Turbulent combustion modelling and experiments: Recent trends and developments
The development of better laser-based experimental methods and the fast rise in computer
power has created an unprecedented shift in turbulent combustion research. The range of …
power has created an unprecedented shift in turbulent combustion research. The range of …
Systematic analysis strategies for the development of combustion models from DNS: A review
P Trisjono, H Pitsch - Flow, Turbulence and Combustion, 2015 - Springer
Direct numerical simulation (DNS) of turbulent combustion is a research area becoming ever
more important and has been established as a powerful tool in combustion science to …
more important and has been established as a powerful tool in combustion science to …
Modelling n-dodecane spray and combustion with the transported probability density function method
An n-dodecane spray in temperature and pressure conditions typical of diesel engines,
known as Spray A, is modelled by the transported probability density function (TPDF) …
known as Spray A, is modelled by the transported probability density function (TPDF) …
[HTML][HTML] On the role of mixing models in the simulation of MILD combustion using finite-rate chemistry combustion models
The present work shows an in-depth analysis about the role of mixing models on the
simulation of MILD combustion using a finite-rate combustion model, the Partially Stirred …
simulation of MILD combustion using a finite-rate combustion model, the Partially Stirred …
Key modeling aspects in the simulation of a quasi-industrial 20 kW moderate or intense low-oxygen dilution combustion chamber
A numerical and experimental investigation of a quasi-industrial furnace operating in
moderate or intense low-oxygen dilution combustion regime, and fed with natural gas, is …
moderate or intense low-oxygen dilution combustion regime, and fed with natural gas, is …
A stochastic multiple map** conditioning computational model in OpenFOAM for turbulent combustion
Computational models for combustion must account for complex and inherently
interconnected physical processes including dispersion, mixing, chemical reactions …
interconnected physical processes including dispersion, mixing, chemical reactions …
Assessment of mixing time scales for a sparse particle method
A sparse particle implementation of the multiple map** conditioning/large eddy simulation
(MMC-LES) model is assessed against direct numerical simulations (DNS) of non-premixed …
(MMC-LES) model is assessed against direct numerical simulations (DNS) of non-premixed …
Modeling non-premixed combustion using tabulated kinetics and different fame structure assumptions
Nowadays, detailed kinetics is necessary for a proper estimation of both flame structure and
pollutant formation in compression ignition engines. However, large mechanisms and the …
pollutant formation in compression ignition engines. However, large mechanisms and the …
A pairwise mixing model with kernel constraint and its appraisal in transported PDF simulations of ethylene flames
Modeling micro-mixing remains a primary challenge for the transported probability density
function (TPDF) method. In this study, the pairwise mixing with kernel constraint (KerM) …
function (TPDF) method. In this study, the pairwise mixing with kernel constraint (KerM) …
A mixing timescale model for TPDF simulations of turbulent premixed flames
Transported probability density function (TPDF) methods are an attractive modeling
approach for turbulent flames as chemical reactions appear in closed form. However …
approach for turbulent flames as chemical reactions appear in closed form. However …