Study on spray combustion characteristics of a high intensity swirl combustor (1st report, Combustion characteristics of kerosene spray)

“…In order to analyze these results, they used flow visualization by spark tracing method for clearing flow patterns, five-hole pitot-tube, and LDA (Laser Doppler Anemometer) system for measuring three time-mean velocities and turbulent characteristics respectively when the swirling numbers change from zero to 1.35 by an axial flow type swirler. Hirai et al (1988) experimentally investigated the combustion characteristics capable of producing high combustion intensity and low environmental pollution to reduce NO x emission from the burning of fine fuel spray formed by the twinfluid atomizer that is generally utilized for an industrial boiler or furnace etc. They clarified that NO x emission was affected by combustion states, burnt gas temperature and O 2 concentrations.…”

Investigation of the three-dimensional turbulent flow fields of the gas swirl burner with a cone type baffle plate (I)

“…In order to analyze these results, they used flow visualization by spark tracing method for clearing flow patterns, five-hole pitot-tube, and LDA (Laser Doppler Anemometer) system for measuring three time-mean velocities and turbulent characteristics respectively when the swirling numbers change from zero to 1.35 by an axial flow type swirler. Hirai et al (1988) experimentally investigated the combustion characteristics capable of producing high combustion intensity and low environmental pollution to reduce NO x emission from the burning of fine fuel spray formed by the twinfluid atomizer that is generally utilized for an industrial boiler or furnace etc. They clarified that NO x emission was affected by combustion states, burnt gas temperature and O 2 concentrations.…”

Investigation of the three-dimensional turbulent flow fields of the gas swirl burner with a cone type baffle plate (I)