Numerical modeling of distributed combustion without air dilution in a novel ultra-low emission turbulent swirl burner

Abstract: Distributed combustion, often associated with the low-oxygen condition, offers ultra-low NOx emission. However, it was recently achieved without combustion air dilution or internal flue gas recirculation, using a distinct approach called mixture temperature-controlled combustion. Here, the fuel–air stream is cooled at the inlet to delay ignition and, hence, foster homogeneous mixture formation. This numerical study aims to understand its operation better and present a robust framework for distributed combustio… Show more

“…Since the density gradient is relatively low in these regions, the present paper omits the estimation of the reactant dilution ratio, while a numerical result is discussed in Ref. [17]. φ increases with the case number while the mixture mass flow rate decreases.…”

“…Such combustion chambers operate with very low chemiluminescent emission [16], similar to MTC combustion [14]. However, MTC combustion is free from external and internal recirculation while offering ultra-low NO X emission [17]. Consequently, MTC combustion should be compared to traditional swirl burners, which operate with V-shaped flames since they have similar fuel and combustion air inlet conditions.…”

Schlieren Analysis of Non-Mild Distributed Combustion in a Mixture Temperature-Controlled Burner

“…Since the density gradient is relatively low in these regions, the present paper omits the estimation of the reactant dilution ratio, while a numerical result is discussed in Ref. [17]. φ increases with the case number while the mixture mass flow rate decreases.…”

“…Such combustion chambers operate with very low chemiluminescent emission [16], similar to MTC combustion [14]. However, MTC combustion is free from external and internal recirculation while offering ultra-low NO X emission [17]. Consequently, MTC combustion should be compared to traditional swirl burners, which operate with V-shaped flames since they have similar fuel and combustion air inlet conditions.…”

Schlieren Analysis of Non-Mild Distributed Combustion in a Mixture Temperature-Controlled Burner

Investigations of the effect of the primary hole on ignition performance of a three-dome model combustor with RP-3 liquid aviation fuel

Schlieren analysis of non-MILD distributed combustion in a mixture temperature-controlled burner