Kiana Peyvandi | Thermodynamics | Best Researcher Award

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

Assoc Prof Dr. Semnan University,Ā  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

 

šŸŽ“ Education

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

šŸ’¼ 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

šŸ† 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.

šŸ”¬ 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

JiaHang Chen | hydromechanics and thermodynamics | Best Researcher Award

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Mr. JiaHang Chen | hydromechanics and thermodynamics | Best Researcher Award

Mr at University of Macau, China

JiaHang Chen is a Ph.D. candidate in Electromechanical Engineering at the University of Macau. He earned his Masterā€™s degree from the same institution and holds Bachelorā€™s degrees from Xiamen University of Technology and Chung Hua University. JiaHang has made significant contributions through projects like the award-winning automatic packaging system and bus engine compartment cleaning equipment. His research focuses on heat transfer and pressure drop characteristics using traditional and 3D-printed mini tubes, with publications in Journal of Enhanced Heat Transfer and Journal of Heat Transfer Engineering. JiaHang has received multiple awards and scholarships, including Best Paper Awards at the International Symposium on Thermal-Fluid Dynamics.

Publication profile

Scopus

 

JiaHang Chen: Evaluation for the Best Researcher Award

šŸŒŸ Strengths for the Award

Strong Academic Background: JiaHang Chen has demonstrated consistent academic excellence, starting from a Bachelor’s degree in Mechanical Manufacturing and progressing through Master’s and PhD studies in Electromechanical Engineering. His educational journey shows a clear focus and dedication to the field. Innovative Research Contributions: Chen has made significant contributions through various research projects and papers. Notable achievements include: National Patents: Successful applications for national invention and utility model patents for innovative designs such as the automatic cleaning device for bus engines. High-Impact Publications: His research on heat transfer and pressure drop characteristics, particularly involving 3D-printed mini tubes, has been published in reputable journals and presented at major international conferences. Recognition and Awards: Chen has received multiple accolades, including Best Paper Awards at two International Symposia on Thermal-Fluid Dynamics. These awards highlight the impact and quality of his research. Research Grants and Scholarships: He has been awarded several scholarships and research assistantships from prestigious institutions, showcasing recognition and support from the academic community.

šŸ”§ Areas for Improvement

Broader Research Scope: While Chen has a strong focus on thermal-fluid dynamics, expanding his research into other emerging areas within electromechanical engineering could diversify his contributions and increase his impact. Collaborations and Networks: Enhancing collaborations with international researchers and institutions could provide additional opportunities for interdisciplinary research and increase visibility in the global research community. Public Engagement: Increasing engagement with the public and industry through outreach programs or practical applications of his research could further highlight the real-world impact of his work.

šŸŽ“ Education:

Ph.D. in Electromechanical Engineering, University of Macau (Aug 2022 – Present). M.Sc. in Electromechanical Engineering, University of Macau (Sep 2019 – Aug 2022).Ā Bachelor of Mechanical Manufacturing, Chung Hua University (Sep 2016 – Jun 2017). Bachelor of Mechanical Manufacturing, Xiamen University of Technology (Sep 2014 – Jun 2018)

šŸ“‘ Academic Papers & Projects:

Jan 2016 ā€“ Jun 2016: Competition Project – Small Gantry Type Flexible Express Automatic Packaging System; won 1st prize. Jan 2018 ā€“ Jun 2018: Graduation Project – Automatic Cleaning Equipment for Bus Engine Compartment; applied for national invention and utility model patents. Jul 2022 ā€“ Aug 2022: Conference Paper – Heat Transfer and Pressure Drop Characteristics for Vertical Downflow; presented at ISTFD 2022. Nov 2022 ā€“ Apr 2023: Journal Paper – Heat Transfer and Pressure Drop Characteristics; published in Journal of Enhanced Heat Transfer (JCR Q3). Jul 2023 ā€“ Aug 2023: Conference Paper – Heat Transfer and Pressure Drop Characteristics for Horizontal Flow; won Best Paper Award at ISTFD 2023. Oct 2023 ā€“ Aug 2024: Journal Paper – Heat Transfer Enhancement of 3D-Printed Mini Tubes; submitted to Journal of Heat Transfer Engineering (JCR Q3). Jul 2024 ā€“ Aug 2024: Conference Paper – Horizontal Flow Characteristics; won Best Paper Award at ISTFD 2024.

šŸ› ļø Skills & Certificates:

CET-4 (Dec 2017), CET-6 (Jun 2018), Microsoft Office Specialist (MOS) (Apr 2021), BIM Skill Proficiency Test Level I (Dec 2021)

šŸ† Honors & Scholarships:

Jun 2016: 1st Prize, Fujian University Student Mechanical Innovation Competition. Dec 2016: 3rd-Class Excellent Student Scholarship, Xiamen University of Technology. Apr 2019: Utility Model Patent (CN 208682798 U). Nov 2020: National Invention Patent (CN 109109826 B). Jan 2021 & Jan 2022: Scholarship of Institute for the Development and Quality, Macau. Jan 2023 & Jan 2024: Research Assistantship from NSFC, China & FDCT, Macau. Jul 2023: Utility Model Patent (CN 219336363 U). Jul 2023 & Jul 2024: Best Paper Award, International Symposium on Thermal-Fluid Dynamics

Publication top notes

  • Friction Surfacing of Precipitation Hardening Stainless Steel Coatings for Cavitation Erosion Resistance
    • Journal: Surface and Coatings Technology
    • Year: 2022
    • Volume: 434
    • DOI: 10.1016/j.surfcoat.2021.128206
    • Contributors: D. Guo, J. Chen, V.A.M. Cristino, D. Zhang, X. Li
    • Summary: This article explores the use of friction surfacing as a technique to apply precipitation hardening stainless steel coatings, which are evaluated for their resistance to cavitation erosion. The study shows that these coatings significantly enhance the durability of surfaces exposed to erosive environments, making them suitable for industrial applications where erosion resistance is critical.
    • Citations: 13

 

  • Pitting Corrosion Behavior of Friction-Surfaced 17-4PH Stainless Steel Coatings with and without Subsequent Heat Treatment
    • Journal: Corrosion Science
    • Year: 2021
    • Volume: 193
    • DOI: 10.1016/j.corsci.2021.109887
    • Contributors: D. Guo, J. Chen, X. Chen, D. Zhang, X. Li
    • Summary: This article investigates the pitting corrosion resistance of 17-4PH stainless steel coatings applied via friction surfacing, with a focus on the effects of subsequent heat treatments. The findings indicate that heat treatment can further improve the corrosion resistance of these coatings, making them more suitable for environments where pitting corrosion is a concern.
    • Citations: 17

 

šŸ† Conclusion

JiaHang Chen demonstrates exceptional promise and achievement in his field, supported by a strong educational background, innovative research, and notable awards. His consistent performance and contributions to thermal-fluid dynamics make him a strong candidate for the Best Researcher Award. Enhancing his research scope, fostering collaborations, and engaging with the broader community could further elevate his profile and impact.