Guglielmo Vaccaro | Engineering | Best Researcher Award

Mr. Guglielmo Vaccaro | Engineering | Best Researcher Award

PHD student, Università degli studi di Firenze, Italy

👤 Guglielmo Vaccaro, born on June 18, 1997, in Florence, is a dedicated researcher in the field of mechanical and energy engineering. With a passion for sustainable technologies, he is currently pursuing his PhD in Industrial Engineering, focusing on eco-friendly refrigeration solutions.

Publication Profile

Scopus

Education

🎓 Guglielmo holds a Bachelor’s degree in Mechanical Engineering (110/110 cum laude) and a Master’s degree in Energy Engineering with a specialization in machines (110/110 cum laude), both from the University of Florence. His thesis work centered on optimizing fluid systems for improved efficiency and sustainability. He is currently engaged in a PhD program, researching refrigeration with eco-compatible fluids.

Experience

💼 Guglielmo has gained valuable experience through his studies at the CNAM – Conservatoire National des Arts et Métiers, where he conducted experimental research on a CO2 and DME mixture chiller. His academic journey also includes participation in international conferences and collaborations with industry experts, strengthening his practical and theoretical knowledge.

Research Focus

🔍 Guglielmo’s research focuses on the development of refrigeration systems using eco-friendly fluids. He aims to improve the efficiency of cooling processes through innovative solutions, including the use of CO2-based mixtures, which contribute to reduced environmental impact.

Awards and Honours

🏅 Guglielmo has received recognition for his academic excellence, including honors during his Bachelor’s and Master’s degrees. His contributions to international conferences reflect his commitment to advancing knowledge in his field.

Publication Top Notes

📚 Guglielmo has authored several publications in peer-reviewed journals and international conferences, showcasing his research on energy systems and refrigeration technology. Below are some highlights:

Vaccaro, G., Milazzo, A., & Talluri, L. (2023). Thermodynamic assessment of trans-critical refrigeration systems utilizing CO2-based mixtures. International Journal of Refrigeration, 147, 61-70.

Pasqui, M., Vaccaro, G., Lubello, P., Milazzo, A., & Carcasci, C. (2023). Heat pumps and thermal energy storages centralised management in a Renewable Energy Community. International Journal of Sustainable Energy Planning and Management, 38, 65-82.

Vaccaro, G., Milazzo, A., & Talluri, L. (2024). A proposal for a non-flammable, fluorine-free, CO2-based mixture as a low TEWI refrigerant. International Journal of Refrigeration, 158, 157-163.

Experimental results on a chiller using a CO2-DME mixture. International Journal of Refrigeration (in publication).

S. Joseph Antony | Granular Mechanics | Best Researcher Award

Dr S. Joseph Antony | Granular Mechanics | Best Researcher Award

Dr S. Joseph Antony , University of Leeds, United Kingdom

Dr. S. Joseph Antony is an Associate Professor at the School of Chemical and Process Engineering, University of Leeds. With a distinguished career in granular mechanics and particle technology, Dr. Antony is renowned for his research in the behavior of powders and grains under industrial conditions. He has been instrumental in interdisciplinary projects, including biomechanics and waste reutilization. His expertise spans both computational and experimental methodologies, which has earned him recognition and leadership roles in various international journals and conferences. Dr. Antony’s contributions to the field and his commitment to advancing engineering sciences make him a leading figure in particulate mechanics and related applications.

Publication Profile

Google Scholar

Strengths for the Award

  1. Extensive Research Output:
    • Dr. Antony has an impressive track record with over 170 publications in high-impact international journals, conference proceedings, and books. This extensive output showcases his significant contributions to the field of particulate mechanics and granular materials.
  2. Innovative Research Areas:
    • His research interests cover a broad spectrum of impactful areas, including granular mechanics, particle technology, and the interdisciplinary applications of stress sensing. Notably, his work on reusing conventional wastes in concretes and the impacts of pandemics on engineering industries aligns with current global research needs.
  3. Prestigious Awards and Recognitions:
    • The MIT Young Researcher Fellowship Award for Exemplary Research in Computational Mechanics and his selection as an example of outstanding achievements in particle science and technology in the UK highlight his excellence and leadership in his field.
  4. Interdisciplinary Research and Applications:
    • Dr. Antony’s involvement in interdisciplinary projects, particularly in biomechanics and the computational aspects of engineering challenges, demonstrates his ability to bridge different scientific domains and address complex problems.
  5. Leadership and Editorial Contributions:
    • His roles as a guest editor, lead editor of a significant book, and member of numerous editorial boards indicate his leadership and influence in the academic community. Serving as a regular referee for prestigious journals further underscores his expert status.
  6. Successful Research Grants:
    • Dr. Antony has secured substantial research funding (~£3M), indicating trust and confidence from funding bodies in his research capabilities and project management.
  7. Teaching Excellence and Supervision:
    • His contributions to teaching and supervision, including high-impact projects and design awards, reflect his commitment to mentoring the next generation of researchers and engineers.

