The conditional-moment closure (CMC) equation for the evolution of a large Lewis number scalar, soot, is derived starting from the joint probability density function (pdf) equation for the gas-phase mixture fraction, ξ g , and the soot mass fraction, Y s . Unlike previous approaches starting with the joint pdf, the residual terms that result from the typical closure models were retained. A new formulation of the one-dimensional turbulence (ODT) model suitable for spatially evolving flows with buoyant acceleration and radiative transport in participating media was employed to carry out simulations of a prototypical ethene fire. The resulting ODT evolution of ξ g and Y s was used to assess the significance of various terms in the CMC equation...
The presented work attempts to extend the conditional moment closure method for noon-premixed. turbu...
The focus of the present work is on the prediction of soot in the turbulent Delft III/Adelaide natur...
The method of moments with interpolative closure (MOMIC) for soot formation and growth provides a de...
Presented are results obtained from the incorporation of a semi-empirical soot model into a first-or...
Soot particle dynamics, including particle size distributions (PSDs) and related statistics, are of ...
The need to establish actual particle size distributions (PSDs) of soot emissions from the nanoscale...
In this article, we combine the large eddy simulation (LES) concept with the population balance equa...
Soot is carbonaceous particulate matter formed due to the incomplete combustion of hydrocarbon fuels...
The present paper presents a comprehensive approach for modelling soot formation in turbulent flows ...
In recent times, the LES-PBE-PDF framework has been developed to couple large eddy simulation (LES) ...
International audienceThe formation of soot in actual combustion systems involves several complex pr...
The copyright of this thesis rests with the author and no quotation from it or information derived f...
Current ability to predict radiation heat release from large fires via numerical simulation is limit...
The current work studies the modelling of soot in turbulent combustion via a sectional model, a two-...
The mechanisms governing the formation and destruction of soot in turbulent combustion are intimate...
The presented work attempts to extend the conditional moment closure method for noon-premixed. turbu...
The focus of the present work is on the prediction of soot in the turbulent Delft III/Adelaide natur...
The method of moments with interpolative closure (MOMIC) for soot formation and growth provides a de...
Presented are results obtained from the incorporation of a semi-empirical soot model into a first-or...
Soot particle dynamics, including particle size distributions (PSDs) and related statistics, are of ...
The need to establish actual particle size distributions (PSDs) of soot emissions from the nanoscale...
In this article, we combine the large eddy simulation (LES) concept with the population balance equa...
Soot is carbonaceous particulate matter formed due to the incomplete combustion of hydrocarbon fuels...
The present paper presents a comprehensive approach for modelling soot formation in turbulent flows ...
In recent times, the LES-PBE-PDF framework has been developed to couple large eddy simulation (LES) ...
International audienceThe formation of soot in actual combustion systems involves several complex pr...
The copyright of this thesis rests with the author and no quotation from it or information derived f...
Current ability to predict radiation heat release from large fires via numerical simulation is limit...
The current work studies the modelling of soot in turbulent combustion via a sectional model, a two-...
The mechanisms governing the formation and destruction of soot in turbulent combustion are intimate...
The presented work attempts to extend the conditional moment closure method for noon-premixed. turbu...
The focus of the present work is on the prediction of soot in the turbulent Delft III/Adelaide natur...
The method of moments with interpolative closure (MOMIC) for soot formation and growth provides a de...