Purpose – This paper aims to study the heat transfer phenomenon occurring between heated walls and impinging fuel, showing the strict relationship between cooling effect after impingement and enhancing of wallfilm formation. The study focuses on a fundamental task in terms of pollutant emissions in internal combustion engines, aiming at giving a major contribution to the optimization of energy conversion systems in terms of environmental impact. Design/methodology/approach – The paper is based on experimental campaigns relevant at taking measurements of an impinging spray over a heated wall in a confined vessel. The results, in both qualitative and quantitative terms (measurements of liquid and vapour radial penetration and thickness), are ...
The objective of this work is to compare the heat transfer and liquid penetration of two different d...
Impingement/effusion internal wall heat transfer was investigated using conjugate heat transfer (CHT...
Interest in spray-wall interactions has intensified recently because of the development of direct in...
Purpose – This paper aims to study the heat transfer phenomenon occurring between heated walls and i...
Analysis of spray-wall interaction is a major issue in the study of the combustion process in DI die...
During gasoline direct injection (GDI) in spark ignition engines, droplets may hit piston or liner s...
[EN] Spray¿wall interactions (SWI) directly affect fuel¿air mixture and emissions formation. Therefo...
Gasoline direct injection (GDI) engines are characterized by complex phenomena involving spray dynam...
The necessity to study spray-wall interaction in internal combustion engines is driven by the eviden...
Spray-wall as well as spray-spray interactions in direct injection diesel engines have been found to...
In gasoline direct injection (GDI) engines, the dynamics of the gasoline spray and the possible spra...
Heat transfer from impinging sprays in direct injected diesel engines has been found to influence th...
The objective of this work is to compare the heat transfer and liquid penetration of two different d...
Impingement/effusion internal wall heat transfer was investigated using conjugate heat transfer (CHT...
Interest in spray-wall interactions has intensified recently because of the development of direct in...
Purpose – This paper aims to study the heat transfer phenomenon occurring between heated walls and i...
Analysis of spray-wall interaction is a major issue in the study of the combustion process in DI die...
During gasoline direct injection (GDI) in spark ignition engines, droplets may hit piston or liner s...
[EN] Spray¿wall interactions (SWI) directly affect fuel¿air mixture and emissions formation. Therefo...
Gasoline direct injection (GDI) engines are characterized by complex phenomena involving spray dynam...
The necessity to study spray-wall interaction in internal combustion engines is driven by the eviden...
Spray-wall as well as spray-spray interactions in direct injection diesel engines have been found to...
In gasoline direct injection (GDI) engines, the dynamics of the gasoline spray and the possible spra...
Heat transfer from impinging sprays in direct injected diesel engines has been found to influence th...
The objective of this work is to compare the heat transfer and liquid penetration of two different d...
Impingement/effusion internal wall heat transfer was investigated using conjugate heat transfer (CHT...
Interest in spray-wall interactions has intensified recently because of the development of direct in...