Spray breakup and structure of spray flames for low-volatility wet fuels

Abstract: Studies of high-water-content fuels (a.k.a, wet fuels) have demonstrated that, under proper conditions, stable combustion can be achieved at very high water concentrations. Stable spray flames of wet fuels have been attained with fuel/water mixtures having stoichiometric adiabatic flame temperatures as low as 251 °C. In this study we investigate low-volatility wet fuels, using glycerol as the fuel, and ethanol as a stabilization additive. This study expands on previous work by determining the minimum amount of… Show more

“…The internal nozzle flow influence on spray atomization was investigated by several authors in the past [10,11]. A recent investigation of this topic is presented by Madero and Axelbaum [12] who investigated the fuel spray breakup and structure of spray flames for low-volatility wet fuels. Greenberg [13] investigated the impact of the initial droplet size distribution on the behavior of the edge flame.…”

Numerical Analysis of Fuel Injector Nozzle Geometry - Influence on Liquid Fuel Contraction Coefficient and Reynolds Number

“…The internal nozzle flow influence on spray atomization was investigated by several authors in the past [10,11]. A recent investigation of this topic is presented by Madero and Axelbaum [12] who investigated the fuel spray breakup and structure of spray flames for low-volatility wet fuels. Greenberg [13] investigated the impact of the initial droplet size distribution on the behavior of the edge flame.…”

Numerical Analysis of Fuel Injector Nozzle Geometry - Influence on Liquid Fuel Contraction Coefficient and Reynolds Number

Investigation of the droplet characteristics and size distribution during the collaborative atomization process of a twin-fluid nozzle

Investigation of fuel dilution in ethanol spray MILD combustion