Add to ORKGDue to excessive stress in the orifice, cavitation occurs in high-pressure Diesel injectors. As experiments are very hard to manage for injection conditions (small-scaled, high-speed flow), a numerical model seems to be the right tool to get a better understanding of the flow features inside and at the exit of the injector nozzle. The purpose of this paper is to present a simulation code based on a Homogeneous Equilibrium Model. The validation of the code for typical cavitating flow configuration is presented. Then numerical results of cavitating flows in Diesel injectors are shown. Then we report concluding remarks and objectives
[EN] The objective of the present work is to investigate numerically the 3D flow within diesel injec...
AbstractIn Diesel engines, fuel-air mixing process and spray evolution drastically affect combustion...
The fuel injection system in diesel engines has crucial influence on the engine’s combustion process...
[EN] In this paper, the behaviour of the internal nozzle flow and cavitation phenomenon are numerica...
Firstly, the code has been validated at real operating diesel engine conditions with experimental da...
In this paper, cavitation and pressure parameters measuredin a model diesel injector are compared to...
In this paper a combined experimental and computational study was carried out in order to assess the...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
Cavitation and turbulence inside a diesel injector play a critical role in primary spray breakup and...
AbstractIn Diesel engines, fuel-air mixing process and spray evolution drastically affect combustion...
The modern fuel injectors work with ultra-high injection pressure with a micro-size nozzle, which in...
[EN] The objective of the present work is to investigate numerically the 3D flow within diesel injec...
AbstractIn Diesel engines, fuel-air mixing process and spray evolution drastically affect combustion...
The fuel injection system in diesel engines has crucial influence on the engine’s combustion process...
[EN] In this paper, the behaviour of the internal nozzle flow and cavitation phenomenon are numerica...
Firstly, the code has been validated at real operating diesel engine conditions with experimental da...
In this paper, cavitation and pressure parameters measuredin a model diesel injector are compared to...
In this paper a combined experimental and computational study was carried out in order to assess the...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
In the present work, a methodology for modeling flow behavior inside the fuel injector holes is appl...
Cavitation and turbulence inside a diesel injector play a critical role in primary spray breakup and...
AbstractIn Diesel engines, fuel-air mixing process and spray evolution drastically affect combustion...
The modern fuel injectors work with ultra-high injection pressure with a micro-size nozzle, which in...
[EN] The objective of the present work is to investigate numerically the 3D flow within diesel injec...
AbstractIn Diesel engines, fuel-air mixing process and spray evolution drastically affect combustion...
The fuel injection system in diesel engines has crucial influence on the engine’s combustion process...