Yoyoto Takase scite author profile

Yoyoto Takase

2Publications

25Citation Statements Received

17Citation Statements Given

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Kyushu University

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Changes in Desulfurization Reactivity of 4,6-Dimethyldibenzothiophene by Skeletal Isomerization Using a Ni-Supported Y-Type Zeolite

et al. 2000

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Skeletal isomerization of 4,6-dimethyldibenzothiophene (4,6-DMDBT) was performed at 270 °C for 1 h at a hydrogen pressure of 2.5 MPa using a Ni-supported Y-type zeolite catalyst. Alkyldibenzothiophenes (alkyl-DBTs), which were produced by methylmigration and transalkylation, were further desulfurized at 255−300 °C for 2−120 min at a hydrogen pressure of 2.5 MPa using a CoMo/Al2O3 catalyst. The produced alkyl-DBTs, which carried 1−3 methyl groups, could be classified into three groups on the basis of activation energy for desulfurization. Group I included 2,8-DMDBT and C1-DBT, which carried no methyl groups at either the 4- or 6-position. Group III included unreacted 4,6-DMDBT, and group II contained other alkyl-DBTs with 1−3 methyl groups. No alkyl-DBTs with 4 methyl groups were found in the products of 4,6-DMDBT. The steric hindrance of the methyl groups on 4,6-DMDBT was relieved by methylmigration and transalkylation, and, as a result, the desulfurization activation energy, 37.2 kcal/mol, for 4,6-DMDBT was decreased to 24−33 kcal/mol for alkyl-DBTs in group II and to 23 kcal/mol for alkyl-DBTs in group I. Desulfurization reactivity of the alkyl-DBTs was also examined on the basis of molecular orbital calculation using the WinMOPAC program. The cross sectional area of the Sσn orbital on the sulfur atom, which was in contact with the catalyst surface, was 0.12 nm2 for 4,6-DMDBT, 0.70 nm2 for 4-MDBT, and 1.27 nm2 for DBT. Thus the desulfurization reactivity increases with increasing overlapping area of the Sσn orbital with the catalyst active site. A wider cross sectional area was achieved by migration of methyl groups using the zeolite catalyst.

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Deep Desulfurization of Refractory Sulfur Species in Gas Oil Using Skeletal Isomerization Reaction over Zeolite Catalyst (Part1) Quantum Chemical Analysis of Desulfurization Reactivity of Alkyldibenzothiophenes.

et al. 1998

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Yoyoto Takase

Changes in Desulfurization Reactivity of 4,6-Dimethyldibenzothiophene by Skeletal Isomerization Using a Ni-Supported Y-Type Zeolite

Deep Desulfurization of Refractory Sulfur Species in Gas Oil Using Skeletal Isomerization Reaction over Zeolite Catalyst (Part1) Quantum Chemical Analysis of Desulfurization Reactivity of Alkyldibenzothiophenes.

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