The spray characteristics of a 6-hole injector were examined in a single cylinder optical direct injection spark ignition engine. The effects of injection timing, in-cylinder charge motion, fuel injection pressure, and coolant temperature were investigated using the 2-dimensional Mie scattering technique. It was confirmed that the in-cylinder charge motion played a major role in the fuel spray distribution during the induction stroke while injection timing had to be carefully considered at high injection pressures during the compression stroke to prevent spray impingement on the piston
High-pressure multi-hole nozzles, carrying a Diesel-derived technology, are believed to be promising...
This study aims to clarify the spray development of ethanol, gasoline and iso-octane fuel, delivered...
In Internal Combustion (IC) engine, performance and emission levels are dependent on fuel-air mixtur...
The direct injection concept is a prominent issue in spark ignition engines owing to direct injectio...
High-pressure multi-hole injectors are one candidate injector type for closed-spaced direct injectio...
The characteristics of the hollow-cane fuel spray produced by a centrally- located pressure-swirl at...
This paper addresses the need for fundamental understanding of the mechanisms of fuel spray formatio...
Levels of liquid fuel impingement on in-cylinder surfaces in direct injection spark ignition engines...
This paper focuses on ways of improving the spray formation from spray-guided multi-hole gasoline di...
The effects of fuel type and in-cylinder flow on spray formation from a multi-hole injector were stu...
The instantaneous structure of sprays from two Direct Injection, Spark Ignition (DISI) injectors wer...
In an attempt to study the numerous contributors towards cyclic variations in combustion in a direct...
In this work, the Engine Combustion Network Spray G injector was mounted in the Darmstadt optical-ac...
Extensive literature exists on spray development, mixing and combustion regarding engine modeling an...
In recent development of gasoline combustion engines, direct injection (DI) technology has been wide...
High-pressure multi-hole nozzles, carrying a Diesel-derived technology, are believed to be promising...
This study aims to clarify the spray development of ethanol, gasoline and iso-octane fuel, delivered...
In Internal Combustion (IC) engine, performance and emission levels are dependent on fuel-air mixtur...
The direct injection concept is a prominent issue in spark ignition engines owing to direct injectio...
High-pressure multi-hole injectors are one candidate injector type for closed-spaced direct injectio...
The characteristics of the hollow-cane fuel spray produced by a centrally- located pressure-swirl at...
This paper addresses the need for fundamental understanding of the mechanisms of fuel spray formatio...
Levels of liquid fuel impingement on in-cylinder surfaces in direct injection spark ignition engines...
This paper focuses on ways of improving the spray formation from spray-guided multi-hole gasoline di...
The effects of fuel type and in-cylinder flow on spray formation from a multi-hole injector were stu...
The instantaneous structure of sprays from two Direct Injection, Spark Ignition (DISI) injectors wer...
In an attempt to study the numerous contributors towards cyclic variations in combustion in a direct...
In this work, the Engine Combustion Network Spray G injector was mounted in the Darmstadt optical-ac...
Extensive literature exists on spray development, mixing and combustion regarding engine modeling an...
In recent development of gasoline combustion engines, direct injection (DI) technology has been wide...
High-pressure multi-hole nozzles, carrying a Diesel-derived technology, are believed to be promising...
This study aims to clarify the spray development of ethanol, gasoline and iso-octane fuel, delivered...
In Internal Combustion (IC) engine, performance and emission levels are dependent on fuel-air mixtur...