Dossier: Methodology for Process Development at IFP Energies nouvelles
Open Access
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 71, Number 3, May–June 2016
Dossier: Methodology for Process Development at IFP Energies nouvelles
Article Number 41
Number of page(s) 18
Published online 06 June 2016
  • Ginestra J.C., Jackson R. (1985) Pinning of a bed of particles in a vertical channel by a cross flow of gas, Industrial & Engineering Chemistry Fundamentals 24, 2, 121–128. [CrossRef]
  • Pilcher K.A., Bridgwater J. (1990) Pinning in a rectangular moving bed reactor with gas cross-flow, Chemical Engineering Science 45, 8, 2535–2542. [CrossRef]
  • Pradel F., Lanaud C., Meimon Y. (2001) Interaction between granular and gas flows: the pinning effect, Powders and Grains 585–588.
  • Chen Y.H., Zhu X.D., Wul Y.Q., Zhu Z.B. (2007) Investigation of the effect of a dividing wall in a moving bed, Chemical Engineering & Technology 30, 8, 1028–1035. [CrossRef]
  • Sanchez E., Fershneider G., Bazer-Bachi F. (2011) Device for distributing feed and recovering effluents in a radial bed catalytic reactor, US 2011/0049013.
  • Snider D.M. (2001) An incompressible three-dimensional multiphase particle in cell model for dense particle flow, Journal of Computational Physics 170, 523–549. [CrossRef]
  • Snider D.M. (2007) Three fundamental granular flow experiments and CPFD predictions, Powder Tech. 176, 36–46. [CrossRef]
  • Lanaud C. (1996) Rhéologie des lits de catalyseurs, Application aux lits mobiles, Thesis, Université Lille 1.
  • Rahmoun J. (2007) Calcul des contraintes dans un matériau granulaire ensilé : comparaison entre les approches discrètes et continues, in 18e Congrès français de mécanique, Grenoble, France, 27-31 août.
  • Bertho Y. (2003) Dynamiques d’écoulements gaz-particules en conduite verticale, Thesis, École Polytechnique.
  • Pradel F., Meimon Y. (2001) New Concept of Scallop Screens for Reactors of Refining, Oil & Gas Science and Technology 56, 6, 597–610. [CrossRef] [EDP Sciences]
  • Paschero M., Hyer M.W. (2009) Axial buckling of an orthotropic circular cylinder: Application to orthogrid concept, International Journal of Solids and Structures 46, 2151–2171. [CrossRef]
  • Sanchez E., Fershneider G., Bazer-Bachi F. (2009) Dispositif de rigidification des unités de conversion catalytique à lit radial, FR 2 948 580.
  • Vasiliev V.V. (1993) Mechanics of composites structures, Taylor and Francis.
  • Antos G.J., Aitani A.M. (2004) Preparation of Reforming catalysts, in Catalytic Naphtha Reforming, Antos, G.J., Aitani, A.M. (eds), Marcel Dekker, New York. [CrossRef]
  • Berry F.J., Jobson S., Zhang T., Marco J.F. (1991) In situ Characterization of Heterogeneous Catalysts by Mossbauer-Spectroscopy, Catalysis Today 9, 1-2, 137–143. [CrossRef]
  • Jahel A., Avenier P., Lacombe S., Olivier-Fourcade J., Jumas J.-C. (2010) Effect of indium in trimetallic Pt/Al2O3SnIn-Cl naphtha-reforming catalysts, Journal of Catalysis 272, 2, 275–286. [CrossRef]
  • Womes M., Le Peltier F., Morin S., Didillon B., Olivier-Fourcade J., Jumas J.-C. (2007) Study of the reaction mechanisms between Sn-(n-C4H9)4 and alumina surface sites: Application to the controlled preparation of PtSn/Al2O3 catalysts, Journal of Molecular Catalysis A: Chemical 266, 1-2, 55–64. [CrossRef]
