Assoc Prof Dr. Claudia Masselli - Research Trends - Women Researcher Award
University of Naples Federico II - Italy
Author Profile
Early Academic Pursuits
Assoc Prof Dr. Claudia Masselli's academic journey began with a solid foundation in engineering. Graduating with a Master's degree in Electronic Engineering from the University of Naples Federico II in 2013, she exhibited a keen interest in the intricacies of thermodynamics and heat transfer. This academic groundwork paved the way for her doctoral studies, where she obtained her Ph.D. in Industrial Engineering from the University of Salerno in 2017. These formative years equipped her with the necessary skills and knowledge to delve deeper into her chosen field of applied thermodynamics.
Professional Endeavors
Assoc Prof Dr. Masselli's professional career has been marked by a dedication to advancing the field of applied thermodynamics, particularly in the areas of eco-friendly refrigeration and air conditioning. She began her post-doctoral research journey in 2017, focusing on solid-state cooling based on caloric effects and energy systems. Over the years, she has held various academic positions, including Assistant Professor and, presently, Associate Professor at the University of Naples Federico II. Her role as a principal investigator and team member in multiple research projects underscores her commitment to driving innovation in her field.
Contributions and Research Focus on Research Trends
Assoc Prof Dr. Masselli's research portfolio showcases a diverse range of topics, with a primary emphasis on solid-state refrigeration techniques as alternatives to traditional vapor compression methods. Her work also encompasses the evaluation of energy performance and environmental impact in refrigeration cycles, as well as the application of renewable energy in environmental conditioning systems. Notably, her involvement in developing experimental devices for eco-friendly solid-state coolers underscores her practical approach to addressing environmental challenges in refrigeration technology.
Accolades and Recognition
Throughout her career, Assoc Prof Dr. Masselli has garnered recognition for her exemplary contributions to the field of applied thermodynamics. Her research has been published extensively in reputable scientific journals and conference proceedings, with over 100 publications to her name. Notable accolades include the Young Researcher Award Certificate of Merit at the AIGE/IIETA International Conference and the Young Researcher Under 35 Years Old Award Certificate of Merit. Her editorial roles in international scientific journals further demonstrate her standing as a respected figure in her field.
Impact and Influence
Assoc Prof Dr. Masselli's research has made significant contributions to advancing eco-friendly refrigeration technologies and promoting sustainability in the field of thermodynamics. By exploring novel approaches to solid-state cooling and renewable energy utilization, she has paved the way for more environmentally friendly alternatives to traditional refrigeration methods. Her work has not only expanded the boundaries of knowledge in her field but also inspired future generations of researchers to pursue sustainable solutions to global challenges.
Legacy and Future Contributions
As Assoc Prof Dr. Masselli continues her academic journey, her legacy is poised to leave a lasting impact on the field of applied thermodynamics. Through her ongoing research endeavors and mentorship of future scholars, she seeks to further refine eco-friendly refrigeration technologies and promote their widespread adoption. By fostering interdisciplinary collaborations and pushing the boundaries of scientific innovation, she remains committed to shaping a more sustainable future for generations to come.
Citations
- Citations 1574
- h-index 24
- i10-index 35
Notable Publication
- Daily, monthly and seasonal energy performances and economic assessment on the coupling of an earth to air heat exchanger to an already existing HVAC system: A case study for Italian cities January 2024
- Elastocaloric Cooling: The Energy Performances of Possible Solid-State Refrigerants in a Rotary Air Conditioner January 2024
- Computational investigation on daily, monthly and seasonal energy performances and economic impact through a detailed 2D FEM model of an earth to air heat exchanger with an air conditioning system in a continental climate zone October 2023
- Analysis of the environmental impact of a heat pump based on the elastocaloric effect October 2023
- The use of the barocaloric effect for refrigeration: an evaluation of the energy performances and the environmental impact October 2023