Kiana Peyvandi | Thermodynamics | Best Researcher Award

Assoc Prof Dr. Kiana Peyvandi | Thermodynamics | Best Researcher Award

Assoc Prof Dr. Semnan University,  Iran

Dr. K. Peyvandy is an Associate Professor of Chemical Engineering at Semnan University, Iran. Born on January 23, 1978, he has expertise in thermodynamics, gas hydrate kinetics, and water treatment technologies. With a strong academic background, Dr. Peyvandy has held several key roles at Semnan University, including Vice-Chancellor for Research and Technology. His research focuses on oil pipeline scaling, gas hydrate formation, and eco-friendly methods for methane recovery. He is a published author of numerous papers and actively contributes to innovative chemical engineering solutions.

 

Publication profile

 

🎓 Education

BSc (2000): Chemical Engineering, Amirkabir University, Iran. MS (2005): Chemical Engineering, Mazandaran University, Iran. PhD (2012): Chemical Engineering, Tarbiat Modares University, Iran

💼 Experience

Associate Professor (2020-present): Faculty of Chemical, Petroleum, and Gas Engineering, Semnan University, Iran. Assistant Professor (2013-2020): Faculty of Chemical, Petroleum, and Gas Engineering, Semnan University. Executive Director: Chemical Engineering Group (2014-2018). Vice-Chancellor for Research and Technology (2018-2023): Semnan University

🏆 Awards and Honors

Distinguished Academic Award: Recognized by Semnan University for contributions to research in chemical engineering. Outstanding Research Grant: Secured multiple grants for research on gas hydrate technology and environmental solutions. Innovative Research Recognition: For advancements in CO2 capture and methane recovery processes. Faculty Leadership Award: For his service as Vice-Chancellor for Research and Technology.

🔬 Research Focus

Gas Hydrate Kinetics: Studying the formation, decomposition, and use of gas hydrates for energy storage and environmental applications. Methane and CO2 Replacement: Developing eco-friendly promoters for methane recovery and CO2 capture in porous media. Water Treatment Solutions: Investigating new adsorbents and technologies for water harvesting and treatment. Nanotechnology in Drug Delivery: Researching the use of surfactant solutions and niosomes as carriers of drugs using gas hydrate methods.

Publication

  1. Molecular dynamics simulation of methane hydrate formation in presence and absence of amino acid inhibitors
    Authors: M Maddah, M Maddah, K Peyvandi
    Year: 2018

 

  1. Kinetic study of amino acids inhibition potential of glycine and L-leucine on the ethane hydrate formation
    Authors: SA Rad, KR Khodaverdiloo, M Karamoddin, F Varaminian, K Peyvandi
    Year: 2015

 

  1. Electrolyte-UNIQUAC-NRF model for the correlation of the mean activity coefficient of electrolyte solutions
    Authors: A Haghtalab, K Peyvandi
    Year: 2009

 

  1. Study of biosurfactant effects on methane recovery from gas hydrate by CO2 replacement and depressurization
    Authors: A Heydari, K Peyvandi
    Year: 2020

 

  1. Challenges and advantages of using environmentally friendly kinetic gas hydrate inhibitors for flow assurance application: A comprehensive review
    Authors: A Farhadian, A Shadloo, X Zhao, RS Pavelyev, K Peyvandi, Z Qiu, …
    Year: 2023

 

  1. Reconsideration of the micellization theory: Promotion or inhibition of gas hydrate formation for gas storage and flow assurance applications
    Authors: A Farhadian, P Naeiji, MA Varfolomeev, K Peyvandi, AG Kiiamov
    Year: 2022

 

  1. Modeling the viscosity of pure imidazolium-based ionic liquids using SAFT-VR-Mie EoS
    Authors: M Abolala, K Peyvandi, F Varaminian
    Year: 2015

Pablo Hegel | Thermodynamics | Best Faculty Award

Dr. Pablo Hegel | Thermodynamics | Best Faculty Award

Dr at Universidad Nacional del Sur Argentina

Dr. Pablo Ezequiel Hegel is a Research Scientist at CONICET and a Professor of Chemical Engineering at Universidad Nacional del Sur (UNS) in Bahía Blanca, Argentina 🇦🇷. With a PhD in Chemical Engineering from UNS (2008), his expertise lies in high-pressure process thermodynamics . He specializes in the analysis, design, and development of high-pressure experimental research units, focusing on the measurement of phase equilibria and thermophysical properties. Dr. Hegel has extensively worked on supercritical CO₂ extraction and fractionation of natural products, as well as biomass valorization using intensified pressure technologies . He has collaborated with various industries, contributing to technological developments and experimental works. Fluent in Spanish (native), English, and with working proficiency in French, he has also authored numerous peer-reviewed articles and participated in international conferences .

