The present study investigates the impact of various combustion chamber geometries in a direct injection engine fueled with diesel–biodiesel–ethanol blends mixed with alumina nano-additives, named as high-performance fuel (HPF). The HPF was subjected to various combustion bowl geometries including standard hemispherical chamber geometry (SG), shallow depth reentrant bowl geometry (CG1), toroidal reentrant chamber geometry (CG2), and toroidal chamber geometry (CG3). Performance results reveal that in comparison with the SG-HPF arrangement, brake thermal efficiency increased by 11.51% and brake-specific energy consumption decreased by 10.37% when using the CG2-HPF arrangement. For emmisions, CG2-HPF reduced carbon monoxide, hydrocarbon, and s...
An experimental study was performed in the gist research to determine the effect of adding Al2O3 nan...
HCCI combustion is highly dependent on in-cylinder thermal conditions and the chemical kinetics of t...
This article presents our research results on the physical-chemical and direct injection diesel engi...
The engine performance has been improved by modifying the combustion chamber shape of the diesel eng...
In this work, we studied the combustion characteristics of a direct injection compression ignition (...
This work presents a number of integrated strategies aimed at enhancing the performance of the diese...
Diesel engine parameters are in general more compatible with operating on neat diesel than biodiesel...
The concept of combustion chamber modifications of diesel engines has been attracting much attention...
\u3cp\u3eBio-derived alcohol fuels and oxygenated aromatic hydrocarbons are interesting alternative ...
[EN] Two research paths are being followed to develop compression ignition engines, the extreme opti...
This paper aims to discuss the influences of the doping of different types of nanoparticles into the...
In this paper, the combustion, performance and emission characteristics of a single cylinder dies...
This research analyzes the impact of the geometry of the combustion chamber. Diesel engine MINI-PETE...
Homogeneous charge compression ignition (HCCI) engines employ a relatively new mode of combustion te...
This experimental work investigates the performance, combustion and emission characteristics of a si...
An experimental study was performed in the gist research to determine the effect of adding Al2O3 nan...
HCCI combustion is highly dependent on in-cylinder thermal conditions and the chemical kinetics of t...
This article presents our research results on the physical-chemical and direct injection diesel engi...
The engine performance has been improved by modifying the combustion chamber shape of the diesel eng...
In this work, we studied the combustion characteristics of a direct injection compression ignition (...
This work presents a number of integrated strategies aimed at enhancing the performance of the diese...
Diesel engine parameters are in general more compatible with operating on neat diesel than biodiesel...
The concept of combustion chamber modifications of diesel engines has been attracting much attention...
\u3cp\u3eBio-derived alcohol fuels and oxygenated aromatic hydrocarbons are interesting alternative ...
[EN] Two research paths are being followed to develop compression ignition engines, the extreme opti...
This paper aims to discuss the influences of the doping of different types of nanoparticles into the...
In this paper, the combustion, performance and emission characteristics of a single cylinder dies...
This research analyzes the impact of the geometry of the combustion chamber. Diesel engine MINI-PETE...
Homogeneous charge compression ignition (HCCI) engines employ a relatively new mode of combustion te...
This experimental work investigates the performance, combustion and emission characteristics of a si...
An experimental study was performed in the gist research to determine the effect of adding Al2O3 nan...
HCCI combustion is highly dependent on in-cylinder thermal conditions and the chemical kinetics of t...
This article presents our research results on the physical-chemical and direct injection diesel engi...