Rocío Mingorance | Chemical Engineering | Best Research Award

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Mrs. Rocío Mingorance | Chemical Engineering | Best Research Award

Ikerlan Technology Research Center | Spain

Author Profile

Orcid

Early Academic Pursuits

Mrs. Rocío Mingorance began her academic journey with a strong foundation in chemical engineering from the University of Granada, where she developed expertise in process engineering and industrial systems. Her educational path expanded with a master’s degree in industrial maintenance engineering from the University of Huelva, which enriched her technical and managerial skills in plant operations and system reliability. Continuing her pursuit of advanced research, she enrolled in a doctoral program in naval and industrial engineering at the University of Coruña in collaboration with the Ikerlan Technology Research Center, where her focus lies on the development of digital twins for process plants.

Professional Endeavors

Her professional career reflects a steady progression through diverse engineering and industrial roles. Beginning with junior engineering positions in thermosolar power plants, she gained hands-on experience in thermal balances, plant operations, and preventive maintenance. Over the years, she expanded her portfolio through roles in research, consultancy, and control room operations, working with leading companies such as Abengoa, Birchman Consulting, Grupo Cosentino, and Marquesado Solar. Currently, she serves as a thermal engineer and algorithms manager at Sunntics, where she leads the design and implementation of advanced thermal control systems to optimize concentrated solar power plants.

Contributions and Research Focus

Mrs. Mingorance’s research and technical contributions have centered on advancing renewable energy technologies, thermal engineering, and digital solutions for industrial systems. Her expertise in developing and applying thermal models for heat and mass transfer has contributed significantly to improving system performance under standard and unexpected conditions. She has also pioneered work on digital twins, offering innovative methodologies to enhance operational strategies and resilience in manufacturing and energy plants. Her publications highlight her contribution to bridging traditional engineering with modern computational tools.

Accolades and Recognition

Her research and professional achievements have been recognized through publications in reputed international journals and conferences. Notably, her work on the evolution of digital twin solutions was presented at the IEEE Smart World Congress, reflecting her standing in the global research community. In addition, her continued contributions to the field of industrial and thermal engineering have positioned her as a promising scholar and professional in advancing sustainable and technologically driven energy solutions.

Impact and Influence

Through her interdisciplinary expertise, Mrs. Mingorance has influenced both industrial practices and academic research. Her ability to integrate advanced modeling techniques with real-world plant operations has enhanced the reliability, efficiency, and safety of thermal and renewable energy systems. Her contributions extend beyond direct applications, inspiring new approaches in engineering education, collaborative industry research, and the adoption of digital innovations in traditional sectors.

Legacy and Future Contributions

Looking forward, Mrs. Mingorance’s ongoing doctoral research in digital twins for process plants is expected to leave a lasting legacy in the field of industrial and naval engineering. By combining her strong background in thermal sciences with cutting-edge computational techniques, she is poised to contribute transformative solutions that support sustainability, automation, and resilience in complex industrial systems. Her career trajectory suggests continued advancements that will influence both academia and industry in the years to come.

Publications

  • Title: A methodology leveraging digital twins to enhance the operational strategy of manufacturing plants in unexpected scenarios

  • Authors: Rocío Mingorance, Diego Crespo Pereira, Jone Uribetxebarria, Urko Leturiondo

  • Journal: Results in Engineering

  • Year: 2025

  • Title: Evolution of Digital Twin solutions in the manufacturing industry

  • Authors: Rocío Mingorance, Diego Crespo Pereira, Jone Uribetxebarria, Urko Leturiondo

  • Journal/Conference: Proceedings of the 2023 IEEE Smart World Congress (SWC)

  • Year: 2023

Conclusion

Mrs. Rocío Mingorance exemplifies the synergy between engineering practice and academic research. With a solid educational foundation, diverse professional experiences, and impactful research contributions, she stands as a leading figure in renewable energy and digital innovation. Her work continues to shape sustainable industrial practices and drive the integration of advanced technologies in energy systems, reflecting a career dedicated to both excellence and progress.

 

Nalinda Dissanayaka | Health Professions | Best Researcher Award

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Mr. Nalinda Dissanayaka | Health Professions | Best Researcher Award

University of Queensland | Australia

Author Profile

Scopus

Orcid

Google Scholar

Early Academic Pursuits 🎓

Mr. Nalinda Dissanayaka began his academic journey with a Bachelor of Science in Materials Engineering from the University of Moratuwa, Sri Lanka, completed in January 2013. He furthered his education with a Master of Business Administration from the Australian Institute of Business in January 2018 and a Master of Engineering in Engineering Management and Additive Manufacturing from Deakin University in January 2020. He is currently pursuing a Doctor of Philosophy at the University of Queensland, focusing on developing realistic 3D printed neurosurgical training models, with an expected completion in July 2024.

Professional Endeavors 💼

Nalinda's professional career is marked by diverse roles and responsibilities across various industries. He started as a Project Engineer at MAS Holding (Pvt) Ltd in Sri Lanka, moving on to roles at Ansell Lanka (PVT) Ltd as a Process Engineer in Research and Development, and later as a Senior Process Engineer in Manufacturing and R&D. From 2018 to 2021, he served as a Project Manager at Jantec Telecommunication PTY Ltd in Melbourne, VIC. Currently, he is a Doctoral Researcher at the Herstan Biofabrication Institute and the University of Queensland, and a Teaching Assistant at the University of Queensland.

Contributions and Research Focus 🔬

Nalinda's research primarily focuses on the intersection of engineering and medical science, with significant contributions in the development and validation of 3D printed neurosurgical training models. His published works include articles on the evaluation of 3D printed burr hole simulation models and the safety of these models for neurosurgical simulation. His research also explores the mechanical properties of different infill materials produced by various 3D printing technologies, and he has several articles under review in prestigious journals.

Accolades and Recognition 🏆

Throughout his career, Nalinda has received recognition for his contributions to the field of medical engineering. His academic and professional pursuits have earned him memberships in esteemed organizations such as The Institute of Engineers Australia and The Institute of Engineers Sri Lanka. He is also Green Belt Certified in Lean Six Sigma and holds several other professional certifications.

Impact and Influence 🌍

Nalinda's work has had a profound impact on the medical and engineering communities. His innovative research on 3D printed neurosurgical models has advanced the field of medical training, providing safer and more effective simulation tools for neurosurgeons. His presentations at international conferences, such as Formnext 2023 and the Herston Health Precinct Symposium, have further disseminated his findings and influenced practices in medical training and simulation.

Legacy and Future Contributions 🌟

As Nalinda continues his doctoral research, his future contributions promise to further bridge the gap between engineering and medical sciences. His work on 3D printed models is expected to set new standards in neurosurgical training, enhancing the realism and safety of surgical simulations. Nalinda's commitment to continuous improvement and innovation positions him as a leading figure in his field, with a lasting legacy in both engineering and medical research.

 

Publications 📔

📄 How safe are 3D-printed skull models for neurosurgical simulation? Measurement of airborne particles and VOCs while burr hole drilling
Authors: Dissanayaka, N., Alexander, H., Carluccio, D., Vandi, L.-J., Novak, J.I.
Journal: Rapid Prototyping Journal
Year: 2024

📄 Evaluation of 3D Printed Burr Hole Simulation Models Using 8 Different Materials
Authors: Dissanayaka, N., Maclachlan, L.R., Alexander, H., Jules-Vandi, L., Novak, J.I.
Journal: World Neurosurgery
Year: 2023