Coke-resistant Ni at SiO2 catalyst for dry reforming of methane

Junshe Zhang; Fanxing Li

doi:10.1016/j.apcatb.2015.04.039

Coke-resistant Ni at SiO₂ catalyst for dry reforming of methane

Junshe Zhang
, Fanxing Li

North Carolina State University

Research output: Contribution to journal › Article › peer-review

280 Scopus citations

Abstract

Nanostructured Ni at SiO₂ core-shell catalyst is prepared from nickel oxide nanoparticles by a facile method. Calcination of as-synthesized core-shell nanoparticles creates a micro/meso-porous structure in the amorphous silica shell. The catalytic performance of core-shell catalyst toward dry reforming of methane was first evaluated in a thermogravimeter coupled with a mass spectrometer. Coking is negligible in a reforming period of 40h on stream at 850°C, while more than 0.32g_cokeg_cat^-1 is produced on a commercial Ni-based reforming catalyst in 6.4h at the same reforming condition. Dry reforming was also performed in a continuous flow, fixed-bed reactor at 750°C. Characterization of spent catalyst further confirms that Ni at SiO₂ catalyst has high coke-resistance for dry reforming. The amount of coke deposited on the core-shell catalyst in 24.5h is 0.012g_cokeg_cat^-1.

Original language	English
Pages (from-to)	513-521
Number of pages	9
Journal	Applied Catalysis B: Environmental
Volume	176-177
DOIs	https://doi.org/10.1016/j.apcatb.2015.04.039
State	Published - 1 Oct 2015
Externally published	Yes

Keywords

Carbon dioxide
Coke-resistance
Core-shell catalyst
Dry reforming of methane
Nickel oxide nanoparticles

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10.1016/j.apcatb.2015.04.039

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title = "Coke-resistant Ni at SiO2 catalyst for dry reforming of methane",

abstract = "Nanostructured Ni at SiO2 core-shell catalyst is prepared from nickel oxide nanoparticles by a facile method. Calcination of as-synthesized core-shell nanoparticles creates a micro/meso-porous structure in the amorphous silica shell. The catalytic performance of core-shell catalyst toward dry reforming of methane was first evaluated in a thermogravimeter coupled with a mass spectrometer. Coking is negligible in a reforming period of 40h on stream at 850°C, while more than 0.32gcokegcat-1 is produced on a commercial Ni-based reforming catalyst in 6.4h at the same reforming condition. Dry reforming was also performed in a continuous flow, fixed-bed reactor at 750°C. Characterization of spent catalyst further confirms that Ni at SiO2 catalyst has high coke-resistance for dry reforming. The amount of coke deposited on the core-shell catalyst in 24.5h is 0.012gcokegcat-1.",

keywords = "Carbon dioxide, Coke-resistance, Core-shell catalyst, Dry reforming of methane, Nickel oxide nanoparticles",

author = "Junshe Zhang and Fanxing Li",

note = "Publisher Copyright: {\textcopyright} 2015 Elsevier B.V.",

year = "2015",

month = oct,

day = "1",

doi = "10.1016/j.apcatb.2015.04.039",

language = "英语",

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T1 - Coke-resistant Ni at SiO2 catalyst for dry reforming of methane

AU - Zhang, Junshe

AU - Li, Fanxing

PY - 2015/10/1

Y1 - 2015/10/1

N2 - Nanostructured Ni at SiO2 core-shell catalyst is prepared from nickel oxide nanoparticles by a facile method. Calcination of as-synthesized core-shell nanoparticles creates a micro/meso-porous structure in the amorphous silica shell. The catalytic performance of core-shell catalyst toward dry reforming of methane was first evaluated in a thermogravimeter coupled with a mass spectrometer. Coking is negligible in a reforming period of 40h on stream at 850°C, while more than 0.32gcokegcat-1 is produced on a commercial Ni-based reforming catalyst in 6.4h at the same reforming condition. Dry reforming was also performed in a continuous flow, fixed-bed reactor at 750°C. Characterization of spent catalyst further confirms that Ni at SiO2 catalyst has high coke-resistance for dry reforming. The amount of coke deposited on the core-shell catalyst in 24.5h is 0.012gcokegcat-1.

AB - Nanostructured Ni at SiO2 core-shell catalyst is prepared from nickel oxide nanoparticles by a facile method. Calcination of as-synthesized core-shell nanoparticles creates a micro/meso-porous structure in the amorphous silica shell. The catalytic performance of core-shell catalyst toward dry reforming of methane was first evaluated in a thermogravimeter coupled with a mass spectrometer. Coking is negligible in a reforming period of 40h on stream at 850°C, while more than 0.32gcokegcat-1 is produced on a commercial Ni-based reforming catalyst in 6.4h at the same reforming condition. Dry reforming was also performed in a continuous flow, fixed-bed reactor at 750°C. Characterization of spent catalyst further confirms that Ni at SiO2 catalyst has high coke-resistance for dry reforming. The amount of coke deposited on the core-shell catalyst in 24.5h is 0.012gcokegcat-1.

KW - Carbon dioxide

KW - Coke-resistance

KW - Core-shell catalyst

KW - Dry reforming of methane

KW - Nickel oxide nanoparticles

UR - https://www.scopus.com/pages/publications/84928253240

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DO - 10.1016/j.apcatb.2015.04.039

M3 - 文章

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SN - 0926-3373

VL - 176-177

SP - 513

EP - 521

JO - Applied Catalysis B: Environmental

JF - Applied Catalysis B: Environmental

ER -

Coke-resistant Ni at SiO₂ catalyst for dry reforming of methane

Abstract

Keywords

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