Add to ORKGThis thesis focuses on the experimental studies of the cavitating in-nozzle flow of large two-stroke marine Diesel engine fuel injector nozzles and how it affects the spray morphology and combustion behaviour.\ua0To further increase the efficiency of large two-stroke marine Diesel engines, a better understanding of the fuel spray atomization process is necessary. Previous work has shown that the cavitating in-nozzle flow of those fuel injectors significantly influences the spray breakup. Spray deflections have been observed which can lead to cylinder wall wetting resulting in increased fuel consumption, emissions, component temperatures and loss of lubrication film.Large two-stroke marine Diesel engines have significantly different injector...
A full-scale fuel injector for a large marine engine has been studied inside an optically accessible...
In diesel engines the fuel injection system produces the spray, which directly affects the combus-ti...
International audienceWe present an extensive experimental study focused on understanding the impact...
This thesis will focus on the experimental studies of in-nozzle flow and primary breakup of pressure...
Injector geometries of large marine two-stroke diesel engines differ extensively from configurations...
To further increase efficiency as well as to reduce emissions of large two-stroke marine Diesel engi...
A consolidated effort at optically characterising flow patterns, in-nozzle cavitation, and near-nozz...
As emission regulations for large two-stroke marine Diesel engines increase as well, the manufacture...
Cavitation dynamics of diesel and gasoline injection nozzles has been a topic of ongoing research du...
This thesis addresses two potential problems facing investigators involved in Diesel engine developm...
In order to more accurately reproduce diesel sprays a strategy including measurement of nozzle inlet...
Due to world trend on the emission regulations and greater demand of fuel economy,the research on ad...
Cavitation structures developing within the injection holes of high-pressure Diesel injectors are kn...
Cavitation and turbulence inside a diesel injector play a critical role in primary spray breakup and...
Methods for reducing engine-out emissions are urgently needed to mitigate climate change and air pol...
A full-scale fuel injector for a large marine engine has been studied inside an optically accessible...
In diesel engines the fuel injection system produces the spray, which directly affects the combus-ti...
International audienceWe present an extensive experimental study focused on understanding the impact...
This thesis will focus on the experimental studies of in-nozzle flow and primary breakup of pressure...
Injector geometries of large marine two-stroke diesel engines differ extensively from configurations...
To further increase efficiency as well as to reduce emissions of large two-stroke marine Diesel engi...
A consolidated effort at optically characterising flow patterns, in-nozzle cavitation, and near-nozz...
As emission regulations for large two-stroke marine Diesel engines increase as well, the manufacture...
Cavitation dynamics of diesel and gasoline injection nozzles has been a topic of ongoing research du...
This thesis addresses two potential problems facing investigators involved in Diesel engine developm...
In order to more accurately reproduce diesel sprays a strategy including measurement of nozzle inlet...
Due to world trend on the emission regulations and greater demand of fuel economy,the research on ad...
Cavitation structures developing within the injection holes of high-pressure Diesel injectors are kn...
Cavitation and turbulence inside a diesel injector play a critical role in primary spray breakup and...
Methods for reducing engine-out emissions are urgently needed to mitigate climate change and air pol...
A full-scale fuel injector for a large marine engine has been studied inside an optically accessible...
In diesel engines the fuel injection system produces the spray, which directly affects the combus-ti...
International audienceWe present an extensive experimental study focused on understanding the impact...