Prof. Dr. Magdalena Piasecka - Heat Transfer - Best Researcher Award
Kielce University of Technology - Poland
Author Profile
🎓 Early Academic Pursuits
Prof. Dr. Magdalena Piasecka began her academic journey with a strong focus on mechanical and thermal processes at Kielce University of Technology, Poland. Her dedication to technical sciences led her to earn a Ph.D. in 2002 from the same institution. Her academic growth continued with a habilitation in 2015 from Koszalin University of Technology, Poland, reflecting her deepening expertise in heat transfer and fluid mechanics. In 2020, her accomplishments were recognized with the prestigious title of Full Professor, conferred by the President of Poland in technical sciences.
💼 Professional Endeavors
As the Full Professor and Head of the Department of Mechanics and Thermal Processes at Kielce University of Technology, Prof. Piasecka has been instrumental in advancing the field of heat transfer. Her professional endeavors span teaching, research, and mentoring, making significant contributions to boiling heat transfer processes, renewable energy technologies, and enhanced surface development for thermal systems. Her leadership in research projects, particularly as Principal Investigator in five major studies, underscores her commitment to solving critical challenges in thermodynamics and fluid mechanics.
🔬 Contributions and Research Focus
Prof. Piasecka's research focuses on heat transfer, specifically flow boiling heat transfer in minigaps. Her work examines the influence of minigap geometry, spatial orientation, and flow parameters on boiling processes. She has pioneered advanced temperature measurement techniques, such as liquid crystal thermography and infrared thermography, to enhance precision in thermal analysis. Her contributions extend to developing modified heated surfaces for intensifying boiling heat transfer and creating mathematical models and numerical simulations to predict heat transfer and fluid flow behaviors accurately.
🌍 Impact and Influence
Prof. Magdalena Piasecka has established herself as a thought leader in heat transfer and related fields. With over 230 scientific publications in prestigious journals and conferences, her work has significantly influenced the scientific community. Her bibliometric achievements, including an H-index of 24 and over 1,100 citations, highlight the broad impact of her research. Furthermore, her expertise has been recognized through numerous awards and distinctions, cementing her reputation as a global authority in thermodynamics and fluid mechanics.
🏆Academic Cites
Prof. Piasecka’s academic work is widely cited in international research, reflecting the relevance and application of her findings in heat transfer and fluid mechanics. With 1,102 total citations (480 excluding self-citations) and an impressive total impact factor of over 108, her contributions have shaped academic and industrial approaches to thermal process optimization. Her research has been instrumental in advancing methodologies for boiling heat transfer and enhancing energy system efficiency.
🌟 Legacy and Future Contributions
Looking forward, Prof. Piasecka aims to continue her groundbreaking work in heat transfer and renewable energy technologies. Her ongoing projects on enhanced surfaces for boiling heat transfer and advanced visualization techniques promise to set new benchmarks in the field. By mentoring future researchers and collaborating on international projects, she is poised to leave a lasting legacy in thermal sciences. Her commitment to innovation ensures that her contributions will continue to drive advancements in thermodynamics and fluid mechanics for years to come.
📝Heat Transfer
Prof. Magdalena Piasecka’s pioneering research in heat transfer has led to significant advancements in boiling processes, fluid mechanics, and energy systems. Her innovative approaches in heat transfer modeling and visualization techniques have transformed scientific understanding. As a leader in heat transfer, her work continues to shape academic and industrial practices globally.
Notable Publication
📝Laser Surface Texturing for the Intensification of Boiling Heat Transfer in a Minichannel
Authors: Strąk, K., Piasecka, M.
Journal: Energies
Year: 2024
Citations: 0
📝Contact Temperature Measurement Using Selected Thermoelements for Studies of Heat Transfer During Fluid Flow in Minichannels - Metrology Investigations
Authors: Michalski, D., Dadas, N., Piasecka, M., Piasecki, A.
Conference: EPJ Web of Conferences
Year: 2024
Citations: 0
📝Using the Monte Carlo Method for Estimation of Temperature Uncertainty Due to Infrared Thermography and K-Type Thermoelement Measurements
Authors: Maciejewska, B., Piasecka, M., Piasecki, A.
Conference: EPJ Web of Conferences
Year: 2024
Citations: 0
📝Homotopy Perturbation Method with Trefftz Functions and Simcenter STAR-CCM+ Used for the Analysis of Flow Boiling Heat Transfer
Authors: Pawińska, A., Piasecki, A., Dadas, N., Hożejowska, S., Piasecka, M.
Journal: Acta Mechanica et Automatica
Year: 2024
Citations: 0
📝Using Quality Function Deployment to Assess the Efficiency of Mini-Channel Heat Exchangers
Authors: Piasecki, A., Hożejowska, S., Masternak-Janus, A., Piasecka, M.
Journal: Energies
Year: 2024
Citations: 1
📝Investigations of Flow Boiling in Mini-Channels: Heat Transfer Calculations with Temperature Uncertainty Analyses
Authors: Piasecka, M., Maciejewska, B., Michalski, D., Dadas, N., Piasecki, A.
Journal: Energies
Year: 2024
Citations: 4