Iron incorporated Ni-ZrO ₂ catalysts for electric power generation from methane

On the purpose to perform as functional layer of SOFCs operating on methane fuel, NiFe-ZrO ₂ alloy catalysts have been synthesized and investigated for methane partial oxidation reactions. Ni ₄Fe ₁-ZrO ₂ shows catalytic activity comparable to that of Ni-ZrO ₂ and superior to other Fe-containing catalysts. In addition, O ₂-TPO analysis indicates iron is also prone to coke formation; as a result, most of NiFe-ZrO ₂ catalysts do not show improved coking resistance than Ni-ZrO ₂. Anyway, Ni ₄Fe ₁- ZrO ₂ (Ni:Fe = 4:1 by weight) prepared by glycine-nitrate process shows somewhat less carbon deposition than the others. However, Raman spectroscopy demonstrates that the addition of Fe does reduce the graphitization degree of the deposited carbon, suggesting the easier elimination of carbon once it is deposited over the catalyst. Ni ₄Fe ₁-ZrO ₂ has an excellent long-term stability for partial oxidation of methane reaction at 850°C. A solid oxide fuel cell with conventional nickel cermet anode and Ni ₄Fe ₁-ZrO ₂ functional layer is operated on CH ₄-O ₂ gas mixture to yield a peak power density of 1038 mW cm ^-2 at 850°C, which is comparable to that of hydrogen fuel. In summary, the Ni ₄Fe ₁-ZrO ₂ catalyst is potential catalyst as functional layer for solid-oxide fuel cells operating on methane fuel.