Coke formation on the surface of α-Al2O3 in the catalytic pyrolysis of naphtha

被引:10
作者
Jeong, SM [1 ]
Byun, YC [1 ]
Chae, JH [1 ]
Lee, WH [1 ]
机构
[1] LG Chem Ltd, Chem Proc & Catalysis Res Inst, Yusong Gu, Taejon 305380, South Korea
来源
KOREAN JOURNAL OF CHEMICAL ENGINEERING | 2001年 / 18卷 / 06期
关键词
catalytic pyrolysis; naphtha; coke; olefin yield; physical property;
D O I
10.1007/BF02705606
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
The catalytic pyrolysis of naphtha has been carried out in a quartz reactor loaded with 5 mm alpha -Al2O3 spheres, The yields of ethylene and propylene exhibit about 10% and 5% higher values compared to the thermal pyrolysis in the absence of alpha -Al2O3 spheres at the same reaction conditions. The coke formation on alpha -Al2O3 spheres increased continuously along with the axial length of the reactor as well as with reaction time. Results suggest that the concentration of the coke precursors in the gas phase may increase along with the axial length of the reactor. Coke filled up completely the internal pore of the sphere near the exit of the reactor after reaction for 4 hr. The coke film on the external surface of the sphere grew continuously thicker. The coke formation was influenced strongly by the physical properties of the alpha -Al2O3 spheres. Coke deposition was the least on the alpha -Al2O3 sphere with the lowest surface area and pore volume among the tested alpha -Al2O3 spheres.
引用
收藏
页码:842 / 847
页数:6
相关论文
共 50 条
[1]   Coke formation on the surface of α-Al2O3 in the catalytic pyrolysis of naphtha [J].
Sang Mun Jeong ;
Young Chang Byun ;
Jong Hyun Chae ;
Won-Ho Lee .
Korean Journal of Chemical Engineering, 2001, 18 :842-847
[2]   Study of Catalytic Pyrolysis of Chlorella with γ-Al2O3 Catalyst [J].
Liu, Juan ;
Li, Xia ;
Guo, QingJie .
EIGHTH CHINA NATIONAL CONFERENCE ON FUNCTIONAL MATERIALS AND APPLICATIONS, 2014, 873 :562-566
[3]   Catalytic pyrolysis of naphtha on the KVO3-based catalyst [J].
Jeong, SM ;
Chae, JH ;
Kang, JH ;
Lee, SH ;
Lee, WH .
CATALYSIS TODAY, 2002, 74 (3-4) :257-264
[4]   O2 and O3 regeneration of PtReSn/Al2O3 and PtReGe/Al2O3 naphtha reforming catalysts prepared by catalytic reduction [J].
D'Ippolito, Silvana A. ;
Especel, Catherine ;
Epron, Florence ;
Marecot, Patrice ;
Pieck, Carlos L. .
APPLIED CATALYSIS A-GENERAL, 2010, 388 (1-2) :272-277
[5]   Catalytic activity of Pt-Re-Pb/Al2O3 naphtha reforming catalysts [J].
Sanchez, Maria A. ;
Mazzieri, Vanina A. ;
Grau, Javier M. ;
Yori, Juan C. ;
Pieck, Carlos L. .
JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY, 2011, 86 (09) :1198-1204
[6]   Catalytic Pyrolysis of Pinus densiflora Over Mesoporous Al2O3 Catalysts [J].
Kim, Young-Min ;
Rhee, Gwang Hoon ;
Ko, Chang Hyun ;
Kim, Ki Hoon ;
Jung, Kyeong Youl ;
Kim, Ji Man ;
Park, Young-Kwon .
JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 2018, 18 (09) :6300-6303
[7]   Tailoring Cu/Al2O3 catalysts for the catalytic pyrolysis of tomato waste [J].
Ozbay, Nurgul ;
Yargic, Adife Seyda ;
Sahin, Rahmiye Zerrin Yarbay .
JOURNAL OF THE ENERGY INSTITUTE, 2018, 91 (03) :424-433
[8]   A DFT study of the catalytic pyrolysis of benzaldehyde on ZnO, γ-Al2O3, and CaO models [J].
Li-Ping Cui ;
Jiang-Tao Liu ;
Shi-Zhong Liu ;
Ming-Fei Wang ;
Zhi-Hua Gao ;
Zhi-Jun Zuo ;
Wei Huang .
Journal of Molecular Modeling, 2018, 24
[9]   A DFT study of the catalytic pyrolysis of benzaldehyde on ZnO, γ-Al2O3, and CaO models [J].
Cui, Li-Ping ;
Liu, Jiang-Tao ;
Liu, Shi-Zhong ;
Wang, Ming-Fei ;
Gao, Zhi-Hua ;
Zuo, Zhi-Jun ;
Huang, Wei .
JOURNAL OF MOLECULAR MODELING, 2018, 24 (03)
[10]   Catalytic pyrolysis of HDPE over WOx/Al2O3: Effect of tungsten content on the acidity and catalytic performance [J].
Park, Sung Joon ;
Kang, Seung Hee ;
Min, Hyung-Ki ;
Seo, Myung-gi ;
Kweon, Sungjoon ;
Park, Min Bum ;
Choi, Young Heon ;
Lee, Jae W. .
MOLECULAR CATALYSIS, 2022, 528
12345