Assoc Prof Dr. kiana peyvandi, semnan university, Iran
Kiana Peyvandi is an Associate Professor in the Department of Chemical Engineering at Semnan University, Iran. Born on January 23, 1978, she earned her BSc from Amirkabir University (2000), MS from Mazandaran University (2005), and PhD from Tarbiat Modares University (2012). Her research focuses on thermodynamic modeling, gas hydrates, and water treatment technologies. She has held significant positions, including Vice-Chancellor for Research and Technology (2018-2023). With numerous publications in reputable journals, her work contributes to advancements in chemical engineering. ππ¬βοΈ
Publication profile
Google Scholar
Education
Assoc. Prof. Dr. Kiana Peyvandi holds a distinguished academic background in Chemical Engineering. She earned her BSc from Amirkabir University, Iran, in 2000, followed by a Master’s degree from Mazandaran University in 2005. She completed her PhD at Tarbiat Modares University in 2012, specializing in various aspects of chemical engineering, including thermodynamics and hydrate formation. Her extensive education has laid a strong foundation for her research and teaching, significantly contributing to advancements in her field. ππ¬βοΈ
Employment History
Assoc. Prof. Dr. Kiana Peyvandi has a robust employment history in the field of Chemical Engineering. She began her academic career as an Assistant Professor at Semnan University from 2013 to 2020, where she contributed significantly to teaching and research. In 2020, she advanced to the role of Associate Professor in the same faculty. Additionally, Dr. Peyvandi served as the Executive Director of the Chemical Engineering group from 2014 to 2018 and held the position of Vice-Chancellor for Research and Technology from 2018 to 2023, demonstrating her leadership and commitment to advancing engineering education. ππ§π
Research Experiences
Assoc. Prof. Dr. Kiana Peyvandi has extensive research experience in Chemical Engineering, focusing on thermodynamic modeling and experimental investigations. Her work includes studying the scaling in oil pipelines and the effects of new promoters on methane hydrate formation. She has explored the kinetics of hydrate formation in porous media and optimized the recovery of methane through eco-friendly processes. Additionally, Dr. Peyvandi has investigated surfactant solutions for drug delivery, novel applications of zeolite, and innovative methods for water harvesting from fog and humid air. Her research contributes significantly to both energy efficiency and environmental sustainability. ππ¬π§
Conclusion
Dr. Kiana Peyvandi’s combination of academic achievements, leadership experience, and innovative research makes her a highly suitable candidate for the Research for Best Researcher Award. Her work not only contributes to the advancement of chemical engineering but also addresses pressing global challenges, positioning her as a leader in her field.
Publication Top Notes
- Molecular dynamics simulation of methane hydrate formation in presence and absence of amino acid inhibitors – Cited by: 66, Year: 2018 π
- Kinetic study of amino acids inhibition potential of glycine and l-leucine on the ethane hydrate formation – Cited by: 54, Year: 2015 π§ͺ
- Electrolyte-UNIQUAC-NRF model for the correlation of the mean activity coefficient of electrolyte solutions – Cited by: 49, Year: 2009 π
- Study of biosurfactant effects on methane recovery from gas hydrate by CO2 replacement and depressurization – Cited by: 46, Year: 2020 π
- Reconsideration of the micellization theory: Promotion or inhibition of gas hydrate formation for gas storage and flow assurance applications – Cited by: 42, Year: 2022 π
- Challenges and advantages of using environmentally friendly kinetic gas hydrate inhibitors for flow assurance application: A comprehensive review – Cited by: 41, Year: 2023 π±
- Modeling the viscosity of pure imidazolium-based ionic liquids using SAFT-VR-Mie EoS – Cited by: 39, Year: 2015 π
- Renewable biosurfactants for energy-efficient storage of methane: An experimental and computational investigation – Cited by: 33, Year: 2022 π
- Role of metallic porous media and surfactant on kinetics of methane hydrate formation and capacity of gas storage – Cited by: 33, Year: 2019 βοΈ
- Modeling of volatile organic compounds removal from water by pervaporation process – Cited by: 33, Year: 2008 π°