| Poster no. |
Authors |
Title |
| 1 |
A. Bonduelle-Skrzypczak, C. Legens, C. Roukoss (IFP-Lyon) |
Optimal promoter edge decoration of hydrocracking catalysts: an experimental study |
| 2 |
K. Ben Tayeb, C. Lamonier, C. Lancelot, M. Fournier, E. Payen, A. Bonduelle, F. Bertoncini (Université Lille Nord de France and IFP-Lyon) |
HPA based NiW hydrocracking catalysts: effect of the increase of Ni/W ratio |
| 3 |
L. Mingfeng, L. Huifeng, N. Hong (Research Institute of Petroleum Processing SINOPEC) |
The influence of fluorine on HDS activity of tungsten-based catalysts prepared with different tungsten precursors |
| 4 |
L. Xiangyun, N. Hong, L. Qinghe (Research Institute of Petroleum Processing, SINOPEC) |
Effect of chelating agent on sulfidation of NiW/Al2O3 hydrotreating catalysts |
| 5 |
N. Hong, H. Zhihai (Research Institute of Petroleum processing, SINOPEC) |
Chemistry and practice of diesel hydro-upgrading |
| 6 |
E. A. Trusova, N. S. Trutnev, V. M. Kogan (Moscow State University of Engineering Ecology and Zelinsky Institute of Organic Chemistry) |
Application of cryoeffect to preparation of highly effective HDS catalyst from microemulsion |
| 7 |
V. M. Kogan, P. A. Nikulshin (Zelinsky Institute of Organic Chemistry, Samara State Technical University) |
The dynamic model of the active sites of the TMS catalysts |
| 8 |
X. Fang, Y. Gao (SINOPEC) |
Hydrotreating and hydrocracking technologies developed at FRIPP, SINOPEC |
| 9 |
G. Berhault, P. Afanasiev, A. Mehta, R. R. Chianelli (IRCELYON, Stanford Synchrotron Radiation Laboratory, University of Texas at El Paso) |
Using synchroton XRD to evaluatesupport effects in hydrodesulfurization |
| 10 |
G. Toussaint, C. Lorentz, C. Geantet (IRCELYON) |
Desulfurization processes of gas oil or gasoline illustrated by comprehensive 2D gas chromatography |
| 11 |
P. A. Nikulshin, A. V. Moshaev, Al. A. Pimerzin, V. V. Konovalov, A. A. Pimerzin (Samara State Technical University) |
HDS and HYD activities of the CoMo/Al2O3 catalysts prepared from Co2Mo10-heteropolycompounds and Co complexes: Influence of chelating agents |
| 12 |
A. V. Mozhaev, P. A. Nikulshin, V. V. Konovalov, Yu. V. Eremina, A. A. Pimerzin (Samara State Technical University) |
Use of Co2Mo10-heteropolycompounds for preparation of highly active CoMoS phase pf type II |
| 13 |
D. I. Ishutenko, P. P. Minaev, V. V. Konovalov, P. A. Nikulshin (Samara State Technical University) |
HDS and HYD activities of sulfide catalysts synthesized with heteropolycompounds Anderson’s structure |
| 14 |
N. M. Maximov, N. N. Tomina, Yu. Yu. Drjaglin, P. S. Solmanov, A. V. Denisov (Samara State Technical University) |
Co-Mo/Al2O3 catalysts prepared with the use of heteropolycompounds for the hydrotreating of petrol |
| 15 |
N. N. Tomina, N. M. Maximov, P. A. Nikulshin, V. V. Konovalov, A. A. Pimerzin (Samara State Technical University) |
Comparative study of HDS sulfide catalysts prepared with the use of Keggin type heteropolycompounds |
| 16 |
O. V. Klimov, K. A. Leonova, A. V. Pashigreva, M. V. Melgunov, V. I. Zaikovskii, A. S. Noskov (Boreskov Institute of Catalysis) |
The intentional synthesis of the catalyst active sites located inside the carrier pores with defined size |
| 17 |
C. Jia, T. Shi, W. Ji, Y. Chen (Nanjing University) |
Adsorptive removal of dibenzothiophene over different zeolite adsorbents doped with transition metal oxides/cations |
| 18 |
J. N. Díaz de León, E. Altamirano, M. Vrinat, J. A. de los Reyes (Universidad A. Metropolitana-Iztapalapa and CNRS Université Lyon) |
Effect of gallium as an additive in hydrodesulfurization NiWS/g-Al2O3 catalysts |
| 19 |
X. Li, J. Bai, A. Wang, R. Prins, Y. Wang (Dalian University of Technology and ETH Zürich) |
Hydrodesulfurization of dibenzothiophene and its hydrogenated intermediates over bulk Ni2P |
| 20 |
H. Wang, Y. Fan, G. Shi, H. Liu, X. Bao (China University of Petroleum) |
Phosphorus modified NiW/g-Al2O3 hydrotreating catalysts prepared by oxalic acid-assisted hydrothermal deposition method and catalytic properties |
| 21 |
H. Tominaga, M. Nagai (Tokyo University of Agriculture and Technology) |
Reaction mechanism for hydrodenitrogenation of carbazole on molybdenum nitride based on DFT study |
| 22 |
A. Cho, S. I. Lee, S. H. Moon (Seoul National University and SK Energy Corporation) |
Characterization of sonochemically synthesized Mo-sulfide and Ni-promoted Mo-sulfide catalysts: Effect of heat-treatment |
| 23 |
M. Philippe, F. Richard, D. Hudebine, S. Brunet (CNRS Université de Poitiers and IFP-Lyon) |
Impact of CO and CO2 on the deep hydrodesulfurization of dibenzothiophenic compounds over CoMoP/Al2O3 catalyst |
| 24 |
H. T. Gøbel, A. K. Tuxen, J. V. Lauritsen (Aarhus University) |
On the role of carbon in MoS2 and CoMoS cluster formation |
| 25 |
A. Travert, J. F. Paul, F. Maugé (ENSICAEN Unversité de Caen and Université de Sciences et Technologie de Lille) |
Basic properties of metallic sulfides, a combined IR and DFT study |
| 26 |
L. Kaluža, J. Sýkora, J. Karban, P. Žaček, Z. Vít, M. Zdražil (Academy of Sciences of the Czech Republic) |
Parallel hydrogenation of 1-methylcyclohexene and hydrodesulphurization of 1-benzothiophene over transition metal sulphides supported on Al2O3, TiO2 and ZrO2 |