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Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review

Rising energy needs and the exhaustion of fossil fuels are calling for renewable fuels such as dihydrogen (H2), commonly named 'hydrogen.' Biomass treatment produces glycerol, which can be further used to generate dihydrogen or syngas. Here, actual challenges comprise the design of efficie...

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Main Authors: Bahari, M. B., Mamat, C. R., Abdul Jalil, Aishah, T., J. Siang, Hassan, N. S., Khusnun, N. F., Nabgan, W., Roslan, N. A., Z. Abidin, S., Setiabudi, H. D., N. Vo, D.-V.
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Published: Springer Science and Business Media Deutschland GmbH 2022
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TP Chemical technology
Online Access:http://eprints.utm.my/103730/
http://dx.doi.org/10.1007/s10311-022-01423-y
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spelling my.utm.1037302023-11-23T08:46:41Z http://eprints.utm.my/103730/ Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review Bahari, M. B. Mamat, C. R. Abdul Jalil, Aishah T., J. Siang Hassan, N. S. Khusnun, N. F. Nabgan, W. Roslan, N. A. Z. Abidin, S. Setiabudi, H. D. N. Vo, D.-V. TP Chemical technology Rising energy needs and the exhaustion of fossil fuels are calling for renewable fuels such as dihydrogen (H2), commonly named 'hydrogen.' Biomass treatment produces glycerol, which can be further used to generate dihydrogen or syngas. Here, actual challenges comprise the design of efficient and economically viable catalysts for attaining high hydrogen yield and minimizing coke deposition. Here, we review glycerol valorization routes for hydrogen or syngas generation, such as pyrolysis, steam reforming, aqueous phase, dry, supercritical water, partial oxidation, and autothermal reforming. We focus on cobalt-based catalysts due to their high availability, low cost, thermal stability, and coke resistance. The efficiency of cobalt-based catalysts can be improved by modifying textural properties, particle size and distribution, the strength of metal–support interaction, surface acidity and basicity, oxygen mobility, and reducibility. Such improvements have led to 100% glycerol conversion, 90% dihydrogen yield, and coke deposition of about 0.05%. Springer Science and Business Media Deutschland GmbH 2022 Article PeerReviewed Bahari, M. B. and Mamat, C. R. and Abdul Jalil, Aishah and T., J. Siang and Hassan, N. S. and Khusnun, N. F. and Nabgan, W. and Roslan, N. A. and Z. Abidin, S. and Setiabudi, H. D. and N. Vo, D.-V. (2022) Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review. Environmental Chemistry Letters, 20 (4). pp. 2361-2384. ISSN 1610-3653 http://dx.doi.org/10.1007/s10311-022-01423-y DOI : 10.1007/s10311-022-01423-y
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TP Chemical technology
spellingShingle TP Chemical technology
Bahari, M. B.
Mamat, C. R.
Abdul Jalil, Aishah
T., J. Siang
Hassan, N. S.
Khusnun, N. F.
Nabgan, W.
Roslan, N. A.
Z. Abidin, S.
Setiabudi, H. D.
N. Vo, D.-V.
Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review
description Rising energy needs and the exhaustion of fossil fuels are calling for renewable fuels such as dihydrogen (H2), commonly named 'hydrogen.' Biomass treatment produces glycerol, which can be further used to generate dihydrogen or syngas. Here, actual challenges comprise the design of efficient and economically viable catalysts for attaining high hydrogen yield and minimizing coke deposition. Here, we review glycerol valorization routes for hydrogen or syngas generation, such as pyrolysis, steam reforming, aqueous phase, dry, supercritical water, partial oxidation, and autothermal reforming. We focus on cobalt-based catalysts due to their high availability, low cost, thermal stability, and coke resistance. The efficiency of cobalt-based catalysts can be improved by modifying textural properties, particle size and distribution, the strength of metal–support interaction, surface acidity and basicity, oxygen mobility, and reducibility. Such improvements have led to 100% glycerol conversion, 90% dihydrogen yield, and coke deposition of about 0.05%.
format Article
author Bahari, M. B.
Mamat, C. R.
Abdul Jalil, Aishah
T., J. Siang
Hassan, N. S.
Khusnun, N. F.
Nabgan, W.
Roslan, N. A.
Z. Abidin, S.
Setiabudi, H. D.
N. Vo, D.-V.
author_facet Bahari, M. B.
Mamat, C. R.
Abdul Jalil, Aishah
T., J. Siang
Hassan, N. S.
Khusnun, N. F.
Nabgan, W.
Roslan, N. A.
Z. Abidin, S.
Setiabudi, H. D.
N. Vo, D.-V.
author_sort Bahari, M. B.
title Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review
title_short Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review
title_full Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review
title_fullStr Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review
title_full_unstemmed Cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review
title_sort cobalt-based catalysts for hydrogen production by thermochemical valorization of glycerol: a review
publisher Springer Science and Business Media Deutschland GmbH
publishDate 2022
url http://eprints.utm.my/103730/
http://dx.doi.org/10.1007/s10311-022-01423-y
_version_ 1783876407414226944
score 13.211508

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