Open Chemistry (Jun 2021)

Ni–Ru-containing mixed oxide-based composites as precursors for ethanol steam reforming catalysts: Effect of the synthesis methods on the structural and catalytic properties

  • Naurzkulova Symbat Muratbekovna,
  • Arapova Marina Vasilievna,
  • Ishchenko Arcady Vladimirovich,
  • Krieger Tamara Andreevna,
  • Saraev Andrei Aleksandrovich,
  • Kaichev Vasilii Vasilievich,
  • Rogov Vladimir Alekseevich,
  • Krasnov Aleksei Vyacheslavovich,
  • Massalimova Bakytgul Kabykenovna,
  • Sadykov Vladislav Aleksandrovich

DOI
https://doi.org/10.1515/chem-2021-0062
Journal volume & issue
Vol. 19, no. 1
pp. 696 – 708

Abstract

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Ethanol steam reforming catalyst’s precursors, i.e., nanocomposites of complex oxides with the general formula [Pr0.15Sm0.15Ce0.35Zr0.35O2 + LaMn0.45Ni0.45Ru0.1O3] (1:1 by mass), were synthesized by three different methods. It was shown that two synthesis methods – ultrasonic dispersion and sequential polymeric method, lead to the formation of the nanocomposite perovskite–fluorite system with the specific surface area up to 50 m2/g. Reduction of samples at 400–500°C lead to the formation of Ni–Ru alloy nanoparticles strongly bound with the surface of oxide nanocomposite. Catalytic tests in ethanol steam reforming reaction at 500–600°C showed the highest specific activity of the sample prepared by the sequential polymeric method due to the location of Ni- and Ru-containing perovskite mainly on the surface of the composite providing a high concentration of active metal centers. At higher temperatures for all samples, ethanol conversion approached 100% with hydrogen yield varying in the range of 65–75%. A study of spent catalysts confirmed the absence of carbon deposits after long-term catalytic tests at 650°C.

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