Abstract
This work presents, for the first time, the comparative physicochemical and reactivity studies of a range of bimetallic Pt-Ni, Pd-Ni, Ru-Ni, and Ag-Ni catalysts in the oxy-steam reforming (OSR) of liquefied natural gas (LNG) reaction towards hydrogen generation. In order to achieve the intended purpose of this work, a binary oxide CeO2·ZrO2 (1:2) support was prepared via a co-precipitation method. The catalysts’ physicochemical properties were studied using X-ray diffraction (XRD), BET, TPR-H2, TPD-NH3, SEM-EDS and XPS methods. The highest activity in the studied process was exhibited by the 1%Pt-5%Ni catalyst supported on CeO2·ZrO2 (1:2) system. The highest activity of this system is explained by the specific interactions occurring between the components of the active phase and between the components of the active phase and the carrier itself. The activity results showed that this catalytic system exhibited above 71% of the methane conversion at 600 °C and 60% yield of hydrogen formation. The results of this work demonstrate that the Pt-Ni and Ru-Ni catalytic systems hold promise to be applied in the production of hydrogen to power solid oxide fuel cells.
Highlights
IntroductionHydrogen can be produced from fossil fuels (natural gas, petroleum and coal) and by water electrolysis
The catalytic activity measurements were performed in an oxy-steam reforming of liquefied natural gas reaction (OSR-LNG)
Novel bimetallic Pd-Ni, Pt-Ni, Ag-Ni or Ru-Ni catalysts supported on CeO2 ·ZrO2 (1:2) binary oxide support were prepared via an impregnation method and tested for the first time in the process of oxygen-steam reforming of LNG for hydrogen production
Summary
Hydrogen can be produced from fossil fuels (natural gas, petroleum and coal) and by water electrolysis. The technology based on the steam reforming of methane has proven to be suitable for industrial hydrogen production. Liquefied natural gas (LNG) has many advantages. The constantly expanding pipe infrastructure provides favourable conditions for the future LNG distribution and effective use in hydrogen production [13,14]. Nickel catalysts are widely used in the reforming of liquefied natural gas (LNG) [8,12,13,14,15,16,17,18]. The use of nickel catalysts requires a high reaction temperature and an excess of steam to prevent the formation of carbon deposits during the reforming
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