 

Publication profile

Scopus

🎓 Education

PhD in Chemical Engineering (2008)  Universidad Nacional del Sur – PLAPIQUI Thesis: “Phase Equilibria and Processing of Vegetable Oils Using Supercritical Fluids”. Bachelor’s Degree in Chemical Engineering (2002)  Department of Chemical Engineering, Universidad Nacional del Sur

 

👨‍🔬 Experience

Research Scientist at CONICET (2010–Present)  Working at PLAPIQUI’s Laboratory of High Pressure – Process Thermodynamics, focusing on high-pressure experimental units, phase equilibria, supercritical CO₂ extraction, and biomass valorization. Professor at UNS (2019–Present)
Teaching “Chemical Thermodynamics for Engineers” and “Unit Operations I” in the Department of Chemical Engineering. Adjunct and Assistant Professor at UNS (2013–2019)  Taught courses like Introduction to Chemical Engineering Thermodynamics and supervised seminars on high-pressure process engineering. Postdoctoral Fellow at LGC-UMR 5503, ENSIACET, INP Toulouse, France (2009–2010) 🇫🇷
Worked on supercritical extraction and purification of value-added lipids from yeast.

🏆 Awards and Honors

PhD Fellowship from CONICET (2004–2008)  Supported his doctoral research on supercritical fluids.. Postdoctoral Fellowship from ECOS-ALPHA Program (2009–2010)  Conducted research in France on supercritical extraction technologies. Research Grants and Projects Leader
Directed multiple grants focused on supercritical technologies for biomass processing and sustainable product design. Industrial Collaborations
Led experimental technological works for companies like Procter & Gamble, YPF Tecnología S.A., and others, focusing on high-pressure processes and supercritical extraction.

🔬 Research Focus

High-Pressure Process Thermodynamics  Specializes in designing and developing experimental units for measuring phase equilibria and thermophysical properties. Supercritical Fluid Extraction  Expertise in supercritical CO₂ extraction and fractionation of natural products and oils. Biomass Valorization  Utilizes intensified pressure technologies for converting biomass into valuable products. Technological Innovations
Develops high-pressure reactors, viscometers, and extraction units for industrial applications.

Publication

 

  1. Title: Density and viscosity of orange peel oil saturated with pressurized CO2
    Authors: Fortunatti-Montoya, M., Hegel, P.E., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2024
    Volume: 214
    Article: 106373

 

  1. Title: Decaffeination of yerba mate (Ilex paraguariensis) by pressurized liquid CO2 extraction: A feasible process?
    Authors: Granone, L.I., Sánchez, F.A., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2024
    Volume: 213
    Article: 106368

 

  1. Title: Purification of synthetic oils using liquefied gases of reduced flammability
    Authors: Pizzano, A., Rodriguez Reartes, S.B., Hegel, P.E.
    Journal: Chemical Engineering Research and Design
    Year: 2023
    Volume: 195
    Pages: 192–206

 

  1. Title: Citrus fruit processing by pressure intensified technologies: A review
    Authors: Granone, L.I., Hegel, P.E., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2022
    Volume: 188
    Article: 105646
    Citations: 7

 

  • Title: Alkaloid-rich vs. antioxidant-rich yerba mate (Ilex paraguariensis) extracts: Exploiting the selectivity of supercritical CO2 using hydrated ethanol as co-solvent
    Authors: Hegel, P., Granone, L.I., Hrnčič, M.K., Kotnik, P., Knez, Z.
    Journal: Journal of Supercritical Fluids
    Year: 2021
    Volume: 172
    Article Number: 105200
    Citations: 12

 

  • Title: Density and viscosity of mixtures of glycerol acetates saturated with CO2 for the design of a supercritical fractionation column
    Authors: Fortunatti-Montoya, M., Hegel, P.E., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2021
    Volume: 168
    Article Number: 105065
    Citations: 4

 

  • Title: Biodiesel production from Halamphora coffeaeformis microalga oil by supercritical ethanol transesterification
    Authors: Hegel, P.E., Martín, L.A., Popovich, C.A., Damiani, C., Leonardi, P.I.
    Journal: Chemical Engineering and Processing – Process Intensification
    Year: 2019
    Volume: 145
    Article Number: 107670
    Citations: 19

 

  • Title: Fractionation of glycerol acetates with supercritical CO2
    Authors: Fortunatti-Montoya, M., Sánchez, F.A., Hegel, P.E., Pereda, S.
    Journal: Journal of Supercritical Fluids
    Year: 2019
    Volume: 153
    Article Number: 104575
    Citations: 6

 

  • Title: Experimental High-Pressure Isochoric/Isoplethic Equilibrium for the Systems Propane + n-Pentane and Propane + Diethyl Ether
    Authors: Menossi, M., Hegel, P.E., Milanesio, J.M., Camy, S., Zabaloy, M.S.
    Journal: Journal of Chemical and Engineering Data
    Year: 2019
    Volume: 64(9)
    Pages: 3848–3860
    Citations: 1

✅ Conclusion:

Pablo Ezequiel Hegel is highly suitable for the Best Faculty Award, given his exceptional scientific contributions, innovation in high-pressure process engineering, and strong industrial ties. His expertise in supercritical technology and thermodynamics, coupled with his ability to translate research into practical applications, makes him a strong contender for this accolade. Enhancing his profile with more evidence of academic leadership and mentorship could further solidify his candidacy.