ZHANG Kui, XIANG Shou-he, ZHANG Huai-bin, LIU Shang-yuan, LI He-xuan. Study on methylation of phenol with methanol over HZSM-5 zeolite[J]. Chin J Catal, 2001,22(6):545-549.  

    10. [10]

      SATO S, KOIZUMI K, NOZAKI F. Ortho-selective methylation of phenol catalyzed by CeO2-MgO prepared by citrate process[J]. J Catal, 1998,178(1):264-274. doi: 10.1006/jcat.1998.2159

    11. [11]

      SHI Chun-wei, WU Wen-yuan, BIAN Xue, BAI Yu-ting. Microwave hydrothermal synthesis and characterization of Y/SBA-15[J]. J Northeast Univ, 2015,36(3):397-401.  

    12. [12]

      LASKOWSKA M, LASKOWSKI L, JELONKIEWICZ J. SBA-15 mesoporous silica activated by metal ions verification of molecular structure on the basis of Raman spectroscopy supported by numerical simulations[J]. J Mol Struct, 2015,1100(11):21-26.  

    13. [13]

      REN Wen-ling, CHEN Shao-yun, ZHANG Yong-chun, LI Gui-min. Preparation and characterization of methylated SBA-15 molecular sieves[J]. Chem Ind Eng Prog, 2011,30(10):2304-2309.  

    14. [14]

      ZHAO D, FENG J, HUO Q, MELOSH N, FREDRICKSON G, CHMELKA B, STUCKY G. Triblock copolymer syntheses of mesoporous silica with periodic 50 to 300 angstrom pores[J]. Science, 1998,279(5350):548-52. doi: 10.1126/science.279.5350.548

    15. [15]

      DING ZHi-jie, GUO Yu, GONG Xu-zhong, CHEN Jun-hua. Synthesis and characterization of Ce-SBA-15 as a hexagonal mesoporous molecular sieve[J]. J Chin Silic Soc, 2010,38(2):234-240.  

    16. [16]

      ZHAI Qing-zhou, CAI Jian-yan, YU Hui, QIN Liang. Synthesis of SBA-15 molecular sieve[J]. J Chin Silic Soc, 2006,34(3):385-388.  

    17. [17]

      ZHANG H, LI M, XIAO P, LIU D, ZOU C J. Structure and catalytic performance of Mg-SBA-15-supported nickel catalysts for CO2, reforming of methane to syngas[J]. Chem Eng Technol, 2013,36(10):1701-1707.  

    18. [18]

      ZHONG J, CHEN J, CHEN L. Selective hydrogenation of phenol and related derivatives[J]. Catal Sci Technol, 2014,4(10):3555-3569. doi: 10.1039/C4CY00583J

    19. [19]

      ZHAO Chun-lei, CHEN Wen, LIU Qi, TIAN Gao. Influence of HCl on the mesostructure and morphology of the ordered mesoporous silica[J]. Acta Phys Chim Sin, 2006,22(10):1201-1205. doi: 10.3866/PKU.WHXB20061006

    20. [20]

      POLICE A K R, BASAVARAJU S, VALLURI D, MACHIRAJU S. Photocatalytic activity of Ce-modified SBA-15 for the degradation of isoproturon[J]. Bull Mater Sci, 2015,38(1):227-234. doi: 10.1007/s12034-015-0840-0

    21. [21]

      LUAN Z H, HARTMANN M, ZHAO D Y, ZHOU W Z. Alumination and ion exchange of mesoporous SBA-15 molecular sieves[J]. Chem Mater, 1999,11(6):1621-1627. doi: 10.1021/cm9900756

    22. [22]

      SHI Chun-wei, WANG Xin, GUO Xiu-dong, ZHAO Shan-lin, LI Jian-hong. Study on catalytic oxidation of oleic acid by Ce-SBA-15 modified molecular sieve[J]. Bull Chin Ceram Soc, 2014,33(7):1748-1751.  

    23. [23]

      RUAN Ben-xi, SHEN Jian, LI Shao-kai, NIE Ning. Catalytic oxidative desulfurization from FCC gasoline by niobium modified SBA-15[J]. J Liaoning Univ Petrochem Technol, 2013,33(3):24-27.  

    24. [24]

      WANG Y L, SONG Y Y, HUO W T, JIA M J, JING X Y, YANG P P, YANG Y, LIU G, ZHANG W X. Vapor phase ortho-selective alkylation of phenol with methanol over silica-manganese mixed oxide catalysts[J]. Chem Eng J, 2012,s 181-182(2):630-635.  

    25. [25]

      ACEBEDO M D, BEDOGNI G A, OKULIK N B, PADRO C L. Study of gas phase m-cresol alkylation with methanol on solid acid catalysts[J]. Catal Lett, 2014,144(11):1946-1954. doi: 10.1007/s10562-014-1358-6

    26. [26]

      WANG Jun-feng, SHEN Jian, REN Tie-qiang. Preparation of Ce-SBA-15 catalyst and its performance on phenol alkylation with methanol[J]. J Mol Catal, 2016,30(6):523-531.  

    27. [27]

      WANG N, CHU W, ZHANG T, ZHAO X S. Synthesis, characterization and catalytic performances of Ce-SBA-15 supported nickel catalysts for methane dry reforming to hydrogen and syngas[J]. Fuel Energy Abs, 2012,37(1):19-30.  

    28. [28]

      SAHU D R, HONG L Y, WANG S C, HUANG J L. Synthesis, analysis and characterization of ordered mesoporous TiO2 /SBA-15 matrix: Effect of calcination temperature[J]. Microporous Mesoporous Mater, 2009,117(3):640-649. doi: 10.1016/j.micromeso.2008.08.013

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