In fire simulations, it is essential to include detailed chemical kinetics for the description of the combustion process where intermediate chemical products are formed through a series of elementary reactions. A novel in-house fire field model based on Large Eddy Simulations (LES) approach incorporating fully coupled subgrid-scale (SGS) turbulence, combustion, soot formation and radiation models for the interactive and non-linear nature of the turbulent reacting flow in compartment fire phenomena has been developed in this article. It uniquely embraces the detailed reaction mechanisms for the chemical processes involved during combustion. Since the modelling of hydrocarbons by-products are enabled when considering the full chemical profile...
A detailed literature review and evaluation study has been undertaken for two soot models that are, ...
Research efforts are focused on advancing soot modeling in laminar flames using a detailed sectional...
Soot released from fires not only causes danger to lives and property damage, but also effects fire ...
A novel in-house computation code based on large eddy simulations (LES) incorporating fully coupled ...
This study proposes a detailed soot modeling framework for large-eddy simulation (LES) to accurately...
Soot and radiation play an important role when designing practical combustion devices, and great eff...
International audienceDesigning efficient and clean combustion devices to reduce soot formation in p...
A comparison study is undertaken to investigate the suitability of three widely used models for soot...
Soot is carbonaceous particulate matter formed due to the incomplete combustion of hydrocarbon fuels...
<p>This research is part of an ongoing assessment to identify the most promising soot models for app...
The present article outlines a simplified reaction mechanism for the formation, growth, and combusti...
The modeling of soot formation and oxidation under industrially relevant conditions has made signifi...
An in-house large eddy simulation (LES) based fire field model has been developed for large-scale co...
Soot particles formed and emitted from (e.g.) direct-injected diesel engines are dangerous to human ...
This paper describes the application of a fire field model combined with detailed chemistry to the s...
A detailed literature review and evaluation study has been undertaken for two soot models that are, ...
Research efforts are focused on advancing soot modeling in laminar flames using a detailed sectional...
Soot released from fires not only causes danger to lives and property damage, but also effects fire ...
A novel in-house computation code based on large eddy simulations (LES) incorporating fully coupled ...
This study proposes a detailed soot modeling framework for large-eddy simulation (LES) to accurately...
Soot and radiation play an important role when designing practical combustion devices, and great eff...
International audienceDesigning efficient and clean combustion devices to reduce soot formation in p...
A comparison study is undertaken to investigate the suitability of three widely used models for soot...
Soot is carbonaceous particulate matter formed due to the incomplete combustion of hydrocarbon fuels...
<p>This research is part of an ongoing assessment to identify the most promising soot models for app...
The present article outlines a simplified reaction mechanism for the formation, growth, and combusti...
The modeling of soot formation and oxidation under industrially relevant conditions has made signifi...
An in-house large eddy simulation (LES) based fire field model has been developed for large-scale co...
Soot particles formed and emitted from (e.g.) direct-injected diesel engines are dangerous to human ...
This paper describes the application of a fire field model combined with detailed chemistry to the s...
A detailed literature review and evaluation study has been undertaken for two soot models that are, ...
Research efforts are focused on advancing soot modeling in laminar flames using a detailed sectional...
Soot released from fires not only causes danger to lives and property damage, but also effects fire ...