M
Mehran Rezaei
Researcher at Iran University of Science and Technology
Publications - 239
Citations - 8277
Mehran Rezaei is an academic researcher from Iran University of Science and Technology. The author has contributed to research in topics: Catalysis & Mesoporous material. The author has an hindex of 44, co-authored 215 publications receiving 6275 citations. Previous affiliations of Mehran Rezaei include University of Kashan & China University of Petroleum.
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Effect of alkaline earth promoters (MgO, CaO, and BaO) on the activity and coke formation of Ni catalysts supported on nanocrystalline Al2O3 in dry reforming of methane
TL;DR: In this paper, the authors used Ni/Al2O3 promoted catalysts with alkaline earth metal oxides (MgO, CaO, and BaO) in dry reforming of methane (DRM).
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Preparation of highly active nickel catalysts supported on mesoporous nanocrystalline γ-Al2O3 for CO2 methanation
TL;DR: In this paper, a group of Ni catalysts supported on mesoporous nanocrystalline γ-Al2O3 with high surface area and with different Ni contents was prepared and employed in carbon dioxide methanation reaction.
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CO2 reforming of CH4 over nanocrystalline zirconia-supported nickel catalysts
TL;DR: Mesoporous nanocrystalline zirconia with high surface area and pure tetragonal crystalline phase has been prepared by the surfactant-assisted route, using Pluronic P123 block copolymer surfactants as discussed by the authors.
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Combined dry reforming and partial oxidation of methane to synthesis gas on noble metal catalysts
TL;DR: In this paper, the results revealed that the Rh and Ru catalysts showed the highest activity in combined reforming and both the dry reforming and partial oxidation of methane, while the H 2 /CO ratio was around 2 and 0.7 over different catalysts for catalytic partial oxidation and dry reforming.
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Methane decomposition over Ni–Fe/Al2O3 catalysts for production of COx-free hydrogen and carbon nanofiber
TL;DR: In this article, the catalytic behavior of iron promoted nickel catalysts supported on nanocrystalline gamma alumina was investigated for the simultaneous production of CO x -free hydrogen and carbon nanofibers via methane thermocatalytic decomposition.