@misc{SafdarShezadDorneanuetal., author = {Safdar, Muddasar and Shezad, Nasir and Dorneanu, Bogdan and Jafari, Mitra and Shashank Bhat, Sharvendu and Akhtar, Farid and Arellano-Garc{\´i}a, Harvey}, title = {Dry Reforming of Methane for the Syngas Production Catalyzed by Ni-doped Perovskites}, series = {15Th European Congress on Katakysis EUROPACAT2023}, journal = {15Th European Congress on Katakysis EUROPACAT2023}, abstract = {different perovskite-type supports considering ABO3 (such as A= Al, La with B=Ce and A=Mg, Mn with B=Zr) were prepared via the sol-gel method. Ni metal loading of 10 wt.\% was deposited on prepared perovskite supports via the impregnation method. The catalysts were characterized using XRD and FTIR techniques. The DRM activity was carried out in a tubular reactor as described in our previous study [5]. The catalytic performance was assessed in the temperature range of 500-700 ◦C, CH4/CO2 = 1/1 and under GHSV of 12,000 h-1. Among the prepared catalysts, Ni-doped perovskite combination (i.e. A=Mg with B=Zr)O3-δ exhibited higher (CH4, CO2) conversion ca. (69, 59) percent and syngas yield of ca. (H2/CO =0.72) at 700 oC. This indicates that the magnesium zirconate perovskite catalyst established strong interfacial metal-support interaction, redox properties and surface basic sites that linked with good performance of the catalyst during DRM process.}, language = {en} }