Mr. Paúl Dávila - Energy - Best Researcher Award
International University - Ecuador
Author Profile
Early Academic Pursuits
Mr. Paul Sebastián Dávila Aldás embarked on his academic journey with a Bachelor's degree in Mechanical Engineering from the Army Polytechnic School in Ecuador, graduating in 2012. This laid the foundation for his subsequent pursuit of higher education and specialization in the field. He then proceeded to obtain a Master's degree in Mechanical Design with a focus on Industrial Production and Automation from the National Polytechnic School in Ecuador in the years 2017-2020. Building upon this, he pursued a Ph.D. in Mechanical Engineering, specializing in Thermodynamics of Fluids and Energy, from the prestigious Universidad Rovira i Virgili in Spain, completing it in the period of 2012-2015.
Professional Endeavors
Mr. Dávila Aldás's professional journey is marked by diverse experiences across academia, research, and industry. He served as a Research and Teaching Staff member at Universidad Rovira i Virgili, where he led significant research projects such as the "Heat pump with alternative CO2-based zeotropic mixtures." His role involved the design, simulation, and construction of test benches, showcasing his expertise in practical application alongside theoretical knowledge.
Furthermore, he held positions at various institutions including the National Institute of Energy Efficiency and Renewable Energies, the National Polytechnic School, and the International University of Ecuador, where he contributed as a full-time professor and research staff. His industrial experience includes roles such as Quality Manager and Mechanical Projects Supervisor at companies like PETROAFIN S.A., where he oversaw quality management systems and mechanical projects.
Contributions and Research Focus
Mr. Dávila Aldás's research focus primarily revolves around the thermodynamic engineering of fluids and energy, with a particular emphasis on heat pump systems utilizing alternative CO2-based zeotropic mixtures. His contributions extend to both theoretical modeling and experimental validation, as evidenced by his publications in reputable journals and presentations at international conferences. Noteworthy topics of investigation include compression/resorption heat pumps, desorption processes, and hydrodynamic simulations, all of which are vital areas for advancing energy efficiency and sustainability.
Accolades and Recognition
Throughout his career, Mr. Dávila Aldás has garnered recognition for his academic and professional achievements. He has been awarded academic scholarships and has won prestigious contests such as the "You want to know what I research" contest in Spain. Additionally, he has been invited to serve as an oral presenter at esteemed seminars and conferences, further highlighting his expertise and standing within the academic community.
Impact and Influence
Mr. Dávila Aldás's work has made a significant impact on the fields of thermodynamic engineering, fluid dynamics, and energy efficiency. His research outputs have been published in renowned journals and presented at international conferences, contributing valuable insights to the scientific community. Moreover, his roles as a professor and mentor have shaped the education and careers of numerous students, fostering a new generation of engineers and researchers dedicated to sustainability and innovation.
Legacy and Future Contributions
As Mr. Dávila Aldás continues to advance in his career, his legacy lies in his commitment to interdisciplinary research, practical application, and knowledge dissemination. His contributions to the understanding of heat pump systems and energy efficiency are poised to have long-lasting effects on industries and societies worldwide. Looking ahead, he remains dedicated to pushing the boundaries of knowledge in his field, mentoring future generations, and driving positive change through innovative research and collaborative endeavors.
Notable Publication
- Modelling and analysis of a compression/resorption heat pump system with a zeotropic mixture of Acetone/CO2, 03/2023
- Experimental investigation of the desorption process with CO2/acetone mixture in a plate heat exchanger for compression/resorption heat pumps, 05/2023
- Preliminary results of the characterization of the desorption process of the CO2/acetone mixture in a plate exchanger, 07/2019
- Hydrodynamic simulation of a monohull using CFD, 06/2019
- Methodology of the experimental study of the desorption process of the CO2/acetone mixture in a plate heat exchanger for compression/resorption heat pumps, 06/2019