Relationship between carbon morphology and catalyst deactivation in the catalytic decomposition of biogas using Ni, Co and Fe based catalysts

Llobet, S. de; Pinilla, J.L.; Moliner, R.; Suelves, I.

doi:10.1016/j.fuel.2014.08.031

Cited by 40 publications

(18 citation statements)

References 62 publications

(80 reference statements)

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“…The main challenge of DRM is related to the catalytic deactivation, together with side reactions such as reserve water-gas-shift reaction (RWGS). The deactivation is mostly due to coke deposition and catalyst modification (active phase and/or support) at high temperature [12][13][14][15]. Thus, much work was devoted to the development of new performing catalysts to prevent catalytic deactivation.…”

Section: Introductionmentioning

confidence: 99%

Hydroxyapatite supported bimetallic cobalt and nickel catalysts for syngas production from dry reforming of methane

Phan

Sane

Vasconcelos

et al. 2018

Applied Catalysis B: Environmental

135

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A B S T R A C T Hydroxyapatite (HAP, Ca 10 (PO 4 ) 6 (OH) 2 ) has all the criteria of a catalyst support, in particular its high thermal stability. However it is still less studied in the heterogeneous catalysis. For the first time, hydroxyapatite supported bimetallic Co-Ni catalysts were prepared and evaluated in the dry reforming of methane (DRM) process. Nanoparticles containing both nickel and cobalt were well formed on the surface of HAP by conventional impregnation methods. No modification of HAP structure was observed after metals deposition. DRM reaction was carried out at 700-750°C and around 1.6 bar, using a fixed-bed reactor which was fed with a mixture of 20%vol CH 4 , 20%vol CO 2 and 60%vol N 2 . CH 4 and CO 2 conversion reached up to 60 and 68% at 700°C, respectively, and 73 and 79% at 750°C, respectively during long reaction times of 50-160 h. Water as a by-product could be quantified along the catalytic reaction indicating the implication of reverse water-gas-shift reaction. TEM-EDX analysis of the used catalysts recovered after catalytic tests showed that coke deposition was limited and there was slight modification of metals particle size. The results obtained were very promising for the design of an efficient catalytic system for DRM process.

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Section: Introductionmentioning

confidence: 99%

Hydroxyapatite supported bimetallic cobalt and nickel catalysts for syngas production from dry reforming of methane

Phan

Sane

Vasconcelos

et al. 2018

Applied Catalysis B: Environmental

135

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“…Little information considering NCs production from biogas has been published. Besides previous works carried out by our research group [26,27,38], for the best of our knowledge, only Corthals et al [39] The suitability of the catalysts was analyzed considering activity, stability and carbon yield. Additionally, the NCs produced were characterised by different techniques (XRD, N 2 adsorption, TEM) in order to address the effect of the different catalysts characteristics on the NCs properties and morphology.…”

mentioning

confidence: 99%

Effect of the synthesis conditions of Ni/Al2O3 catalysts on the biogas decomposition to produce H2-rich gas and carbon nanofibers

Llobet

Pinilla

Moliner

et al. 2015

Applied Catalysis B: Environmental

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The utilization of biogas as carbon source for the co-production of filamentous-like materials and syngas is proposed. Catalysts with different Ni:Al molar ratios, Al 2 O 3 supports and preparation methods were synthesized. The suitability of the catalysts was analyzed considering activity, stability and carbon yield. Catalysts showed a good performance and similar results according to syngas compositions were obtained.However, some differences related to stability over time and carbon yields were detected. TPR analysis and TEM micrographs of the fresh catalysts revealed the presence of two different Ni particles: large Ni particles with low metal support interaction (MSI) that favoured the formation of encapsulating carbon and small Ni particles inserted in the Al 2 O 3 structure with a greater MSI that lead to NCs formation.Generally both kinds of Ni particles were observed in all catalysts, however their relative abundance was dramatically affected by the Al 2 O 3 employed, the preparation method and the Ni:Al molar ratio.

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“…This slight deactivation in the catalyst is due to the accumulation of nanocarbons on the surface of the catalyst which prevents the active sites from further catalytic reaction at its maximum efficiency (Ashik et al, 2015;de Llobet et al, 2015). …”

Section: Hydrogen Yieldmentioning

confidence: 99%

Methane decomposition for carbon nanotube production: Optimization of the reaction parameters using response surface methodology

Allaedini

Aminayi

Tasirin

2016

Chemical Engineering Research and Design

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Relationship between carbon morphology and catalyst deactivation in the catalytic decomposition of biogas using Ni, Co and Fe based catalysts

Cited by 40 publications

References 62 publications

Hydroxyapatite supported bimetallic cobalt and nickel catalysts for syngas production from dry reforming of methane

Hydroxyapatite supported bimetallic cobalt and nickel catalysts for syngas production from dry reforming of methane

Effect of the synthesis conditions of Ni/Al2O3 catalysts on the biogas decomposition to produce H2-rich gas and carbon nanofibers

Methane decomposition for carbon nanotube production: Optimization of the reaction parameters using response surface methodology

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