Flame simulations are used to gain insight into combustion physics and to design combustion systems such as piston engines, gas–turbine engines, and process heaters. In these simulations, the balance between reaction and molecular mixing plays a key role. To model molecular mixing, using a full multicomponent approach leads to high accuracy at the expense of a hefty computational cost. Thus, the use of a mixture-averaged model is usually preferred. Hence, this paper presents and tests a new OpenFOAM®-based code that incorporates a detailed, mixture-averaged approach for calculating transport properties in reacting flows, and provides a capability to solve either fully-compressible or low-Mach-number governing equations. The code is made rea...
In this work, we applied and analyzed a new computational code, called laminarSMOKE, for the numeric...
Dr. D. J. P. Lahaye. Combustion is a complex subject, requiring knowledge of many sub-disciplines su...
This study reports development and validation of two parallel flame solvers with soot models based o...
Flame simulations are used to gain insight into combustion physics and to design combustion systems ...
Although OpenFOAM is a widely-used open source computational fluid dynamics (CFD) tool, it is limite...
A versatile numerical tool based on the open-source framework OpenFOAM has been developed in this pa...
In this study, we developed a new reacting flow solver based on OpenFOAM (OF) and Cantera, with the ...
In computational fluid dynamics (CFD), the mathematical description of a physical phenomenon that in...
Detailed chemistry-based computational fluid dynamics (CFD) simulations are computationally expensiv...
Unsteady multi-dimensional numerical simulation of turbulent flames is a widely recognized tool for...
A new quasi-direct numerical simulation (q-DNS) solver named combustionFoam, capable of simulating r...
In recent years, a free, open source CFD software package called OpenFOAM has been attracting increa...
Unsteady multi-dimensional numerical simulation of turbulent flames is a well recognized tool for re...
In this work, we applied and analyzed a new computational code, called laminarSMOKE, for the numeric...
A new OpenFOAM solver for combustion problems requiring detailed kinetic mechanisms is presented. Th...
In this work, we applied and analyzed a new computational code, called laminarSMOKE, for the numeric...
Dr. D. J. P. Lahaye. Combustion is a complex subject, requiring knowledge of many sub-disciplines su...
This study reports development and validation of two parallel flame solvers with soot models based o...
Flame simulations are used to gain insight into combustion physics and to design combustion systems ...
Although OpenFOAM is a widely-used open source computational fluid dynamics (CFD) tool, it is limite...
A versatile numerical tool based on the open-source framework OpenFOAM has been developed in this pa...
In this study, we developed a new reacting flow solver based on OpenFOAM (OF) and Cantera, with the ...
In computational fluid dynamics (CFD), the mathematical description of a physical phenomenon that in...
Detailed chemistry-based computational fluid dynamics (CFD) simulations are computationally expensiv...
Unsteady multi-dimensional numerical simulation of turbulent flames is a widely recognized tool for...
A new quasi-direct numerical simulation (q-DNS) solver named combustionFoam, capable of simulating r...
In recent years, a free, open source CFD software package called OpenFOAM has been attracting increa...
Unsteady multi-dimensional numerical simulation of turbulent flames is a well recognized tool for re...
In this work, we applied and analyzed a new computational code, called laminarSMOKE, for the numeric...
A new OpenFOAM solver for combustion problems requiring detailed kinetic mechanisms is presented. Th...
In this work, we applied and analyzed a new computational code, called laminarSMOKE, for the numeric...
Dr. D. J. P. Lahaye. Combustion is a complex subject, requiring knowledge of many sub-disciplines su...
This study reports development and validation of two parallel flame solvers with soot models based o...