Assist. Prof. Dr atieh ranjbar, Tafresh University, Iran
Assist. Prof. Dr. Atieh Ranjbar 🎓 is a chemical engineer specializing in nanocatalysts and CO2 conversion 🌱. She earned her Ph.D. in Chemical Engineering from the University of Isfahan (2020) and her M.Sc. from the University of Kashan 🏫. Her research focuses on reverse water gas shift (RWGS) and reforming reactions 🔬. Dr. Ranjbar has published extensively and presented at international conferences 🌍. She teaches reactor design, thermodynamics, and nanotechnology 📚. A recognized exceptional talent, she ranked 3rd in her Ph.D. program 🏅. Her interests include nanotechnology, heterogeneous catalysts, and lithium-ion batteries 🔋.
Publication Profile
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Education
Assist. Prof. Dr. Atieh Ranjbar holds a Ph.D. in Chemical Engineering 🎓 from the University of Isfahan (2012-2020, GPA: 18.12/20), where her research focused on Ni-based nano-catalysts in reverse water gas shift reactions ⚗️. She earned her M.Sc. from the University of Kashan (2008-2011, GPA: 18.91/20), investigating the effect of Al2O3 to CaO ratios on nickel catalysts for dry reforming 🌡️. Dr. Ranjbar completed her B.Sc. in Chemical Engineering at the same university (2004-2008, GPA: 16.24/20). Her expertise lies in catalysis, nanomaterials, and advanced chemical processes, contributing significantly to the field of chemical engineering 🔬.
Experience
Assoc. Prof. Dr.atieh ranjbar is a distinguished chemical engineer specializing in fluid mechanics, heat transfer, and thermodynamics 🌡️📊. He teaches at Tafresh University and lectures at Qom and Hormozgan universities. His Ph.D. focused on Ni-promoted nanocatalysts for CO2 conversion into valuable chemicals 🌱⚙️. His research enhances CO2 recycling efficiency through nanocatalysts, boosting RWGS reaction performance. He also worked on hydrophilic nano LiMn2O4 for lithium-ion batteries 🔋 and nanocrystalline calcium aluminates for syngas production. Dr. Irankhah’s passion for innovation and teaching drives his contributions to advanced reactor design and chemical engineering education 🚀📚.
Honors and Awards
Assoc. Prof. Dr atieh ranjbar is a distinguished academic, ranked 3rd in his Ph.D. program among 10 candidates 🎓. In 2012, he was recognized as an exceptional talent and accepted as a Ph.D. candidate at the University of Isfahan 🏛️. He also achieved 3rd place in his M.Sc. program among 15 students, showcasing his dedication to excellence 📚. In 2008, he was acknowledged as an exceptional talent among 60 students and accepted into the M.Sc. program at the University of Kashan 🌟. His academic journey reflects perseverance, talent, and a passion for higher education.
Presentations
Assoc. Prof. Dr atieh ranjbar has made significant contributions to chemical engineering through various oral and poster presentations 🎓🧪. He has presented at prestigious events like the International Chemical Engineering Congress (IChEC), discussing topics such as Ni-Fe catalysts on nano-Al2O3 for reverse water gas shift reactions (2018) and heat transfer in non-Newtonian fluids (2014) 🌡️🔬. His poster presentations at the National Applied Chemistry Congress (2019) explored Ni nanocatalysts and K-promoted alumina catalysts in key catalytic reactions ⚙️. His work emphasizes methane reforming, calcium aluminates, and nanocatalysts, reflecting his expertise in advanced materials and chemical processes 🌍🔥.
Research Focus
Assoc. Prof. Dr atieh ranjbar research focuses on developing advanced nickel-based catalysts for methane reforming and CO2 utilization 🔬🌱. His work explores catalyst support materials like nanocrystalline MgO, CaO, and Al2O3 to enhance efficiency in processes like dry reforming and the reverse water-gas shift reaction ⚙️🔥. By synthesizing catalysts with high surface areas and unique morphologies, he contributes to cleaner energy solutions and CO2 mitigation 🌍♻️. His studies also investigate the role of rare earth and alkali metals in boosting catalytic performance, reflecting a dedication to sustainable hydrogen production and greenhouse gas reduction 🚀🌐.
Publication Top Notes
Preparation of nickel catalysts supported on CaO. 2Al2O3 for methane reforming with carbon dioxide
Autothermal reforming of methane over Ni catalysts supported on nanocrystalline MgO with high surface area and plated-like shape
Reverse water gas shift reaction and CO2 mitigation: nanocrystalline MgO as a support for nickel based catalysts
Dry reforming reaction over nickel catalysts supported on nanocrystalline calcium aluminates with different CaO/Al2O3 ratios
Low temperature synthesis of nanocrystalline calcium aluminate compounds with surfactant-assisted precipitation method
Catalytic activity of rare earth and alkali metal promoted (Ce, La, Mg, K) Ni/Al2O3 nanocatalysts in reverse water gas shift reaction
Effect of MgO/Al2O3 ratio in the support of mesoporous Ni/MgO–Al2O3 catalysts for CO2 utilization via reverse water gas shift reaction