PORTALE DELLA DIDATTICA

PORTALE DELLA DIDATTICA

PORTALE DELLA DIDATTICA

Elenco notifiche



Modelling techniques for advanced internal combustion engine technologies

01TSJIV

A.A. 2020/21

Course Language

Inglese

Degree programme(s)

Doctorate Research in Energetica - Torino

Course structure
Teaching Hours
Lezioni 10
Lecturers
Teacher Status SSD h.Les h.Ex h.Lab h.Tut Years teaching
Piano Andrea   Ricercatore a tempo det. L.240/10 art.24-B IIND-06/A 8 0 0 0 3
Co-lectures
Espandi

Context
SSD CFU Activities Area context
*** N/A ***    
The goal of this course is to provide a comprehensive overview of the modelling techniques for advanced internal combustion engine (ICE) technologies. After a short introduction aimed to provide a brief but comprehensive overview of innovative ICE technologies, the first part of the course will be focused on turbulent jet ignition (TJI) concept, both for conventional fuels and for hydrogen (H2): in this part of the course, innovative techniques for knock detection will also be presented. The second part will deal with innovative direct-injection engines concepts and their modelling. Automated 1D-/3D-CFD coupling for combustion evolution analysis within additive-manufacturing-enabled innovative piston bowl geometries, ducted fuel injection (DFI) and dual-fuel (DF) engines will be presented. Finally, details will be provided about the modelling of fuel injection, combustion and pollutant formation processes for bio- and e-fuels.
The goal of this course is to provide a comprehensive overview of the modelling techniques for advanced internal combustion engine (ICE) technologies. After a short introduction aimed to provide a brief but comprehensive overview of innovative ICE technologies, the first part of the course will be focused on turbulent jet ignition (TJI) concept, both for conventional fuels and for hydrogen (H2): in this part of the course, innovative techniques for knock detection will also be presented. The second part will deal with innovative direct-injection engines concepts and their modelling. Automated 1D-/3D-CFD coupling for combustion evolution analysis within additive-manufacturing-enabled innovative piston bowl geometries, ducted fuel injection (DFI) and dual-fuel (DF) engines will be presented. Finally, details will be provided about the modelling of fuel injection, combustion and pollutant formation processes for bio- and e-fuels.
Fundamentals of internal combustion engines and of CFD
Fundamentals of internal combustion engines and of CFD
1. INTRODUCTION (2h) – Prof. Federico MILLO - Internal combustion engines challenges: political bans and mass media misconceptions - Why we need to further enhance ICE efficiency and decrease their environmental footprint - Need for reliable simulation models 2. TURBULENT JET IGNITION (4h) – Dr. Andrea PIANO - Introduction on TJI concept and its applications: from F1 to series production - 1D- and 3D-CFD modelling approach with conventional fuels - Modelling techniques for knock detection in TJI engines - H2+TJI application 3. DIRECT-INJECTION APPLICATIONS (4h) – Dr. Andrea PIANO - 1D-/3D-CFD coupling methodology for combustion analysis of innovative additive-manufacturing-enabled piston bowl geometries - Ducted fuel injection (DFI) concept - Dual-fuel (DF) combustion model definition
1. INTRODUCTION (2h) – Prof. Federico MILLO - Internal combustion engines challenges: political bans and mass media misconceptions - Why we need to further enhance ICE efficiency and decrease their environmental footprint - Need for reliable simulation models 2. TURBULENT JET IGNITION (4h) – Dr. Andrea PIANO - Introduction on TJI concept and its applications: from F1 to series production - 1D- and 3D-CFD modelling approach with conventional fuels - Modelling techniques for knock detection in TJI engines - H2+TJI application 3. DIRECT-INJECTION APPLICATIONS (4h) – Dr. Andrea PIANO - 1D-/3D-CFD coupling methodology for combustion analysis of innovative additive-manufacturing-enabled piston bowl geometries - Ducted fuel injection (DFI) concept - Dual-fuel (DF) combustion model definition
Modalità mista
Mixed mode
Presentazione orale - Test a risposta multipla
Oral presentation - Multiple choice test
P.D.2-2 - Maggio
P.D.2-2 - May
• Monday 19/07, h: 11-13: Prof. Federico Millo, Overview of innovative ICE technologies • Wednesday 21/07, h: 11-13: Dott. Andrea Piano, SI ICE combustion modelling: Turbulent Jet Ignition • Friday 23/07, h: 11-13: Dott. Andrea Piano, SI ICE combustion modelling: Hydrogen • Monday 26/07, h: 11-13: Dott. Andrea Piano, CI ICE combustion modelling: 1D-/3D-CFD coupling + DFI • Wednesday 28/07, h: 11-13: Dott. Andrea Piano, DF ICE combustion modelling: H2-diesel, NG-diesel concepts Il corso sarà tenuto in inglese tramite virtual classroom (BBB o Zoom).
• Monday 19/07, h: 11-13: Prof. Federico Millo, Overview of innovative ICE technologies • Wednesday 21/07, h: 11-13: Dott. Andrea Piano, SI ICE combustion modelling: Turbulent Jet Ignition • Friday 23/07, h: 11-13: Dott. Andrea Piano, SI ICE combustion modelling: Hydrogen • Monday 26/07, h: 11-13: Dott. Andrea Piano, CI ICE combustion modelling: 1D-/3D-CFD coupling + DFI • Wednesday 28/07, h: 11-13: Dott. Andrea Piano, DF ICE combustion modelling: H2-diesel, NG-diesel concepts Il corso sarà tenuto in inglese tramite virtual classroom (BBB o Zoom).