Assunta Andreozzi | Bio Heat Transfer | Women Researcher Award

Prof. Assunta Andreozzi | Bio Heat Transfer | Women Researcher Award

Prof. Assunta Andreozzi, Università di Napoli Federico II, Italy

 

Prof. Assunta Andreozzi, born on May 12, 1972, in Aversa (CE), is a distinguished aerospace engineer. She graduated with honors in Aerospace Engineering from the University of Campania “Luigi Vanvitelli” in 1998 and obtained her PhD in Aerospace Sciences in 2001. With over 250 publications and an h-index of 21, her research spans heat transmission, solar energy systems, and thermo-fluid dynamics, significantly impacting engineering fields. Currently, she teaches at the University of Naples Federico II and supervises numerous theses, shaping the next generation of engineers. Prof. Andreozzi’s contributions have garnered recognition and respect in academia. 📚🔬✈️

 

Publication profile

Scopus

Orcid

Academic Career 🌟

Prof. Assunta Andreozzi began her academic journey by winning admission to the PhD course in Science and Aerospace Technologies at the Second University of Naples in 1999. In 2001, she collaborated with Prof. Yogesh Jaluria at Rutgers University on thermofluiddynamic analysis. She received a research grant at the Department of Aerospace Engineering, focusing on energy-efficient structural optimization methodologies. After earning her PhD in Aerospace Sciences in 2001, she became a university researcher at the University of Naples Federico II in 2002 and was confirmed in her role in 2005, contributing significantly to industrial technical physics. 🎓✈️📚

 

University Teaching Activity 📚👩‍🏫

Prof. Assunta Andreozzi has significantly contributed to the education of Bachelor’s and Master’s students at the University of Naples Federico II, teaching various engineering disciplines, including Construction, Electrical, Mechanical, and Environmental Engineering. Currently, she is involved in the Mechanical Engineering degree program, focusing on Technical Physics, Heat Transmission, Environmental Control, and Computational Thermofluid Dynamics. Since 2000, she has been responsible for multiple university courses annually, overseeing examination commissions and supervising numerous theses on energy efficiency, heat transfer, and fire dynamics. Her dedication has enriched the academic experience for aspiring engineers. 🔧🌍✨

 

Research Activities 🔬📊

Prof. Assunta Andreozzi’s research portfolio includes over 250 publications, with 123 indexed in the Scopus database, accumulating 1,345 citations and an h-index of 21 as of March 16, 2024. Her research spans numerical, analytical, and experimental investigations, focusing on key areas such as heat transmission applications, solar energy system design, thermo-fluid dynamics in aircraft, and fire dynamics characterization. Additional topics include bioheat transfer and sloshing effects. Funding for her research has come from the European Community, the Ministry of University and Scientific Research, and private industry partnerships, highlighting her impactful contributions to engineering science. 🌍⚙️🔍

 

Publication Top Notes

  • Procedures for Experimental Characterization of Thermal Properties in Li-Ion Battery Modules and Parameters Identification for Thermal Models (Fiorillo et al.)  2024 📄
  • Numerical evaluation of heat-triggered drug release via thermo-sensitive liposomes: A comparison between image-based vascularized tumor and volume-averaged porous media models (Adabbo et al.) – 2 citations, 2024 💊
  • A THERMAL ANALYSIS OF A FUNCTIONALLY-GRADED GYROID AS A HEAT SINK (Anacreonte et al.)  2024 🔥
  • LASER ABLATION FOR PROSTATE CANCER THERAPIES: MATHEMATICAL MODELING (Andreozzi et al.) 2024 🔬
  • Numerical analysis of the binder angle effect on convective heat transfer and pressure drop in drilled-hollow sphere architected foams (Iasiello et al.) – 0 citations, 2024 🏗️
  • Microwave ablation modeling with AMICA antenna: Validation by means a numerical analysis (Cafarchio et al.) – 2 citations, 2023 📡
  • Heat Transfer and Thermal Energy Storage Enhancement by Foams and Nanoparticles (Andreozzi et al.) – 3 citations, 2023 ☀️
  • A 3D numerical model of controlled drug delivery to solid tumor by means of mild microwave hyperthermia-activated thermo-sensitive liposomes (Adabbo et al.) – 8 citations, 2023 💉
  • Emprint Microwave Thermoablation System: Bridging Thermal Ablation Efficacy between Human Patients and Porcine Models through Mathematical Correlation (Cafarchio et al.) – 3 citations, 2023 🐖
  • Numerical Investigation on Natural Convection in Inclined Channels Partially Filled With Asymmetrically Heated Metal Foam (Andreozzi et al.) – 4 citations, 2023 📏