The simulation of combustion chemistry in internal combustion engines is challenging due to the need to include detailed reaction mechanisms to describe the engine physics. Computational times needed for coupling full chemistry to CFD simulations are still too computationally demanding, even when distributed computer systems are exploited. For these reasons the present paper proposes a time scale separation approach for the integration of the chemistry differential equations and applies it in an engine CFD code. The time scale separation is achieved through the estimation of a characteristic time for each of the species and the introduction of a sampling timestep, wherein the chemistry is subcycled during the overall integration. This allow...
Combustion regimes approaching the unity Damkohler number present challenges due to the increase in ...
The rapid development of computer hardware during the past decade has contributed substantially to a...
Interaction between turbulent mixing and chemical kinetics is the key parameter which determines the...
Detailed mechanisms describing ignition, flame propagation and pollutant formation typically involve...
The paper presents the development of a novel approach to the solution of detailed chemistry in inte...
Multi-dimensional models represent today consolidated tools to simulate the combustion process in HC...
The role of computer modeling has grown recently to integrate itself as an inseparable tool to exp...
The integration of the stiff ODE systems associated with chemical kinetics is the most computational...
To accurately analyze combustion and emissions in the internal combustion engine, hundreds of chemic...
A study was performed that takes into account both turbulence and chemical kinetic effects in the nu...
Modeling the Homogeneous Charge Compression Ignition (HCCI) engine requires a balanced approach that...
Computational fluid dynamics (CFD) model has been widely applied in internal combustion (IC) engine ...
Using detailed mechanisms to include chemical kinetics in computational fluid dynamics simulations i...
This paper presents several advanced solution strategies for overcoming the CPU time barrier associa...
In this paper, the FPI (Flame Prolongation of ILDM) approach for chemistry tabulation is applied to...
Combustion regimes approaching the unity Damkohler number present challenges due to the increase in ...
The rapid development of computer hardware during the past decade has contributed substantially to a...
Interaction between turbulent mixing and chemical kinetics is the key parameter which determines the...
Detailed mechanisms describing ignition, flame propagation and pollutant formation typically involve...
The paper presents the development of a novel approach to the solution of detailed chemistry in inte...
Multi-dimensional models represent today consolidated tools to simulate the combustion process in HC...
The role of computer modeling has grown recently to integrate itself as an inseparable tool to exp...
The integration of the stiff ODE systems associated with chemical kinetics is the most computational...
To accurately analyze combustion and emissions in the internal combustion engine, hundreds of chemic...
A study was performed that takes into account both turbulence and chemical kinetic effects in the nu...
Modeling the Homogeneous Charge Compression Ignition (HCCI) engine requires a balanced approach that...
Computational fluid dynamics (CFD) model has been widely applied in internal combustion (IC) engine ...
Using detailed mechanisms to include chemical kinetics in computational fluid dynamics simulations i...
This paper presents several advanced solution strategies for overcoming the CPU time barrier associa...
In this paper, the FPI (Flame Prolongation of ILDM) approach for chemistry tabulation is applied to...
Combustion regimes approaching the unity Damkohler number present challenges due to the increase in ...
The rapid development of computer hardware during the past decade has contributed substantially to a...
Interaction between turbulent mixing and chemical kinetics is the key parameter which determines the...