Advanced combustion technologies, such as MILD, LTC (Low Temperature Combustion) reduce emission of pollutants by controlling system working temperatures to values not critical to promote the formation of several classes of pollutants. To access this temperature range, a significant dilution of reactants is required. At the same time, reactants have to be preheated to sustain the oxidation process. Such conditions are achieved by a strong recirculation of exhaust gases. Such a strategy implies that high contents of CO2 and H2O interact with reactants oxidation chemistry. In order to characterize this aspect of the combustion processes under diluted conditions, experimental tests were carried out for methane/oxygen mixtures in presence of N2...
The reduction of pollutants emission, such as NOx and soot, can be achieved by lowering and controll...
The diluted combustion regime is studied with a non-premixed counter flow flame, in which methane an...
The main process parameters affecting combustors of all types are analyzed in the range of interest ...
Advanced combustion technologies, such as MILD, LTC (Low Temperature Combustion) reduce emission of ...
Advanced combustion technologies, such as MILD, LTC (Low Temperature Combustion) reduce emission of ...
The use of advanced combustion technologies (MILD, oxy-fuel combustion) is among the most promising ...
Strict environmental rules endorse moderate or intense low oxygen dilution (MILD) combustion as a pr...
ABSTRACTStrict environmental rules endorse moderate or intense low oxygen dilution (MILD) combustion...
The oxidation process of CH4/O2 mixtures diluted in CO2 under moderate or intense low-oxygen dilutio...
The oxidation process of CH4/O2 mixtures diluted in CO2 under moderate or intense low-oxygen dilutio...
In the current study the effect of CO2 dilution on reaction kinetics was studied numerically in a me...
The experimental and numerical investigation of oscillatory behaviors in methane MILD combustion is ...
The influence of the addition of ammonia on the oxidation of methane was investigated both experimen...
Clean combustion technologies, based on reactant dilution, have shown very peculiar and innovative c...
The reduction of pollutants emission, such as NOx and soot, can be achieved by lowering and controll...
The diluted combustion regime is studied with a non-premixed counter flow flame, in which methane an...
The main process parameters affecting combustors of all types are analyzed in the range of interest ...
Advanced combustion technologies, such as MILD, LTC (Low Temperature Combustion) reduce emission of ...
Advanced combustion technologies, such as MILD, LTC (Low Temperature Combustion) reduce emission of ...
The use of advanced combustion technologies (MILD, oxy-fuel combustion) is among the most promising ...
Strict environmental rules endorse moderate or intense low oxygen dilution (MILD) combustion as a pr...
ABSTRACTStrict environmental rules endorse moderate or intense low oxygen dilution (MILD) combustion...
The oxidation process of CH4/O2 mixtures diluted in CO2 under moderate or intense low-oxygen dilutio...
The oxidation process of CH4/O2 mixtures diluted in CO2 under moderate or intense low-oxygen dilutio...
In the current study the effect of CO2 dilution on reaction kinetics was studied numerically in a me...
The experimental and numerical investigation of oscillatory behaviors in methane MILD combustion is ...
The influence of the addition of ammonia on the oxidation of methane was investigated both experimen...
Clean combustion technologies, based on reactant dilution, have shown very peculiar and innovative c...
The reduction of pollutants emission, such as NOx and soot, can be achieved by lowering and controll...
The diluted combustion regime is studied with a non-premixed counter flow flame, in which methane an...
The main process parameters affecting combustors of all types are analyzed in the range of interest ...
Add to ORKG