  • Jahel A., Avenier P., Lacombe S., Olivier-Fourcade J., Jumas J.-C. (2010) Investigation by Mossbauer spectroscopy of Sn redox transformations during H2/O2 titration on Pt/Al2O3Sn-Cl and Pt/Al2O3SnIn-Cl naphtha reforming catalysts, Journal of Physics: Conference Series 217, 012045–012048. [CrossRef]
  • Jahel A., Lacombe S., Avenier P., Olivier-Fourcade J., Jumas J.-C. (2012) Mössbauer spectroscopy: an elegant tool for the active sites identification and quantification in Pt-Sn-In based naphtha reforming catalysts, Hyperfine Interaction 207, 1-3, 37–40. [CrossRef]
  • Olivier-Fourcade J., Womes M., Jumas J.-C., Le Peltier F., Morin S., Didillon B. (2004) Investigation of redox properties of different PtSn/Al2O3 catalysts, ChemPhysChem 5, 11, 1734–1744. [CrossRef] [PubMed]
  • Singh J., Nelson R.C., Vicente B.C., Scott S.L., van Bokhoven J.A. (2010) Electronic structure of alumina-supported monometallic Pt and bimetallic PtSn catalysts under hydrogen and carbon monoxide environment, Physical Chemistry Chemical Physics 12, 21, 5668–5677. [CrossRef]
  • Jahel A.N., Moizan-Basle V., Chizallet C., Raybaud P., Olivier-Fourcade J., Jumas J.-C., Avenier P., Lacombe S. (2012) Effect of Indium Doping of gamma-Alumina on the Stabilization of PtSn Alloyed Clusters Prepared by Surface Organostannic Chemistry, Journal of Physical Chemistry C 116, 18, 10073–10083. [CrossRef]
  • Hu C.H., Chizallet C., Mager-Maury C., Corral-Valero M., Sautet P., Toulhoat H., Raybaud P. (2010) Modulation of catalyst particle structure upon support hydroxylation: Ab initio insights into Pd13 and Pt13/gamma-Al2O3, Journal of Catalysis 274, 1, 99–110. [CrossRef]
  • Mager-Maury C., Chizallet C., Sautet P., Raybaud P. (2012) Platinum Nanoclusters Stabilized on gamma-Alumina by Chlorine Used As a Capping Surface Ligand: A Density Functional Theory Study, ACS Catalysis 2, 7, 1346–1357. [CrossRef]
  • Digne M., Sautet P., Raybaud P., Euzen P., Toulhoat H. (2002) Hydroxyl groups on gamma-alumina surfaces: A DFT study, Journal of Catalysis 211, 1, 1–5. [CrossRef]
  • Digne M., Sautet P., Raybaud P., Euzen P., Toulhoat H. (2004) Use of DFT to achieve a rational understanding of acid-basic properties of gamma-alumina surfaces, Journal of Catalysis 226, 1, 54–68. [CrossRef] [MathSciNet] [PubMed]
  • Digne M., Raybaud P., Sautet P., Guillaume D., Toulhoat H. (2008) Atomic scale insights on chlorinated gamma-alumina surfaces, Journal of the American Chemical Society 130, 33, 11030–11039. [CrossRef] [PubMed]
  • Krokidis X., Raybaud P., Gobichon A.E., Rebours B., Euzen P., Toulhoat H. (2001) Theoretical study of the dehydration process of boehmite to gamma-alumina, Journal of Physical Chemistry B 105, 22, 5121–5130. [CrossRef]
  • Hu C.H., Chizallet C., Toulhoat H., Raybaud P. (2009) Structural, energetic, and electronic trends in low-dimensional late-transition-metal systems, Physical Review B 79, 195416. [CrossRef]
  • Berdala J., Freund E., Lynch J.P. (1986) Environment of Platinum Atoms in a H2 PtCl6/Al2O3 Catalyst - Influence of Metal Loading and Chlorine Content, Journal de Physique 47, C-8, 269–272.
