MILD combustion is a recent development in the combustion of hydrocarbon fuels which promises high efficiencies and low NOx emissions. In this paper we analyze the mathematical and numerical modeling of a Jet in Hot Coflow (JHC) burner, which is designed to emulate a moderate and intense low oxygen dilution (MILD) combustion regime [1]. This paper initially discusses the effects of several modeling strategies on the prediction of the JHC flame structure using the CFD code FLUENT 6.3.26. Effects of various turbulence models and their boundary conditions have been studied. Moreover, the detailed kinetic mechanism adopted in the CFD simulations is successfully validated in the conditions of interest using recent literature data [2] on the effe...
A numerical investigation of a jet in hot coflow (JHC) burner emulating Moderate or Intense Low-oxyg...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
Two reduced kinetic models, incorporating thermal, N2O, NNH as well as HNO/NO2 intermediate routes, ...
MILD combustion is a recent development in the combustion of hydrocarbon fuels which promises high e...
MILD combustion is a recent development in the combustion of hydrocarbon fuels which promises high e...
MILD combustion is a recent development in the combustion of hydrocarbon fuels which promises high e...
Results of numerical modelling of turbulent non-premixed Methane/Hydrogen (1/1 by volume) flames iss...
This paper reports the results of a numerical investigation of several turbulent nonpremixed ethylen...
This paper reports the results of a numerical investigation of several turbulent nonpremixed ethylen...
This paper reports the results of a numerical investigation of several turbulent nonpremixed ethylen...
This paper reports the results of a numerical investigation of several turbulent nonpremixed ethylen...
In this paper, turbulent non-premixed CH4+H2 jet flame issuing into a hot and diluted co-flow air...
Two reduced kinetic models, incorporating thermal, N(2)0, NNH as well as HNO/NO2 intermediate routes...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
A numerical investigation of a jet in hot coflow (JHC) burner emulating Moderate or Intense Low-oxyg...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
Two reduced kinetic models, incorporating thermal, N2O, NNH as well as HNO/NO2 intermediate routes, ...
MILD combustion is a recent development in the combustion of hydrocarbon fuels which promises high e...
MILD combustion is a recent development in the combustion of hydrocarbon fuels which promises high e...
MILD combustion is a recent development in the combustion of hydrocarbon fuels which promises high e...
Results of numerical modelling of turbulent non-premixed Methane/Hydrogen (1/1 by volume) flames iss...
This paper reports the results of a numerical investigation of several turbulent nonpremixed ethylen...
This paper reports the results of a numerical investigation of several turbulent nonpremixed ethylen...
This paper reports the results of a numerical investigation of several turbulent nonpremixed ethylen...
This paper reports the results of a numerical investigation of several turbulent nonpremixed ethylen...
In this paper, turbulent non-premixed CH4+H2 jet flame issuing into a hot and diluted co-flow air...
Two reduced kinetic models, incorporating thermal, N(2)0, NNH as well as HNO/NO2 intermediate routes...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
A numerical investigation of a jet in hot coflow (JHC) burner emulating Moderate or Intense Low-oxyg...
The present paper investigates the role of combustion models and kinetic mechanisms on the predictio...
Two reduced kinetic models, incorporating thermal, N2O, NNH as well as HNO/NO2 intermediate routes, ...
Add to ORKG