Pimpan Pruengam | FRP in Renewable Energy | Best Researcher Award

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Assoc Prof Dr. Pimpan Pruengam | FRP in Renewable Energy | Best Researcher Award

Kasetsart University, Kamphaeng Saen Campus, Thailand

Profile:

🎓Early Academic Pursuits

Assoc. Prof. Dr. Pimpan Pruengam, born on January 24, 1980, has been a significant contributor to the field of agricultural engineering. She began her academic journey at Suranaree University of Technology, where she earned her Bachelor of Engineering in Agricultural Engineering in 2002. Her passion for the subject led her to pursue a Master of Engineering in Agricultural Engineering from Kasetsart University, completed in 2006. She later obtained her Ph.D. in Energy Technology from King Mongkut’s University of Technology Thonburi in 2017. Her educational background laid a strong foundation for her future work in drying technology, renewable energy, and post-harvest engineering.

🏢Professional Endeavors

Dr. Pruengam has been an influential faculty member at the Department of Agricultural Engineering, Faculty of Engineering at Kamphaeng Saen, Kasetsart University, since 2007. Her role as a lecturer has allowed her to impart knowledge and mentor countless students. Before her academic tenure, she gained valuable industry experience as an engineer at Bitwise (Thailand) Co., Ltd. from 2002 to 2004. Her practical experience in the engineering sector, combined with her academic pursuits, has enabled her to bridge the gap between theoretical knowledge and real-world application.

🔬Contributions and Research Focus

Dr. Pruengam’s research has significantly contributed to the fields of drying technology, renewable energy, and post-harvest engineering. She has authored numerous papers in both national and international journals. Her notable works include studies on the rapid drying of parboiled paddy using hot-air impinging stream dryers and the mechanical properties of parboiled brown rice kernels during drying processes. She has also explored innovative techniques such as the design of a sugar cane washing machine for fresh juice production and the development of a lotus seed separating machine.

In the realm of renewable energy, Dr. Pruengam has researched the use of greenhouse technology for solar drying of bananas and the performance testing of small diesel engines using coconut and soybean oils. Her work on the potential of cashew nut shell waste in charcoal briquettes exemplifies her dedication to sustainable engineering solutions.

🏆Accolades and Recognition

Dr. Pruengam’s contributions have not gone unnoticed. She has received recognition for her work through various awards and accolades. One of her significant achievements is the patent for the “Ultra Fast Drying of Parboiled Paddy Using Hot Air Impinging Stream Technique,” issued in 2019. This innovation showcases her ability to create practical solutions with broad industrial applications.

Her academic excellence is further demonstrated by her numerous presentations at national and international conferences. She has presented her research at prestigious events, including the International Drying Symposium in Lyon, France, and the ISSCT Agricultural Engineering Workshop in Nakhonpathom, Thailand. These platforms have allowed her to share her knowledge with a global audience, enhancing her reputation as a leading expert in her field.

🌍Impact and Influence

Dr. Pruengam’s work has had a significant impact on the agricultural engineering community. Her research has provided valuable insights into improving drying processes, enhancing energy efficiency, and developing sustainable practices in post-harvest engineering. Her teaching and mentorship have shaped the careers of many students, fostering the next generation of engineers and researchers.

Her interdisciplinary approach, combining agricultural engineering with energy technology, has led to innovative solutions that address critical challenges in food processing and renewable energy. Her work on drying technology, in particular, has implications for improving food quality, reducing energy consumption, and minimizing post-harvest losses.

🌟Legacy and Future Contributions

As an accomplished academic and researcher, Dr. Pruengam continues to push the boundaries of her field. Her future contributions are expected to focus on further advancing drying technologies and exploring new renewable energy sources. Her dedication to sustainable engineering practices will likely lead to more innovative solutions that benefit both the industry and the environment.

📖Publications:

Paper Title: The potential of cashew nut shell waste in charcoal briquettes after producing cashew nut shell liquid through cold extraction

  • Authors: Pathaveerat, S., Pruengam, P., Lekrungroenggid, N.
  • Journal: Results in Engineering
  • Year: 2024

Paper Title: Fabrication and testing of double-sided solar collector dryer for drying banana

  • Authors: Pruengam, P., Pathaveerat, S., Pukdeewong, P.
  • Journal: Case Studies in Thermal Engineering
  • Year: 2021

Paper Title: Low cost measurement of moisture content in long grain paddy

  • Authors: Pathaveerat, S., Pruengam, P.
  • Journal: Journal of Stored Products Research
  • Year: 2020

Paper Title: Evolution of mechanical properties of parboiled brown rice kernels during impinging stream drying

  • Authors: Pruengam, P., Soponronnarit, S., Prachayawarakorn, S., Devahastin, S.
  • Journal: Drying Technology
  • Year: 2016

Paper Title: Rapid Drying of Parboiled Paddy Using Hot Air Impinging Stream Dryer

  • Authors: Pruengam, P., Soponronnarit, S., Prachayawarakorn, S., Devahastin, S.
  • Journal: Drying Technology
  • Year: 2014

Remi vincent | FRP in Renewable Energy | Best Researcher Award

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Dr. Remi vincent | FRP in Renewable Energy | Best Researcher Award

Doctorate at university Grenoble Alpes (CEA Grenoble), France

Profiles:

🎓📚Early Academic Pursuits

Rémi Vincent was born in 1979 in Nîmes, France. His early academic journey saw him excel in the sciences, paving the way for his later accomplishments in research and engineering. He pursued his engineering degree at EFPG (École Française de Papeterie et des Industries Graphiques), a prestigious French school specializing in printing and paper, graduating in 2003. During his time at EFPG, Vincent developed a solid foundation in material sciences, process engineering, and the complexities of fibrous structures.

