Improved catalytic activity under internal reforming solid oxide fuel cell over new rhodium-doped perovskite catalyst

The catalytic partial oxidation of methane is evaluated over a Rh (2–15 mol%)-doped Sr0.92Y0.08TiO3-δ (SYT) perovskite-based catalyst prepared by the Pechini method for fuel-cell applications. The Rh dopant replaces titanium in the SYT catalyst, resulting in a catalyst with excellent and stable cata...

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Published inJournal of power sources Vol. 423; pp. 305 - 315
Main Authors Kim, Ghun Sik, Lee, Byung Yong, Accardo, Grazia, Ham, Hyung Chul, Moon, Jooho, Yoon, Sung Pil
Format Journal Article
LanguageEnglish
Published Elsevier B.V 31.05.2019
Subjects
CPOM (catalytic partial oxidation of methane)
DIR (direct internal reforming) catalyst
Pechini method
Perovskite catalyst
Rh-doped Sr0.92Y0.08TiO3-δ (SYT)
SOFC (solid oxide fuel cell)
Synthesis gas
Perovskite catalyst
CPOM (catalytic partial oxidation of methane)
Pechini method
Synthesis gas
Rh-doped Sr0.92Y0.08TiO3-δ (SYT)
DIR (direct internal reforming) catalyst
SOFC (solid oxide fuel cell)
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Abstract The catalytic partial oxidation of methane is evaluated over a Rh (2–15 mol%)-doped Sr0.92Y0.08TiO3-δ (SYT) perovskite-based catalyst prepared by the Pechini method for fuel-cell applications. The Rh dopant replaces titanium in the SYT catalyst, resulting in a catalyst with excellent and stable catalytic performance during thermal cycling in the temperature range 600–900 °C and in long-term stability tests at 750 °C for 130 h, without deactivation due to carbon coking or sintering. A systematic round-robin characterization is carried out by X-ray diffraction, transmission electron microscopy, X-ray photoelectron spectroscopy, and CO chemisorption to establish the chemical and physical properties of the catalyst. Adding Rh as a dopant in the catalyst significantly promotes the catalytic activity due to the presence of exsoluted rhodium particles on the catalyst surface. Small particles (2–5 nm) of Rh on the SYT surface are observed to be evenly dispersed, without agglomeration, and the turnover frequency (TOF) of the POM reaction increased. In the long-term stability tests, catalysts are tested in direct internal reforming at an SOFC anode, achieving high methane conversion (∼99%) in both dry and wet conditions. [Display omitted] •The Rh-exsolution generates catalytic activity for dry reforming of methane.•TEM shows that Rhodium nanoparticles are exsoluted at the surface.•During POM reaction phenomena of deactivation due to carbon coking are absent.•The catalytic activity of SYTRh2 catalyst under dry reforming of methane is studied.
AbstractList The catalytic partial oxidation of methane is evaluated over a Rh (2–15 mol%)-doped Sr0.92Y0.08TiO3-δ (SYT) perovskite-based catalyst prepared by the Pechini method for fuel-cell applications. The Rh dopant replaces titanium in the SYT catalyst, resulting in a catalyst with excellent and stable catalytic performance during thermal cycling in the temperature range 600–900 °C and in long-term stability tests at 750 °C for 130 h, without deactivation due to carbon coking or sintering. A systematic round-robin characterization is carried out by X-ray diffraction, transmission electron microscopy, X-ray photoelectron spectroscopy, and CO chemisorption to establish the chemical and physical properties of the catalyst. Adding Rh as a dopant in the catalyst significantly promotes the catalytic activity due to the presence of exsoluted rhodium particles on the catalyst surface. Small particles (2–5 nm) of Rh on the SYT surface are observed to be evenly dispersed, without agglomeration, and the turnover frequency (TOF) of the POM reaction increased. In the long-term stability tests, catalysts are tested in direct internal reforming at an SOFC anode, achieving high methane conversion (∼99%) in both dry and wet conditions. [Display omitted] •The Rh-exsolution generates catalytic activity for dry reforming of methane.•TEM shows that Rhodium nanoparticles are exsoluted at the surface.•During POM reaction phenomena of deactivation due to carbon coking are absent.•The catalytic activity of SYTRh2 catalyst under dry reforming of methane is studied.
Author Yoon, Sung Pil
Ham, Hyung Chul
Lee, Byung Yong
Accardo, Grazia
Kim, Ghun Sik
Moon, Jooho
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Keywords Perovskite catalyst
CPOM (catalytic partial oxidation of methane)
Pechini method
Synthesis gas
Rh-doped Sr0.92Y0.08TiO3-δ (SYT)
DIR (direct internal reforming) catalyst
SOFC (solid oxide fuel cell)
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Snippet The catalytic partial oxidation of methane is evaluated over a Rh (2–15 mol%)-doped Sr0.92Y0.08TiO3-δ (SYT) perovskite-based catalyst prepared by the Pechini...
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SubjectTerms CPOM (catalytic partial oxidation of methane)
DIR (direct internal reforming) catalyst
Pechini method
Perovskite catalyst
Rh-doped Sr0.92Y0.08TiO3-δ (SYT)
SOFC (solid oxide fuel cell)
Synthesis gas
Title Improved catalytic activity under internal reforming solid oxide fuel cell over new rhodium-doped perovskite catalyst
URI https://dx.doi.org/10.1016/j.jpowsour.2019.03.082
Volume 423
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