PORTALE DELLA DIDATTICA

PORTALE DELLA DIDATTICA

PORTALE DELLA DIDATTICA

Elenco notifiche



Computational heat and mass transfer

01QSLIV

A.A. 2023/24

Course Language

Inglese

Degree programme(s)

Doctorate Research in Energetica - Torino

Course structure
Teaching Hours
Lezioni 20
Lecturers
Teacher Status SSD h.Les h.Ex h.Lab h.Tut Years teaching
Ferrari Alessandro Professore Ordinario IIND-06/A 3 0 0 0 9
Co-lectures
Espandi

Context
SSD CFU Activities Area context
*** N/A ***    
Please refer to the English section
The course aims at introducing the main ideas associated to numerical computing for energy-related problems, where heat and mass transfer play a significant role. The different scales, from nano- to macro-, are considered. For each scale, examples of the respective models, methods and tools are provided and simple applications are presented. The ubiquitous question of the quality assurance (verification&validation) of the solution is addressed.
Please refer to the english section
Foundations of Mathematics and Physics, Fluid dynamics and Thermodynamics
Please refer to the English section
Introduction to computing. Identification of suitable model, method, tool, platform. Verification&validation of the solution. The nano-scale: fundamentals of energy transport by principal energy carriers: electron; phonon; fluid particle; photon. Phonons: molecular dynamics (MD) simulations; Kapitza resistance. Fluid particles: statistical thermodynamics; fluid dynamic continuum limit. Photons: radiative transfer equation. The main tools: GROMACS, LAMMPS. The meso-scale (Computational Fluid Dynamics, CFD): Convection/Diffusion. The theory of the conservation laws and the Navier-Stokes equations. Incompressible vs. compressible flow problems. Laminar flows and theory of instability of laminar flows. Modeling of turbulence with advanced CFD. Mesh generation. Main features of the numerical schemes. Method of the characteristics for the Euler equations and numerical treatment of shocks. The main tools: ANSYS Fluent, StarCCM+, OpenFoam. The macro-scale: System-level models. Object-oriented programming. The main tools: Modelica, Amesim, GT-POWER. Approach to multi-scale problems.
In presenza
On site
Presentazione report scritto
Written report presentation
P.D.2-2 - Giugno
P.D.2-2 - June
- Mercoledì 5 Giugno 2024 ore 8.30-10 - aula 15A e ore 11.30-13 - aula 9s - Venerdì 7 Giugno 2024 ore 9-10 - aula 4I e ore 14.30-17.30 - aula 10I/1T - Giovedì 13 Giugno 2024 ore 16 -19 - aula 16 - Venerdì 14 Giugno 2024 ore 16 -19 - aula 11s - Lunedì 17 Giugno 2024 ore 9 -12.30 - aula Capetti DENERG - Mercoledì 26 Giugno 2024 ore 9 -12.30 - aula Capetti DENERG
- Wednesday 5 June 2024 from 8.30 to 10 - classroom 15A and from 11.30 to 13 - classroom 9s - Friday 7 June 2024 from 9 to 10 - classrrom 4I and from 14.30 to 17.30 - classroom 10I/1T - Thursday 13 June 2024 from 16 to 19 - classroom 16 - Friday 14 June 2024 from 16 to 19 - classroom 11s - Monday 17 June 2024 from 9 to 12.30 - classroom Capetti DENERG - Wednesday 26 June 2024 from 9 to 12.30 - classroom Capetti DENERG