Areas for Improvement

  1. Broader Impact and Outreach:
    • While Dr. Antony’s research is highly specialized, expanding efforts to increase public engagement and outreach could enhance the broader societal impact of his work. This might involve more public-facing communications or collaborations with industry beyond academic research.
  2. Diversity in Research Topics:
    • Although Dr. Antony has a strong focus on granular mechanics and particle technology, exploring emerging areas in related fields could provide additional avenues for groundbreaking work. Diversifying research topics may also attract a wider range of funding and collaborative opportunities.
  3. Interdisciplinary Collaboration:
    • Further interdisciplinary collaboration with researchers in fields such as environmental science, health sciences, or materials engineering could potentially open new avenues for innovation and application.

Education

Dr. S. Joseph Antony earned his B.E. in Civil Engineering from the University of Madras in 1987. He further pursued advanced studies at the Indian Institute of Science (IISc), Bangalore, obtaining his MSc (Engg) in 1991 and a PhD in 1996. His educational background laid a strong foundation in engineering sciences, enabling him to excel in his research and academic career. His studies focused on granular mechanics and particle technology, fields in which he has made significant contributions.

Experience

Dr. Antony has held several prestigious positions throughout his career, including his current role as Associate Professor in Chemical Engineering at the University of Leeds since January 2013. Previously, he served as a Senior Lecturer and Lecturer in Chemical Engineering at the same institution. His early career included research fellowships at the University of Surrey and Aston University, where he specialized in particle technology and particulate mechanics. His extensive experience in both teaching and research underscores his expertise and leadership in the field.

Awards and Honors

Dr. S. Joseph Antony has received several notable awards, including the MIT Young Researcher Fellowship Award for Exemplary Research in Computational Mechanics in 2001. He was also recognized for Outstanding Achievements in UK Particle Science and Technology by the PTSG, IChemE in 2002. His supervised projects have won numerous awards, including the BNFL/Shell design project excellence awards and the best design project award for rapid pharmaceutical compact production in 2004.

Research Focus

Dr. Antony’s research focuses on granular mechanics, particle technology, and stress sensing in multi-disciplinary applications. His work explores the bulk behavior of powders and grains under various industrial conditions, integrating computational tools like DEM, FEM, and MD simulations with experimental techniques. He is particularly noted for his contributions to the reutilization of conventional wastes in concrete and the impacts of pandemics on engineering industries. His innovative approach and extensive research have significantly advanced the understanding of particulate mechanics.

Publication Top Notes

Quasi–static deformation of particulate media by C Thornton, SJ Antony 📜

Quasi-static shear deformation of a soft particle system by C Thornton, SJ Antony 🧪

Effect of the impact angle on the breakage of agglomerates: a numerical study using DEM by R Moreno, M Ghadiri, SJ Antony 🔬

Evolution of force distribution in three-dimensional granular media by SJ Antony 📈

Influence of particle shape on granular contact signatures and shear strength: new insights from simulations

Granular materials: fundamentals and applications

Effect of granulation scale-up on the strength of granules by A Hassanpour, CC Kwan, BH Ng, N Rahmanian, YL Ding, SJ Antony ⚙️

Link between single-particle properties and macroscopic properties in particulate assemblies: role of structures within structures by SJ Antony 🔗

Conclusion

Dr. S. Joseph Antony is a highly suitable candidate for the Research for Best Researcher Award. His significant research contributions, innovative projects, prestigious awards, and leadership in the academic community underscore his excellence as a researcher. The areas for improvement are relatively minor and mainly involve expanding the impact and scope of his work. Overall, his robust research record, interdisciplinary approach, and recognized achievements make him a strong contender for the award.