Assoc. Prof. Dr Abdullah Irankhah, University of Kashan, Iran
Assoc. Prof. Dr. Abdullah Irankhah is an expert in Chemical Engineering with a focus on catalysts, reactors, and process design. He holds degrees from Ferdowsi University and Tarbiat Modares University, specializing in gas industries, process design, and Fischer-Tropsch synthesis. He has received several accolades, including third place in the 21st Khwarizmi International Festival and multiple awards for his innovative contributions. Dr. Irankhah has guided numerous industrial research projects and written influential books on fuel cells and hydrogen technologies. He is a member of various scientific associations and has published extensively on catalytic processes and hydrogen production. 🏅🔬📚⚙️
Publication Profile
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Educational Background
Assoc. Prof. Dr. Abdullah Irankhah is a distinguished chemical engineer with a B.Sc. from Ferdowsi University of Mashhad, an M.Sc. from Tarbiat Modares University, and a Ph.D. in Chemical Engineering from the same institution. His expertise lies in catalytic processes and reactor design, with a specific focus on Fischer-Tropsch synthesis and supercritical fluid processes. His research has significantly contributed to the development of more efficient catalytic methods and reactor designs. Through his academic and research work, Dr. Irankhah continues to advance the field of chemical engineering. 🔬⚙️🌱
Academic and Teaching
Assoc. Prof. Dr. Abdullah Irankhah is a distinguished educator in the field of chemical engineering, teaching advanced courses such as catalysis, reactor design, and process control. With a passion for both teaching and research, he has earned recognition for his contributions, receiving prestigious awards such as “Outstanding Researcher” and “Outstanding Educator” at Kashan University. His dedication to advancing knowledge in chemical engineering and nurturing future professionals has made a significant impact in academia. 🏆🎓⚙️💡
Research Achievements
Dr. Irankhah’s research focuses on catalytic processes, hydrogen production, and reactor design, with several notable publications in high-impact journals. His groundbreaking work on Fischer-Tropsch synthesis has provided valuable insights into catalysis, advancing the chemical engineering field. Additionally, Dr. Irankhah has made significant contributions to microreactor design, enhancing the efficiency and scalability of chemical reactions. His innovative approaches in these areas continue to shape advancements in sustainable energy and industrial processes. 🌱⚗️💡📚
Awards and Honors
Dr. Irankhah has earned numerous prestigious accolades throughout his career. He secured third place at the 21st Khwarizmi International Festival 🏆 and was awarded “Best Innovative Design” at the Car-e-Chem competition in Spain 🇪🇸. These accomplishments highlight his exceptional creativity and expertise. In addition to his awards, Dr. Irankhah is an active member of various renowned scientific organizations, contributing to the advancement of his field 🌍🔬. His achievements reflect a commitment to innovation, excellence, and continuous growth in the scientific community. 👏🌟
Research Focus
Assoc. Prof. Dr. Abdullah Irankhah’s research focuses on hydrogen energy, catalysis, and environmental chemical engineering. He investigates hydrogen generation, ethanol steam reforming, and reverse water gas shift reactions, often utilizing advanced catalysts like nickel, ceria, and magnesium-based materials. His work also explores CO2 mitigation, fuel cell technologies, and catalytic reactions for hydrogen purification. His expertise includes reaction kinetics, catalyst performance, and the development of novel materials for energy production and environmental sustainability. His contributions aim to improve energy efficiency and environmental impact, addressing key challenges in renewable energy and carbon reduction. 🔋💨🔬🌱
Publication Top Notes
Hydrogen generation using activated aluminum/water reaction
Cu, Mg and Co effect on nickel-ceria supported catalysts for ethanol steam reforming reaction
Reverse water gas shift reaction and CO2 mitigation: nanocrystalline MgO as a support for nickel based catalysts
NiFe2O4 Spinel Protection Coating for High-Temperature Solid Oxide Fuel Cell Interconnect Application
Medium‐Temperature Shift Catalysts for Hydrogen Purification in a Single‐Stage Reactor
Fischer-Tropsch reaction kinetics of cobalt catalyst in supercritical phase
Fischer‐Tropsch Synthesis Over Co‐Ru/γ‐Al2O3 Catalyst in Supercritical Media
Effect of Surfactants and Digestion Time on Nano Crystalline Cerium Oxide Characteristics Synthesized by Differential Precipitation