۱ | Co@Ru nanoparticle with core-shell structure supported over γ-Al2O3 for Fischer-Tropsch synthesis | Ali Haghtalab, Amir Mosayebi | International Journal of Hydrogen Energy | 2014 |
۲ | Combined steam and CO2 reforming of methane (CSCRM) over Ni–Pd/Al2O3 catalyst for syngas formation | Danial Batebi-Reza Abedini-Amir Mosayebi | International Journal of Hydrogen Energy | 2020-05-21 |
۳ | Combined steam and dry reforming of methanol over Fe‐Mn‐Cu/ZrO2 catalyst to syngas formation: Study about kinetic and fuzzy model approaches | Amir Mosayebi -Mohammad Hosein Eghbal Ahmadi | International Journal of Energy Research | 2021/4/8 |
۴ | Combined steam and dry reforming of methanol over Ni-M/Ce-Al2O3 (M=Fe, Cu, and Zn) catalysts to syngas formation | Amir Mosayebi; Mohammad Hosein Eghbal Ahmadi; Mohammad Hamidizirasefi | International journal of Hydrogen Energy | 2023-5-24 |
۵ | Combined steam and dry reforming of methanol process to syngas formation: Kinetic modeling and thermodynamic equilibrium analysis | Amir Mosayebi; Mohammad Hosein Eghbal Ahmadi | Energy | 202-9-1 |
۶ | Detailed kinetic study of Fischer e Tropsch synthesis for gasoline production over Co-Ni/HZSM-5 nano-structure catalyst | Amir Mosayebi, Reza Abedini | i n t e r n a t i o n a l journal o f hydrogen energy | 2/11/2017 |
۷ | Determination of petroleum property using artificial intelligence tools | Reza Abedini, Amir Mosayebi | Journal of Petroleum and Gas Engineering | 2013 |
۸ | Effect of ethoxylated nonyl phenols on viscosity of crude oil | Amir Mosayebi, Mahmoud Torabi Angaji, Parissa Khad | Energy Sources, Part A | 2016 |
۹ | Effect of synthesis solution pH of Co/γ-Al2O3 catalyst on its catalytic properties for methane conversion to syngas | Amir Mosayebi, Reza Abedini | Journal of Fuel Chemistry and Technology | 2018/3/19 |
۱۰ | Effect of temperature on interfacial tension between crude oil and ethoxylated nonyl phenols | Amir Mosayebi, Mahmoud Torabi Angaji, Parissa Khad | Petroleum Science and Technology | 2016 |
۱۱ | Evaluation and modeling of Fischer-Tropsch synthesis in presence of a Co/ZrO2 catalyst | A Mosayebi, M Nasabi, R Abedini | Petroleum Science and Technology | 2019-10-1 |
۱۲ | Experimental and kinetic modeling of Fischer–Tropsch synthesis over nano structure catalyst of Co–Ru/carbon nanotube | Ali Haghtalab, Jafar Shariati, Amir Mosayebi | Reaction Kinetics, Mechanisms and Catalysis | 2019-1-30 |
۱۳ | Fischer – Tropsch synthesis over Co-Ni/Al2O3 catalyst: Comparison between comprehensive kinetic modeling, Artificial Neural Network, and a novel hybrid GA-Fuzzy models | Mohammah Hosein Eghbal Ahmadi, Amir Mosayebi | Journal Of The Taiwan Institute Of Chemical Engineers | 2021/8/5 |
۱۴ | Fischer–Tropsch synthesis using Co and Co-Ru bifunctional nanocatalyst supported on carbon nanotube prepared via chemical reduction method | Jafar Shariati, Ali Haghtalab, Amir Mosayebi | Journal of Energy Chemistry | 10/01/2019 |
۱۵ | High nitrate removal by ZnO/AgI nanophotocatalyst using graphene-based compounds | M Malmir, A Mosayebi, M Sheikhpour | DESALINATION AND WATER TREATMENT | 2019-10-1 |
۱۶ | Improved CO2 separation of azide cross-linked PMP mixed matrix membrane embedded by nano-CuBTC metal organic framework | Reza Abedini, Amir Mosayebi, Mania Mokhtari | Process Safety and Environmental Protection | 2018/2/1 |
۱۷ | Investigating the Influence of Operating Conditions on the Combined Steam and Carbon Dioxide Reforming of Methane Performance in the Presence of Ni/ZrO2 Catalyst | Amir Mosayebi | Iranian Journal of Chemistry and Chemical Engineering (IJCCE) | 2022-8-20 |
۱۸ | INVESTIGATION OF MEMBRANE TECHNOLOGY IN GAS SEPARATION PROCESS | Reza Abedini, Amir Mosayebi | Advances in Sustainable Petroleum Engineering Science | 2011 |
۱۹ | Kinetic modeling and experimental investigations of dry reforming of methanol over a Cr-Mo-Mn/SiO 2 catalyst | Amir Mosayebi | Research on Chemical Intermediates | 2021-4-3 |
۲۰ | Kinetic modeling of catalytic partial oxidation of methane over Ni-Rh/γ-Al2O3 catalyst for syngas formation | Amir Mosayebi | Journal of the Taiwan Institute of Chemical Engineers | 2020-9-25 |