9 research outputs found

    COMPARATIVE EVALUATION OF GARDEN PEA VARIETIES OF TWO MORPHOTYPES ACCORDING TO A SET OF TRAITS IN KRASNODAR REGION

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    In 2014-15, evaluated in Krasnodar Region were the yield of green pea, net productivity of photosynthesis, productivity of a foliage surface unit as well as the economic coefficient in 16 garden pea varieties of the common leafy and leafless morphotypes. The study helped to identify leafless varieties comparable with those of the conventional morphotype accordin to the set of traits studied

    Partial oxidation of methane on Pt-supported lanthanide doped ceria-zirconia oxides: Effect of the surface/lattice oxygen mobility on catalytic performance

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    1 Sadykov, Vladislav A. Sazonova, Nathalia N. Bobin, Aleksei S. Muzykantov, Vitalii S. Gubanova, Elena L. Alikina, Galina M. Lukashevich, Anton I. Rogov, Vladimir A. Ermakova, Eugenia N. Sadovskaya, Ekaterina M. Mezentseva, Nathalia V. Zevak, Ekaterina G. Veniaminov, Sergei A. Muhler, Martin Mirodatos, Claude Schuurman, Yves van Veen, Andre C.Partial oxidation of methane into syngas at short contact times (5-15 ms) was studied in both steady-state and transient modes at temperatures up to 850 degrees C in realistic feeds (CH4 content up to 20%, CH4/O-2 = 2) with a minimum impact of mass and heat transfer for structured catalysts carrying Pt/Ln(0.3)Ce(0.35)Zr(0.35)O(2-y) (Ln = La, Pr, Gd) as thin layers on walls of corundum channel substrates. Oxygen mobility and reactivity of the active phase were characterized by oxygen isotope heteroexchange, temperature-programmed O-2 desorption and CH4 reduction, isothermal pulse reduction by methane with wide variation of CH4 concentrations and TAP pulse studies. Experimental data point towards a selective oxidation of methane into syngas via a direct route with oxygen-assisted methane activation. This mechanistic feature is related to the strong Pt-support interaction stabilizing highly dispersed oxidic Pt species less active in CH4 and syngas combustion than metallic Pt clusters. Support activates O-2 molecules and supplies active oxygen species to Pt sites. A high rate of oxygen diffusion on the surface and in the bulk of the support and Pt-support oxygen spillover stabilizes Pt in a well dispersed partially oxidized state while preventing coking at high concentrations of CH4 in the feed. (C) 2010 Elsevier B.V. All rights reserved
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