This paper examines the effect of air-fuel ratio for Moderate or Intense Low oxygen Dilution (MILD) combustion using a bluff-body burner. Exhaust gas recirculation was used to dilute the oxidizer stream prior to the combustion chamber. A low-calorie biogas fuel which consists of 60% methane and 40% carbon dioxide were used in the simulations using a Reynolds-averaged Navier–Stokes model with the realizable k-epsilon turbulence model. The chamber temperature distribution was found to be in small ranges and almost homogeneously distributed, verifying that MILD conditions were attained. The performance was evaluated based on the level of pollutants (Unburned hydrocarbons (UHC) and carbon-mono oxide (CO)) produced and measured in the exhaust g...
This study investigates the performance of flamelet model technique in predicting the behavior of pi...
The strategy to stabilize distributed combustion regimes adopting cyclonic flow fields has been prov...
This paper discusses the design and development of moderate and intense low oxygen dilution (MILD) c...
This paper examines the effect of air-fuel ratio for Moderate or Intense Low oxygen Dilution (MILD) ...
Economical fuel cost is very critical in the heating industry. Lean combustion with high...
Air Fuel Ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will re...
Air fuel ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will re...
Cleaner and more efficient combustion processes are demanded by the combustion industry due to fuel ...
WOS: 000465718100001Distributed combustion is a promising method to obtain more uniform thermal fiel...
Air Fuel Ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will re...
Air fuel ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will re...
This paper discusses the design and development of moderate and intense low oxygen dilution (MILD) c...
This study focuses on the flammability and burning rate of simulated and actual biogas-air mixture f...
The ignition delay of biogas in mixing layers is investigated using a one-dimensional combustion mod...
The ignition delay of biogas in mixing layers is investigated using a one-dimensional combustion mod...
This study investigates the performance of flamelet model technique in predicting the behavior of pi...
The strategy to stabilize distributed combustion regimes adopting cyclonic flow fields has been prov...
This paper discusses the design and development of moderate and intense low oxygen dilution (MILD) c...
This paper examines the effect of air-fuel ratio for Moderate or Intense Low oxygen Dilution (MILD) ...
Economical fuel cost is very critical in the heating industry. Lean combustion with high...
Air Fuel Ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will re...
Air fuel ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will re...
Cleaner and more efficient combustion processes are demanded by the combustion industry due to fuel ...
WOS: 000465718100001Distributed combustion is a promising method to obtain more uniform thermal fiel...
Air Fuel Ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will re...
Air fuel ratio (AFR) is an important parameter to indicate the combustion quality. Lower AFR will re...
This paper discusses the design and development of moderate and intense low oxygen dilution (MILD) c...
This study focuses on the flammability and burning rate of simulated and actual biogas-air mixture f...
The ignition delay of biogas in mixing layers is investigated using a one-dimensional combustion mod...
The ignition delay of biogas in mixing layers is investigated using a one-dimensional combustion mod...
This study investigates the performance of flamelet model technique in predicting the behavior of pi...
The strategy to stabilize distributed combustion regimes adopting cyclonic flow fields has been prov...
This paper discusses the design and development of moderate and intense low oxygen dilution (MILD) c...