This work deals with the analysis of the performance and emissions of ethanol HCCI/PSCCI engines by means of a Dynamic Adaptive Chemistry (DAC) technique. The implementation of such a technique provides a reduction of the computational cost of the simulations without compromising the reliability of the results. Very accurate results, in terms of pressure and heat release rate profiles and CO, CO2 and UHC emissions, are obtained with ethanol as the only species for the DRGEP graph search both with the charge uniformly distributed in the combustion chamber and by directly injecting liquid fuel in the same chamber. The global speed up of DAC simulations is twice with respect to a full mechanism which consists of 57 species and 288 ...
This work explores the coupling of advanced combustion strategies for engines with bio-based fuels. ...
The environmental impact of automotive transport systems and the need for reducing petroleum depende...
The detailed chemical kinetics of ethanol was reduced by means of path analysis and sensitivity anal...
This work deals with the analysis of the performance and emissions of ethanol HCCI/PSCCI engines by...
The Dynamic Adaptive Chemistry (DAC) technique is extended in this work to multidimensional simulati...
Using detailed mechanisms to include chemical kinetics in computational fluid dynamics simulations i...
Multi-dimensional models represent today consolidated tools to simulate the combustion process in HC...
Using detailed mechanisms to include chemical kinetics in computational fluid dynamics simulations i...
A mathematical engine model is developed to study the operation process in Homogeneous Charge Compre...
The partial fuel stratification, by means of direct fuel injection, is one of the most suitable comb...
In the global energy context, many solutions are suggested to change our energy dependence and solve...
Calculations on a Homogeneous Charge Compression Ignition (HCCI) engine have been performed. Zero-di...
A comprehensive analysis of the kinetic mechanisms for ethanol oxidation is presented which is drive...
This work explores the coupling of advanced combustion strategies for engines with bio-based fuels. ...
The environmental impact of automotive transport systems and the need for reducing petroleum depende...
The detailed chemical kinetics of ethanol was reduced by means of path analysis and sensitivity anal...
This work deals with the analysis of the performance and emissions of ethanol HCCI/PSCCI engines by...
The Dynamic Adaptive Chemistry (DAC) technique is extended in this work to multidimensional simulati...
Using detailed mechanisms to include chemical kinetics in computational fluid dynamics simulations i...
Multi-dimensional models represent today consolidated tools to simulate the combustion process in HC...
Using detailed mechanisms to include chemical kinetics in computational fluid dynamics simulations i...
A mathematical engine model is developed to study the operation process in Homogeneous Charge Compre...
The partial fuel stratification, by means of direct fuel injection, is one of the most suitable comb...
In the global energy context, many solutions are suggested to change our energy dependence and solve...
Calculations on a Homogeneous Charge Compression Ignition (HCCI) engine have been performed. Zero-di...
A comprehensive analysis of the kinetic mechanisms for ethanol oxidation is presented which is drive...
This work explores the coupling of advanced combustion strategies for engines with bio-based fuels. ...
The environmental impact of automotive transport systems and the need for reducing petroleum depende...
The detailed chemical kinetics of ethanol was reduced by means of path analysis and sensitivity anal...