Add to ORKGIn this article, a new flame extinction model based on the k/epsilon turbulence time scale concept is proposed to predict the flame liftoff heights over a wide range of coflow temperature and O-2 mass fraction of the coflow. The flame is assumed to be quenched, when the fluid time scale is less than the chemical time scale ( Da < 1). The chemical time scale is derived as a function of temperature, oxidizer mass fraction, fuel dilution, velocity of the jet and fuel type. The present extinction model has been tested for a variety of conditions: ( a) ambient coflow conditions ( 1 atm and 300 K) for propane, methane and hydrogen jet flames, ( b) highly preheated coflow, and ( c) high temperature and low oxidizer concentration coflow. Predicted...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A particle-based transported probability density function (PDF) method with a novel chemistry accele...
This paper seeks to address unusual flame stabilisation behaviour observed in experimental jet flame...
In this article, a new flame extinction model based on the k/epsilon turbulence time scale concept i...
In this article, a new flame extinction model based on the k/ε turbulence time scale concept is...
In this article, a new flame extinction model based on the k/ε turbulence time scale concept is...
In this article, flame liftoff height predictions have been carried out for diluted methane jet flam...
Graduation date: 2017The Moderate or Intense Low-oxygen Dilution (MILD) combustion regime has receiv...
Recently, an extinction model was successfully integrated with a conditional moment closure (CMC) ap...
Flame lift-off heights are modeled in diesel jets by using diffusion flamelet extinction as a criter...
Available online 16 June 2016A new non-premixed definition for moderate or intense low oxygen diluti...
In this article, conditional moment closure model (CMC) with detailed chemistry is used to model lif...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A particle-based transported probability density function (PDF) method with a novel chemistry accele...
This paper seeks to address unusual flame stabilisation behaviour observed in experimental jet flame...
In this article, a new flame extinction model based on the k/epsilon turbulence time scale concept i...
In this article, a new flame extinction model based on the k/ε turbulence time scale concept is...
In this article, a new flame extinction model based on the k/ε turbulence time scale concept is...
In this article, flame liftoff height predictions have been carried out for diluted methane jet flam...
Graduation date: 2017The Moderate or Intense Low-oxygen Dilution (MILD) combustion regime has receiv...
Recently, an extinction model was successfully integrated with a conditional moment closure (CMC) ap...
Flame lift-off heights are modeled in diesel jets by using diffusion flamelet extinction as a criter...
Available online 16 June 2016A new non-premixed definition for moderate or intense low oxygen diluti...
In this article, conditional moment closure model (CMC) with detailed chemistry is used to model lif...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A new non-premixed definition for moderate or intense low oxygen dilution (MILD) com- bustion based ...
A particle-based transported probability density function (PDF) method with a novel chemistry accele...
This paper seeks to address unusual flame stabilisation behaviour observed in experimental jet flame...