  • Lynch J. (2002) Development of structural characterisation tools for catalysts, Oil & Gas Science and Technology - Revue d’IFP Energies Nouvelles 57, 3, 281–305. [CrossRef] [EDP Sciences]
  • Mager-Maury C., Bonnard G., Chizallet C., Sautet P., Raybaud P. (2011) H2-Induced Reconstruction of Supported Pt Clusters: Metal-Support Interaction versus Surface Hydride, ChemCatChem 3, 1, 200–207. [CrossRef]
  • Ji Y.Y., van der Eerden A.M.J., Koot V., Kooyman P.J., Meeldijk J.D., Weckhuysen B.M., Koningsberger D.C. (2005) Influence of support ionicity on the hydrogen chemisorption of Pt particles dispersed in Y zeolite: consequences for Pt particle size determination using the H/M method, Journal of Catalysis 234, 2, 376–384. [CrossRef]
  • Kip B.J., Duivenvoorden F.B.M., Koningsberger D.C., Prins R. (1987) Determination of Metal-Particle Size of Highly Dispersed Rh, Ir, and Pt Catalysts by Hydrogen Chemisorption and EXAFS, Journal of Catalysis 105, 1, 26–38. [CrossRef]
  • Bus E., Miller J.T., Kropf A.J., Prins R., van Bokhoven J.A. (2006) Analysis of in situ EXAFS data of supported metal catalysts using the third and fourth cumulant, Physical Chemistry Chemical Physics 8, 27, 3248–3258. [CrossRef]
  • Ferreira-Aparicio P., Guerrero-Ruiz A., Rodriguez-Ramos I. (1997) Hydrogen adsorbed species at the metal/support interface on a Pt/Al2O3catalyst, Journal of the Chemical Society, Faraday Transactions 93, 19, 3563–3567. [CrossRef]
  • Miller J.T., Meyers B.L., Modica F.S., Lane G.S., Vaarkamp M., Koningsberger D.C. (1993) Hydrogen Temperature-Programmed Desorption (H2 TPD) of Supported Platinum Catalysts, Journal of Catalysis 143, 2, 395–408. [CrossRef]
  • Raybaud P., Chizallet C., Toulhoat H., Sautet P. (2012) Comment on “Electronic properties and charge transfer phenomena in Pt nanoparticles on gamma-Al2O3: size, shape, support, and adsorbate effects” by F. Behafarid et al., Phys. Chem. Chem. Phys., 2012, 14, 11766-11779, Physical Chemistry Chemical Physics 14, 48, 16773–16774.
  • Sanchez S.I., Menard L.D., Bram A., Kang J.H., Small M.W., Nuzzo R.G., Frenkel A.I. (2009) The Emergence of Nonbulk Properties in Supported Metal Clusters: Negative Thermal Expansion and Atomic Disorder in Pt Nanoclusters Supported on Gamma-Al2O3, Journal of the American Chemical Society 131, 20, 7040–7054. [CrossRef] [PubMed]
  • Gorczyca A., Moizan V., Chizallet C., Proux O., Del Net W., Lahera E., Hazemann J.L., Raybaud P., Joly Y. (2014) Monitoring Morphology and Hydrogen Coverage of Nanometric Pt/γ-Al2O3 Particles by In Situ HERFD–XANES and Quantum Simulations, Angewandte Chemie, International Edition 46, 53, 12426–12429.
  • Raybaud P., Chizallet C., Mager-Maury C., Digne M., Toulhoat H., Sautet P. (2013) From gamma-alumina to supported platinum nanoclusters in reforming conditions: 10 years of DFT modeling and beyond, Journal of Catalysis 308, 1, 328–340. [CrossRef]
  • Abolhamd G. (1980) Étude de l’influence de la modification de la fonction métallique sur l’activité deshydrocyclisante d’un catalyseur de reformage platine sur alumine, Thesis, Université Paris VI.
  • Bond G.C., Cunningham R.H. (1997) Alkane transformations on supported platinum catalysts. 4. Kinetics of hydrogenolysis of ethane, propane, and n-butane on Pt/Al2O3 (EUROPT-3) and PtRe/Al2O3 (EUROPT-4), Journal of Catalysis 166, 2, 172–185. [CrossRef]
  • Bond G.C. (1999) Kinetics of alkane reactions on metal catalysts: activation energies and the compensation effect, Catalysis Today 49, 1-3, 41–48. [CrossRef]
  • Franck J.P. (1984) Fundamental and industrial aspects of catalysis by metals, Imelik B., Martin G.A., Renouprez A.J. (eds), Édition du CNRS, Paris.
  • Le-Goff P.-Y., Lopez J., Ross J. (2012) Redefining reforming catalyst performance: High selectivity and stability, Hydrocarbon processing 47–52
  • Beltramini J.N., Martinelli E.E., Churin E.J., Figoli N.S., Parera J.M. (1983) Pt/Al2O3-Cl in pure hydrocarbon reforming, Applied catalysis 7, 43–55. [CrossRef]
  • Alhumaidan F., Cresswell D., Garforth A. (2010) Long-Term Deactivation of Supported Pt catalysts in the Dehydrogenation of Methylcyclohexane to Toluene, Industrial & Engineering Chemistry Research 49, 9764–9770. [CrossRef]
  • Mazzieri V.A., Grau J.M., Vera C.R., Yori J.C., Parera J.M., Pieck C.L. (2005) Pt-Re-Sn/Al2O3 trimetallic catalysts for naphtha reforming processes without presulfiding step, Applied Catalysis A: General 296, 216–221. [CrossRef]

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