Effect of cobalt modification onto a Beta zeolite for the direct catalytic decomposition of dimethyl sulfide

For the development of small-scale desulfurization processes such as fuel cell systems, catalytic decomposition of dimethyl sulfide (DMS) to H2S without H2 addition was investigated using a Co/H-Beta zeolitic catalyst, with its acidity controlled via post-synthesis modification. The protonated zeoli...

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Bibliographic Details
Published in:International journal of hydrogen energy 2023-08, Vol.48 (73), p.28367-28376
Main Authors: Oshima, Kazumasa, Kadonaga, Rina, Sugiyama, Takeharu, Kishida, Masahiro, Satokawa, Shigeo
Format: Article
Language:English
Subjects:
Catalytic decomposition
Cobalt modification
Desulfurization
Dimethyl sulfide
H-Beta zeolite
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Summary:For the development of small-scale desulfurization processes such as fuel cell systems, catalytic decomposition of dimethyl sulfide (DMS) to H2S without H2 addition was investigated using a Co/H-Beta zeolitic catalyst, with its acidity controlled via post-synthesis modification. The protonated zeolite (H-Beta) exhibited little catalytic activity at 400 °C, but Co modification significantly promoted DMS decomposition, with a high H2S yield of 50% observed. The optimum Co amount was equivalent to half of the ion-exchange capacity of the original H-Beta zeolite. While the Co/SiO2 did not display catalytic activity, and thus, the coexistence of acid and Co ion sites is necessary in DMS decomposition. The Co species were introduced at the cation sites of the zeolite, suppressing Co sulfurization, which contributed to the high catalytic activity. [Display omitted] •Co/H-Beta showed high activity for catalytic decomposition of dimethyl sulfide.•Cobalt modification onto protonated Beta zeolite promoted the decomposition.•The coexistence of acid and Co cation sites is necessary for high activity.•The introduction of Co species into the zeolite suppressed its sulfurization.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2023.04.052