Enhanced catalytic activity on Co/SiO2 via hydrogenation–carburization–hydrogenation reduction procedure for synthetic fuel production

Nothando C. Shiba; Xinying Liu; Diane Hildebrandt; Huaping Mao; Yali Yao

Energy Reports (May 2022)

Enhanced catalytic activity on Co/SiO2 via hydrogenation–carburization–hydrogenation reduction procedure for synthetic fuel production

Nothando C. Shiba,
Xinying Liu,
Diane Hildebrandt,
Huaping Mao,
Yali Yao

Affiliations

Nothando C. Shiba: Keqiao Green Energy Materials Joint Laboratory, Zhijiang College of Zhejiang University of Technology, Shaoxing, 312030, China; Institute for Development of Energy for African Sustainability (IDEAS), University of South Africa, cnr Christiaan de Wet & Pioneer Road, Florida, Private Bag X6 Florida, 1710, South Africa
Xinying Liu: Institute for Development of Energy for African Sustainability (IDEAS), University of South Africa, cnr Christiaan de Wet & Pioneer Road, Florida, Private Bag X6 Florida, 1710, South Africa
Diane Hildebrandt: Keqiao Green Energy Materials Joint Laboratory, Zhijiang College of Zhejiang University of Technology, Shaoxing, 312030, China; Molecular Sciences Institute, School of Chemistry, University of the Witwatersrand, Johannesburg, 2050, South Africa
Huaping Mao: Yashentech Corporation, No. 68 Guanhu Road, Keqiao Economic Development Zone, Shaoxing, 312030, China
Yali Yao: Keqiao Green Energy Materials Joint Laboratory, Zhijiang College of Zhejiang University of Technology, Shaoxing, 312030, China; Institute for Development of Energy for African Sustainability (IDEAS), University of South Africa, cnr Christiaan de Wet & Pioneer Road, Florida, Private Bag X6 Florida, 1710, South Africa; Corresponding author at: Institute for Development of Energy for African Sustainability (IDEAS), University of South Africa, cnr Christiaan de Wet & Pioneer Road, Florida, Private Bag X6 Florida, 1710, South Africa.

Journal volume & issue: Vol. 8
pp. 201 – 206

Abstract

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Immobilized cobalt nanoparticles on SiO2 reduced via hydrogenation–carburization–hydrogenation (HCH) afforded a 40% higher CO conversion compared to the standard H2treatment. The HCH treatment increased the catalyst reducibility and the dispersion of Co-hcp, with a high intrinsic activity for Fischer–Tropsch synthesis (FTS), via the Co2C intermediate. It is postulated that the Co2C was responsible for the high CH4 and olefin selectivity observed over the HCH treated sample, which resulted in a detrimental effect on the selectivity of liquid fuels. Nonetheless, this is a groundbreaking contribution to future FTS catalyst design and for synthetic fuel production.

Published in Energy Reports

ISSN: 2352-4847 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: http://www.journals.elsevier.com/energy-reports/

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