This paper presents the computational investigation of the diffusion MILD (Moderate or Intense Low-oxygen Dilution) combustion of firing pulverized-coal at a pilot furnace. Dependences of the combustion performance are examined on the injection parameters, e.g., the fuel injection angle and the separation between the primary and secondary nozzles. Calculations are performed to examine the combustion characteristics, e.g., velocity and temperature distributions, CO and NO emissions, and char burnout. The validation of the modeling is carried out using the experimental measurements of Weber et al. (Proc. Combust. Inst. 30, 30 (2), 2623-2629 2005). Results reveal that an increase in the fuel injection angle or the separation reduces the peak t...
Large quantities of low-volatile coal are utilized in power plants throughout China. With increasing...
Computational flow modeling has been done to study NO(x) formation under laminar flow conditions in ...
Through separating coal pyrolysis and char combustion and letting the pyrolysis gas burn in its pass...
The present work numerically investigates the effects of injection velocities or momenta per unit ma...
The present work numerically investigates the effects of injection velocities or momenta per unit ma...
A numerical study of pulverized coal combustion under Moderate or Intense Low oxygen Dilution (MILD)...
Moderate or Intense Low oxygen Dilution (MILD) combustion is a promising technology that offers high...
Moderate or Intense Low-oxygen Dilution (MILD) combustion has been identified as an innovative techn...
Moderate or Intense Low Oxygen Dilution (MILD) combustion technology has been identified as an innov...
This paper investigates MILD combustion for pulverized coal in order to deepen the applicability of ...
N2O formation/destruction characteristics in pulverized coal combustion especially at low temperatur...
WOS:000377148900028International audienceThis paper presents a series of measurements on pulverized ...
This project involved a systematic investigation examining the effect of near-flame burner aerodynam...
A two-dimensional theoretical model for the flow and combustion of pulverized coal by diffusion flam...
A cost-effective reduction of NO, emission from utility boilers firing pulverized coal can be achiev...
Large quantities of low-volatile coal are utilized in power plants throughout China. With increasing...
Computational flow modeling has been done to study NO(x) formation under laminar flow conditions in ...
Through separating coal pyrolysis and char combustion and letting the pyrolysis gas burn in its pass...
The present work numerically investigates the effects of injection velocities or momenta per unit ma...
The present work numerically investigates the effects of injection velocities or momenta per unit ma...
A numerical study of pulverized coal combustion under Moderate or Intense Low oxygen Dilution (MILD)...
Moderate or Intense Low oxygen Dilution (MILD) combustion is a promising technology that offers high...
Moderate or Intense Low-oxygen Dilution (MILD) combustion has been identified as an innovative techn...
Moderate or Intense Low Oxygen Dilution (MILD) combustion technology has been identified as an innov...
This paper investigates MILD combustion for pulverized coal in order to deepen the applicability of ...
N2O formation/destruction characteristics in pulverized coal combustion especially at low temperatur...
WOS:000377148900028International audienceThis paper presents a series of measurements on pulverized ...
This project involved a systematic investigation examining the effect of near-flame burner aerodynam...
A two-dimensional theoretical model for the flow and combustion of pulverized coal by diffusion flam...
A cost-effective reduction of NO, emission from utility boilers firing pulverized coal can be achiev...
Large quantities of low-volatile coal are utilized in power plants throughout China. With increasing...
Computational flow modeling has been done to study NO(x) formation under laminar flow conditions in ...
Through separating coal pyrolysis and char combustion and letting the pyrolysis gas burn in its pass...