Course Syllabus
Titolo
Thermal Transport Down to the Nanoscale
Docente(i)
Carlo Antonini
Lingua
English
Breve descrizione
Course description
The course aims to present heat transfer and related energy conversion phenomena, spanning from a macroscopic perspective down to the micro- and nano-scale. In the first part of the course, the fundamental classical laws (i.e. Fourier Law) will be presented, discussing their limits of validity and the size effects. In the second part of the course, engineered devices, such as heat pipes, and thermal management strategies and challenges will be presented.
Content
• Intro: Macroscopic theory of heat transfer, microscopic picture, micro and nano scale transport phenomena
• Particle description of Transport Processes: classical laws
• Classical laws + Classical size effects
• Classical size effects
• Energy conversion and couples transport processes
• Liquids and their interfaces: liquid transport properties, size effect in single-phase flow and phase transition
• Multiphase transport devices: Heat pipes and applications
• Thermal management applications: electronics, batteries and electric vehicles, space
CFU / Ore
16 hours
Periodo di erogazione
April-May 2024
Sustainable Development Goals
Title
Thermal Transport Down to the Nanoscale
Teacher(s)
Carlo Antonini
Language
English
Short description
Course description
The course aims to present heat transfer and related energy conversion phenomena, spanning from a macroscopic perspective down to the micro- and nano-scale. In the first part of the course, the fundamental classical laws (i.e. Fourier Law) will be presented, discussing their limits of validity and the size effects. In the second part of the course, engineered devices, such as heat pipes, and thermal management strategies and challenges will be presented.
Content
• Intro: Macroscopic theory of heat transfer, microscopic picture, micro and nano scale transport phenomena
• Particle description of Transport Processes: classical laws
• Classical laws + Classical size effects
• Classical size effects
• Energy conversion and couples transport processes
• Liquids and their interfaces: liquid transport properties, size effect in single-phase flow and phase transition
• Multiphase transport devices: Heat pipes and applications
• Thermal management applications: electronics, batteries and electric vehicles, space
CFU / Hours
16 hours
Teaching period
April-May 2024