Maryam Khajenoori | Chemical Engineering Award | Best Researcher Award

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Assist Prof Dr Maryam Khajenoori | Chemical Engineering Award | Best Researcher Award

Assist Prof Dr Maryam Khajenoori , Semnan University ,Iran

Maryam Khajenoori is an Assistant Professor of Chemical Engineering at Semnan University, Iran. She holds a Ph.D. and M.Sc. in Chemical Engineering from Semnan University and a B.Sc. from Isfahan University of Technology. Her research primarily focuses on separation processes, particularly the solubility of compounds in subcritical water and the synthesis of nanoparticles using green methods. Dr. Khajenoori has authored numerous research articles and co-authored a book on green extraction in separation technology. She is actively involved in teaching advanced courses in mass transfer, adsorption processes, and numerical analysis.

Publication Profile

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Education

Maryam Khajenoori earned her Ph.D. in Chemical Engineering specializing in the thermodynamic and kinetic aspects of chemical reactors design at Semnan University. She completed her M.Sc. in Chemical Engineering with a focus on separation processes, also at Semnan University. Her undergraduate studies include a B.Sc. in Chemical Engineering (Polymer Branch) from Isfahan University of Technology. Prior to her university education, she attended Dehkhoda High School in Kashan, Iran, where she completed her diploma in Mathematics and Physics.

ExperienceΒ 

Dr. Maryam Khajenoori is an accomplished Assistant Professor at Semnan University’s Faculty of Chemical, Gas, and Petroleum Engineering. Her teaching portfolio includes courses in advanced mass transfer, adsorption processes, and numerical analysis. She has supervised numerous laboratory and workshop sessions in unit operations and industrial chemistry. Dr. Khajenoori’s academic career is complemented by extensive research in areas such as air pollution control, wastewater treatment, and the extraction of valuable compounds using subcritical water techniques. Her expertise in computational tools like Matlab and Hysys supports her research in modeling and simulation.

Awards and Honors

Maryam Khajenoori has been recognized for her academic excellence throughout her career. She achieved the highest GPA among M.Sc. students at Semnan University’s Faculty of Chemical, Gas, and Petroleum Engineering and received a perfect score for her M.Sc. thesis. Her research contributions have led to accolades, including being named a superior researcher among M.S. students at Semnan University. Additionally, she ranked among the top 15% of B.Sc. students in Chemical Engineering at Isfahan University of Technology. These honors underscore her commitment to academic achievement and scholarly pursuits in chemical engineering.

Research focus

Dr. Maryam Khajenoori’s research focuses on various aspects of chemical engineering, with particular emphasis on separation processes. Her work investigates the solubility of valuable compounds, such as curcumin and pharmaceuticals, in subcritical water environments. She is also involved in the synthesis of nanoparticles using eco-friendly methods. Her contributions extend to environmental biotechnology, where she explores innovative approaches for air pollution mitigation and wastewater treatment. Dr. Khajenoori’s expertise in experimental techniques and computational modeling enhances her ability to analyze and optimize chemical processes. Her research outcomes are documented in numerous peer-reviewed publications and collaborative projects, highlighting her dedication to advancing knowledge in chemical engineering.

Publication Top Notes

Solubility of curcumin in subcritical water: Experimental data, modeling, and thermodynamic parameters πŸ“„

Determination of Solubility and Thermodynamic Parameters of Triamterene in Pure and Ethanol-Modified Subcritical Water at Various Temperatures πŸ“„

Production of pharmaceutical micro and nano particles by subcritical water based technologies: A review πŸ“„

Effect of temperature on curcumin solubility in a pressurized hot water solvent: Experimental and molecular dynamics simulation πŸ“„

Determination of amiodarone hydrochloride solubility in pure and ethanol-modified subcritical water: Experimental data and modeling πŸ“„

Experimental study and modeling of letrozole (anticancer drug) solubility in subcritical water: Production of nanoparticles using subcritical water precipitation method πŸ“„

Choong-Gon LEE | Chemical Engineering Award | Best Researcher Award

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Prof Choong-Gon LEE | Chemical Engineering Award | Best Researcher Award