Following his engineering degree, Vincent furthered his studies by pursuing a Ph.D. at Grenoble University, focusing on modeling and process engineering. His doctoral research, completed in 2006, was centered on the “Modeling of fibrous structure and prediction of physical properties.” This work involved simulating 3D fibrous networks, modeling tensile strength characteristics, and conducting flow simulations through fibrous structures using the “Lattice Boltzmann” method. His Ph.D. research resulted in three significant publications, establishing him as a promising researcher in the field.

🏢Professional Endeavors

ArjoWiggins Group (2006-2009)

After completing his Ph.D., Vincent joined the ArjoWiggins Group as a research engineer at their research center in Apprieu, France. During his tenure from 2006 to 2009, he worked on developing bank note papers and anti-forgery systems. His responsibilities included formulating functional coatings to enhance the durability of bank notes, optimizing paper structure, printability, strength, and roughness. Additionally, he was involved in the development and modeling of paper and coating processes. Vincent’s work at ArjoWiggins resulted in four published patents, showcasing his ability to innovate in the field of materials engineering.

CEA-Grenoble (2009-Present)

In 2009, Vincent transitioned to a role as a researcher at CEA-Grenoble, where he has made substantial contributions to the field of lithium battery safety and development. His work at CEA-Grenoble includes:

Safety Solutions for Lithium Batteries:

Vincent has been instrumental in developing mitigation solutions to enhance the safety of lithium batteries. This work involves designing specific abusive tests to evaluate battery safety, resulting in five publications and 32 published patents.

Electrode Development for Lithium Batteries:

He spent six months in Bolivia setting up a cathode manufacturing pilot line and formulating lithium sulfur cathodes. His efforts in this area led to one publication and 12 published patents.

MEA and MEA Components for PEMFC:

Vincent has significantly advanced the development of Membrane Electrode Assemblies (MEA) and their components for Proton Exchange Membrane Fuel Cells (PEMFC). His work includes formulating active layers and microporous layer functional inks for various printing processes, developing Gas Diffusion Layers (GDL) via papermaking processes, optimizing MEA in relation to bipolar plate designs, and analyzing the impact of operational strategies on MEA durability. He has also designed and optimized pilot lines for electrode and MEA assembly, with projects producing 1500 m²/day and 5000 m²/day respectively. His contributions in this area are documented in six publications and 41 published patents.

🔬Contributions and Research Focus

Vincent’s research has predominantly focused on enhancing the safety, efficiency, and durability of lithium batteries and fuel cells. His work encompasses:

Developing innovative solutions to mitigate safety risks in lithium batteries.

Pioneering the formulation and manufacturing of high-performance electrodes.

Advancing the design and production of MEA components for fuel cells.

Conducting extensive research on the impact of operational strategies on the durability of MEAs.

🏅Accolades and Recognition

Throughout his career, Rémi Vincent has received recognition for his innovative contributions to materials science and engineering. His numerous publications and extensive patent portfolio highlight his expertise and impact in the field. Notable accomplishments include:

32 patents on lithium battery safety solutions.

12 patents on electrode development for lithium batteries.

41 patents on MEA and MEA component development for PEMFC.

Multiple publications in peer-reviewed journals, demonstrating the breadth and depth of his research.

🌍Impact and Influence

Vincent’s work has had a significant impact on the fields of energy storage and fuel cell technology. His research on lithium battery safety has contributed to the development of safer, more reliable energy storage solutions, which are critical for a wide range of applications, from consumer electronics to electric vehicles. His innovations in MEA and fuel cell technology have advanced the efficiency and durability of fuel cells, making them more viable for commercial and industrial use.

🌟Legacy and Future Contributions

As a leading researcher at CEA-Grenoble, Rémi Vincent continues to push the boundaries of materials science and engineering. His ongoing projects and future research endeavors promise to yield further advancements in energy storage and conversion technologies. Vincent’s legacy lies in his dedication to improving the safety, performance, and sustainability of critical energy technologies, positioning him as a key figure in the ongoing evolution of these fields.

📖Publications:

Paper Title: Can the shock wave generated by the thermal runaway of a lithium-metal all-solid-state cell be predicted by material-scale analysis

  • Authors: Charbonnel, J., Bengaouer, A., Thivel, P.-X., Vincent, R.
  • Journal: Chemical Engineering Journal
  • Year: 2024

Paper Title: First Experimental Assessment of All-Solid-State Battery Thermal Runaway Propagation in a Battery Pack

  • Authors: Darmet, N., Charbonnel, J., Reytier, M., Broche, L., Vincent, R.
  • Journal: ACS Applied Energy Materials
  • Year: 2024

Paper Title: Hybrid Ceramic Polymer Electrolytes Enabling Long Cycling in Practical 1 Ah-Class High-Voltage Solid-State Batteries with Li Metal Anode

  • Authors: Boaretto, N., Meabe, L., Lindberg, S., Daniel, L., Martinez-Ibañez, M.
  • Journal: Advanced Functional Materials
  • Year: 2024

Paper Title: Preliminary study of all-solid-state batteries: Evaluation of blast formation during the thermal runaway

  • Authors: Charbonnel, J., Dubourg, S., Testard, E., Thivel, P.-X., Vincent, R.
  • Journal: iScience
  • Year: 2023

Paper Title: High-Frequency Voltage and Current Probes for Measurement at Distance with an Oscilloscope

  • Authors: Chauvin, J., Chatroux, D., Garnier, L., Azaïs, P., Vincent, R.
  • Journal: PCIM Europe Conference Proceedings
  • Year: 2023