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Morphology and composition of NiMoW/P-Al2O3 systems based on the modified support with varied P2O5 content

Pavel Sergeevich Solmanov 1
Pavel Sergeevich Solmanov
Nikolay Mikhailovich Maximov 1
Nikolay Mikhailovich Maximov
Natalya Nikolaevna Tomina 1
Natalya Nikolaevna Tomina
10.1016/j.mencom.2018.09.039
Published 2018-09-07
CommunicationVolume 28, Issue 5, 562-564
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Solmanov P. S. et al. Morphology and composition of NiMoW/P-Al2O3 systems based on the modified support with varied P2O5 content // Mendeleev Communications. 2018. Vol. 28. No. 5. pp. 562-564.
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Solmanov P. S., Maximov N. M., Tomina N. N., Pimerzin A. A. Morphology and composition of NiMoW/P-Al2O3 systems based on the modified support with varied P2O5 content // Mendeleev Communications. 2018. Vol. 28. No. 5. pp. 562-564.
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TY - JOUR
DO - 10.1016/j.mencom.2018.09.039
UR - https://mendcomm.colab.ws/publications/10.1016/j.mencom.2018.09.039
TI - Morphology and composition of NiMoW/P-Al2O3 systems based on the modified support with varied P2O5 content
T2 - Mendeleev Communications
AU - Solmanov, Pavel Sergeevich
AU - Maximov, Nikolay Mikhailovich
AU - Tomina, Natalya Nikolaevna
AU - Pimerzin, Andrey Alekseevich
PY - 2018
DA - 2018/09/07
PB - Mendeleev Communications
SP - 562-564
IS - 5
VL - 28
ER -
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@article{2018_Solmanov,
author = {Pavel Sergeevich Solmanov and Nikolay Mikhailovich Maximov and Natalya Nikolaevna Tomina and Andrey Alekseevich Pimerzin},
title = {Morphology and composition of NiMoW/P-Al2O3 systems based on the modified support with varied P2O5 content},
journal = {Mendeleev Communications},
year = {2018},
volume = {28},
publisher = {Mendeleev Communications},
month = {Sep},
url = {https://mendcomm.colab.ws/publications/10.1016/j.mencom.2018.09.039},
number = {5},
pages = {562--564},
doi = {10.1016/j.mencom.2018.09.039}
}
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Solmanov, Pavel Sergeevich, et al. “Morphology and composition of NiMoW/P-Al2O3 systems based on the modified support with varied P2O5 content.” Mendeleev Communications, vol. 28, no. 5, Sep. 2018, pp. 562-564. https://mendcomm.colab.ws/publications/10.1016/j.mencom.2018.09.039.

Abstract

The series of NiMoW/P-Al2O3 catalysts with varied P2O5 content in their support was synthesized and characterized in their sulfide state by the XPS and HRTEM methods. The absence of phosphorus in the structure of NiMoWS crystallites and its location only on the Al2O3 surface were indirectly confirmed. The rate constant values for the hydrodesulfurization and hydrogenation reactions were determined at 275 and 300°C, while the variation of these values was significant.

References

1.
Effect of boron addition on a MoO3/Al2O3 catalyst
Usman U., Takaki M., Kubota T., Okamoto Y.
Applied Catalysis A: General, 2005
4.
Effect of niobium on the surface properties of Nb2O5-SiO2-supported Mo catalysts
Damyanova S., Dimitrov L., Petrov L., Grange P.
Applied Surface Science, 2003
7.
Comparison of the morphology and HDS activity of ternary Co-Mo-W catalysts supported on P-modified SBA-15 and SBA-16 substrates
Huirache-Acuña R., Pawelec B., Rivera-Muñoz E., Nava R., Espino J., Fierro J.L.
Applied Catalysis B: Environmental, 2009
10.
Effect of fluorine and boron modification on the HDS, HDN and HDA activity of hydrotreating catalysts
Ding L., Zhang Z., Zheng Y., Ring Z., Chen J.
Applied Catalysis A: General, 2006
12.
Preparation and characterization of molybdenum sulfide supported on β-zeolites obtained from [Mo3S4(H2O)9]4+ precursor
Hédoire C., Cadot E., Villain F., Davidson A., Louis C., Breysse M.
Applied Catalysis A: General, 2006
13.
Mashkovsky I.S., Markov P.V., Bragina G.O., Baeva G.N., Rassolov A.V., Bukhtiyarov A.V., Prosvirin I.P., Bukhtiyarov V.I., Stakheev A.Y.
Mendeleev Communications, 2018
14.
Markov P.V., Bragina G.O., Rassolov A.V., Mashkovsky I.S., Baeva G.N., Tkachenko O.P., Yakushev I.A., Vargaftik M.N., Stakheev A.Y.
Mendeleev Communications, 2016
16.
Insight into the formation of the active phases in supported NiW hydrotreating catalysts
Hensen E.J., van der Meer Y., van Veen J.A., Niemantsverdriet J.W.
Applied Catalysis A: General, 2007
17.
Characterization and thiophene hydrodesulfurization activity of amorphous-silica–alumina-supported NiW catalysts
van der Meer Y., Hensen E.J., van Veen J.A., van der Kraan A.M.
Journal of Catalysis, 2004
18.
Effect of sulfidation temperature on the intrinsic activity of Co–MoS2 and Co–WS2 hydrodesulfurization catalysts
Okamoto Y., Kato A., Usman, Rinaldi N., Fujikawa T., Koshika H., Hiromitsu I., Kubota T.
Journal of Catalysis, 2009
19.
Deep hydrotreating of different feedstocks over a highly active Al2O3-supported NiMoW sulfide catalyst
González-Cortés S.L., Rugmini S., Xiao T., Green M.L., Rodulfo-Baechler S.M., Imbert F.E.
Applied Catalysis A: General, 2014
20.
Can Ni phosphides become viable hydroprocessing catalysts?
Soled S., Miseo S., Baumgartner J., Guzman J., Bolin T., Meyer R.
Catalysis Today, 2015
21.
Phosphorus effect on Co//Mo and Ni//Mo synergism in hydrodesulphurization catalysts
Villarroel M., Baeza P., Gracia F., Escalona N., Avila P., Gil-Llambías F.J.
Applied Catalysis A: General, 2009