Prof Choong-Gon LEE , Hanbat National University, South Korea

Professor Choong-Gon LEE, an esteemed faculty member at Hanbat National University, has a distinguished academic and professional background in chemical and electrochemical engineering. He obtained his Ph.D. in Applied Chemistry from Tohoku University, Japan, in 1997, and his M.S. (1988) and B.S. (1986) in Chemical Engineering from Yonsei University, Korea. Since 2004, Professor LEE has been dedicated to teaching and research at Hanbat National University, focusing on electrochemical engineering, fuel cells, and hydrogen production. His prolific research career includes over 60 journal publications, 4 patents, and numerous completed and ongoing research projects. Professor LEE collaborates with LowCarbon Co. on carbon dioxide recycling and is an active member of several prestigious professional societies. His contributions to the field, particularly in CO2 recycling and NaOH production through electrolysis, highlight his commitment to sustainable energy solutions and innovation in electrochemistry. πŸ’§πŸ”‹πŸŒ

Publication Profile

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Academic Background πŸŽ“

Professor Choong-Gon LEE received his Ph.D. in Applied Chemistry from Tohoku University, Japan, in 1997. Prior to this, he earned his M.S. in Chemical Engineering in 1988 and his B.S. in Chemical Engineering in 1986, both from Yonsei University, Korea.

Professional Experience πŸ‘¨β€πŸ«

Since 2004, Professor LEE has been a distinguished faculty member at Hanbat National University. In his role, he has been dedicated to teaching electrochemical engineering and conducting groundbreaking research in the field of electrochemistry. His primary focus areas include fuel cells and hydrogen production, where he has made significant contributions to the advancement of sustainable energy solutions.

 

Research Focus

Professor Choong-Gon LEE specializes in the field of electrochemical engineering, with a strong focus on sustainable energy solutions. His research encompasses the production of hydrogen (H2) and sodium hydroxide (NaOH) from alkaline solutions containing carbon dioxide (CO2) using cation exchange membranes. He also investigates the effects of temperature on electrode reactions in molten carbonate and solid oxide fuel cells, aiming to enhance their efficiency and performance. Professor LEE’s work is notable for its practical applications, such as developing methods for electrochemical hydrogen production utilizing captured CO2. His collaborative efforts with researchers and industry partners highlight his commitment to advancing electrochemical science and environmental sustainability. Through his numerous publications in high-impact journals, Professor LEE contributes significantly to the understanding and innovation in the fields of fuel cells, electrolysis, and carbon recycling. His research not only advances scientific knowledge but also addresses critical challenges in sustainable energy production. πŸŒ±πŸ”‹πŸŒ

Publication Top Notes

“Electrolytic production of NaOH and H2 from alkaline solution containing CO2 using cation exchange membranes” (2024) – 0 citations 🌱

“Effect of temperature on the electrode overpotential of molten carbonate electrolysis and fuel cells with inert-gas step addition method” (2023) – 0 citations 🌑️

“Effect of temperature on the electrode reactions in a planar solid oxide fuel cell” (2023) – 0 citations πŸ”‹

“Reaction characteristics of molten carbonate cell operated in fuel cell and electrolysis modes with reactant gas addition method” (2023) – 0 citations ⚑

“Electrochemical hydrogen production using captured CO2 in alkaline solution” (2023) – 3 citations πŸ’§

“Comparison of gas phase transport effects between fuel cell and electrolysis cell modes of a 100 cm2 class molten carbonate cell” (2022) – 2 citations πŸ”„

“Electrode reaction properties using a reactant gas addition method in a commercial 100 cm2 class solid oxide fuel cell” (2022) – 4 citations πŸ”

“Experimental analysis of internal leakage current using a 100 cm2 class planar solid oxide fuel cell” (2021) – 4 citations πŸ“ˆ

“Lifetime expectancy of molten carbonate fuel cells: Part II. Cell life simulation using bench and coin-type cells” (2021) – 3 citations ⏳

“Lifetime Expectancy of molten carbonate fuel cells: Part I. Effect of temperature on the voltage and electrolyte reduction rates” (2021) – 4 citations πŸ”₯