The role of ceria in promoting Ni catalysts supported on phosphate‐modified zirconia for the partial oxidation of methane

Abdulaziz A. M. Abahussain; Ahmed S. Al‐Fatesh; Dharmesh M. Vadodariya; Jehad K. Abu‐Dahrieh; Khaled M. Banabdwin; Naif Alarifi; Ahmed A. Ibrahim; Anis H. Fakeeha; Ahmed E. Abasaeed; Rawesh Kumar

doi:10.1002/ese3.1820

Energy Science & Engineering (Aug 2024)

The role of ceria in promoting Ni catalysts supported on phosphate‐modified zirconia for the partial oxidation of methane

Abdulaziz A. M. Abahussain,
Ahmed S. Al‐Fatesh,
Dharmesh M. Vadodariya,
Jehad K. Abu‐Dahrieh,
Khaled M. Banabdwin,
Naif Alarifi,
Ahmed A. Ibrahim,
Anis H. Fakeeha,
Ahmed E. Abasaeed,
Rawesh Kumar

Affiliations

Abdulaziz A. M. Abahussain: Department of Chemical Engineering, College of Engineering King Saud University Riyadh Saudi Arabia
Ahmed S. Al‐Fatesh: Department of Chemical Engineering, College of Engineering King Saud University Riyadh Saudi Arabia
Dharmesh M. Vadodariya: Department of Chemistry Indus University Ahmedabad Gujarat India
Jehad K. Abu‐Dahrieh: School of Chemistry and Chemical Engineering Queen's University Belfast Belfast UK
Khaled M. Banabdwin: Department of Chemical Engineering, College of Engineering King Saud University Riyadh Saudi Arabia
Naif Alarifi: Institute of Refining and Petrochemicals Technologies King Abdulaziz City for Science and Technology (KACST) Riyadh Saudi Arabia
Ahmed A. Ibrahim: Department of Chemical Engineering, College of Engineering King Saud University Riyadh Saudi Arabia
Anis H. Fakeeha: Department of Chemical Engineering, College of Engineering King Saud University Riyadh Saudi Arabia
Ahmed E. Abasaeed: Department of Chemical Engineering, College of Engineering King Saud University Riyadh Saudi Arabia
Rawesh Kumar: Department of Chemistry Indus University Ahmedabad Gujarat India

DOI: https://doi.org/10.1002/ese3.1820
Journal volume & issue: Vol. 12, no. 8
pp. 3379 – 3389

Abstract

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Abstract The catalytic partial oxidation of methane (POM) is aimed at the mitigation of CH4 (a highly potent greenhouse gas) from the environment and the synthesis of syngas with a high H2/CO ratio. Herein, to enhance the POM reaction, Ni‐supported phosphate‐modified‐zirconia were synthesized with promotor “Ce” to achieve high H2/CO ratio (2.4–3.2). The catalysts were characterized by surface area and porosity, X‐ray diffraction, RAMAN, temperature‐programmed experiments (TPR, CO2‐TPD, and TPO), and TEM. Increasing the ceria addition over 10Ni/PO4 + ZrO2 resulted in lower crystallinity, higher dispersion of active sites, and enhanced the surface area of catalyst. The unique and prominent reducibility and basicity of NiO‐species and surface oxide ions, respectively, are particularly notable at 4 wt.% ceria loading. At a reaction temperature of 600°C, the highest concentration of active sites and a unique concentration of moderate strength basic sites can be achieved with 4 wt.% ceria loading over 10Ni/PO4 + ZrO2. This leads to 44% conversion of CH4, 36% yield of H2, 35% yield of CO2, and H2/CO ratio of 3.16 for the POM reaction. The cyclic H2TPR‐O2TPO‐H2TPR experiment confirms the reorganization of the active site towards high temperature under oxidizing gas O2 and reducing gas H2 gas stream during the POM reaction.

Published in Energy Science & Engineering

ISSN: 2050-0505 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology; Science
Website: https://onlinelibrary.wiley.com/journal/20500505

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