Effect of Shape and Modification over ZSM-5 Catalyst on Methanol to Gasoline

Xiao Feng Gao; Chuan Min Ding; Wei Li Liu; Lin Feng Fan; Gang Song; Jun Wen Wang; Kan Zhang

doi:10.4028/www.scientific.net/AMR.1008-1009.295

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1008-1009Effect of Shape and Modification over ZSM-5...

Effect of Shape and Modification over ZSM-5 Catalyst on Methanol to Gasoline

Abstract:

Fixed bed reactor was used to explore the catalytic performance of ZSM-5 catalysts with the forms of flake and strip in methanol to gasoline (MTG) reaction. The catalyst samples were characterized by XRD, BET and SEM. The strip ZSM-5 catalyst was modified by 0.4 Molar NaOH solution, which was denoted by TZSM-5/AT. The results show that ZSM-5 molecular sieves could be effectively dispersed to prevent carbon accumulation when extruded with binder. So the coke deposition resistance capacity of strip ZSM-5 has significantly enhancement comparing with flake ZSM-5. Mesoporous structure in strip zeolites formed after NaOH treatment, which could prevent coke formation and further improve catalyst life. The conversion of methanol remains above 80% over 140 hours on alkali-modified strip ZSM-5 operating at atmospheric pressure, 380°C and weight hourly space velocities (WHSV) of 1.5 h^-1.

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Periodical:

Advanced Materials Research (Volumes 1008-1009)

Pages:

295-299

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1008-1009.295

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Online since:

August 2014

Authors:

Xiao Feng Gao, Chuan Min Ding, Wei Li Liu, Lin Feng Fan, Gang Song, Jun Wen Wang, Kan Zhang

Keywords:

Coke Deposition, Extruding, Modified by NaOH, MTG, ZSM-5

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References

[1] Yinbin WANG, Jiazhong ZANG, Coal Chemical Industry, Vol. 3(2011), P. 16 (in chinese).

Google Scholar

[2] Kati Barbera, Francesca Bonino, Silv Bordiga, et al. Journal of Catalysis, Vol. 6 (2011), P. 196.

Google Scholar

[3] Cartilige S., Nissen H. U. Wessiccken R. Zeolite, Vol. 4(1989), P. 346.

Google Scholar

[4] Groen J. C., Moulijn J. A, Perez-Pamirez J. Industril & Engineering Chenistry Research, Vol. 46(12) (2007), P. 4193.

Google Scholar

[5] Suzuki T, Okuhara T. Micropor. Mesopor. Mat, Vol. 43(1) (2001), P. 83.

Google Scholar

[6] Yingping HE, Min LIU, Chengyi DAI, et al. Chinese Journal of Catalysis, Vol. 11(2013), P. 1148.

Google Scholar

[7] Youming Nia, Aiming Suna, Xiaoling Wua, et al. Journal of Natural Gas Chemistry, Vol. 20(3) (2011), P. 237.

Google Scholar

[8] Sami M.T. Almutairi, Brahim Mezari, Evgeny A. Pidko, et al. Journal of Catalysis, Vol. 11 (2013), P. 194.

Google Scholar

[9] H.A. Zaidi, K.K. Pant. Catalysis Today, Vol. 9(2004), P. 155.

Google Scholar

[10] Ruren Xu, WenQin Pang, et al. Chemistry-Zeolites and Porous Materials, edited by Science press, Beijing, china (2004) , in press. (in chinese).

Google Scholar

[11] Ogura M, Shinomiya SY, Tateno J, et al. Applied Catalysis A: General, 219(1-2)(2001), P. 33.

Google Scholar

[12] Francesca L. Bleken, Ton V.W. Janssens, Stian Svelle, et al. Microporous and Mesoporous Materials, Vol. 164(2012), P. 190.

Google Scholar

[13] Bj0rgen M, Joensen F, Holm M S, et al. Applied Catalysis A: General, Vol. 345(1) (2008), P. 43.

Google Scholar