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Theoretical Study of Sulfur-containing Compounds Adsorption on Transition Metals (V, Ni, Co, Fe) Doped NbS2 Surface for Hydrodesulfurization Reaction


Paper Type 
 Contributed Paper
Title 
 Theoretical Study of Sulfur-containing Compounds Adsorption on Transition Metals (V, Ni, Co, Fe) Doped NbS2 Surface for Hydrodesulfurization Reaction
Author 
 Suparada Kamchompoo, Tanabat Mudchimo, Yutthana Wongnongwa, Manaschai Kunaseth and Siriporn Jungsuttiwong
Email 
 manaschai@nanotec.or.th, siriporn.j@ubu.ac.th
Abstract:
 The HDS reaction is one of the most important hydrotreating processes in petroleum refineries
that use for removal of sulfur (S) compound from the crude oil. In this work, the adsorption of
thiophene (C4H4S), benzothiophene (C8H6S), and hydrogen sulfide (H2S) on pure and transition metals
(V, Ni, Co, Fe) doped niobium sulfide (NbS2) surface were investigated by density functional theory
(DFT) calculations to further investigate the HDS reaction mechanism of S-containing compounds
on this surface. The results show that in all case, the H2S, C4H4S and C8H6S preferred to adsorb on
the metal edge sites (M-edge) of V doped NbS2 (V/NbS2) surface with adsorption energies (Eads) of
-0.80, -0.79 and -1.38 eV, respectively. It was found that the C8H6S shows strongest adsorption energy
because it exhibits significantly stronger π-interaction between C8H6S and V/NbS2 surface, compared
to others. The understanding gained in the current study might be helpful in the development of active
catalysts for the HDS reaction of S-containing compounds in petroleum oil production.
Start & End Page 
 195 - 206
Received Date 
 2019-08-15
Revised Date 
Accepted Date 
 2019-10-20
Full Text 
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Keyword 
 hydrodesulfurization, transition metals doped niobium sulfide surface, S-containing compounds, hydrotreating processes
Volume 
 Vol.47 No.1 (January 2020)
DOI 
Citation 
 Kamchompoo S., Mudchimo T., Wongnongwa Y., Kunaseth M. and Jungsuttiwong S., Theoretical Study of Sulfur-containing Compounds Adsorption on Transition Metals (V, Ni, Co, Fe) Doped NbS2 Surface for Hydrodesulfurization Reaction, Chiang Mai J. Sci., 2020; 47(1): 195-206.
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