Optical Measurements of Soot Size and Number Density in a Spray-Atomized, Swirl-Stabilized Combustor

Wood, C. P.; Samuelsen, G. S.

doi:10.1115/1.3239695

Cited by 16 publications

(2 citation statements)

References 4 publications

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“…Turbo (High Temperature Gas Turbine) programme funded by the Bundesministerium fur Forschung und Technologie (BMFT). Electron microscope picture of a soot sample extracted from with those obtained by Wood and Samuelson [24], who, moreover, found corresponding particle sizes. Additionally, electron microscopy was applied to soot particles which were sampled by means of Nuclepore filters.…”

Section: In Situ Measurements In a Liquid Fuel-fired Atmospheric Combmentioning

confidence: 52%

Multiple Wavelength Extinction Technique for Particle Characterization in Dense Particle Clouds

Dittmann

Feld

Samenfink

et al. 1994

Part & Part Syst Charact

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In utilizing the advantages of extinction measurements in micron and especially submicron particle characterization, the properties of a multiple wavelength extinction technique have been the subject of extended theoretical studies. Furthermore, an experimental set-up was designed which provides high flex-ibility owing to its modular design. The performance of the technique described is demonstrated by a large variety of applications in aerosol and combustion research and in large-scale industrial systems. It was found to be a reliable tool in characterizing dense particulate systems.

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Section: In Situ Measurements In a Liquid Fuel-fired Atmospheric Combmentioning

confidence: 52%

Multiple Wavelength Extinction Technique for Particle Characterization in Dense Particle Clouds

Dittmann

Feld

Samenfink

et al. 1994

Part & Part Syst Charact

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“…Previous studies, for example, demonstrated that dome region mixing is sensitive to the manner by which the fuel is introduced (Charles et al, 1986). As additional evidence of this, the formation and emission of soot particulate has been shown to be strongly influenced by NAF ratio in liquid-fueled model combustors (Wood and Samuelsen, 1985). The geometry of the dome has also been shown to affect mixing (Charles et al, 1986).…”

Section: Parametric Variationmentioning

confidence: 93%

Visualization of Dome Region Mixing in a Quartz Combustor

Brady

Samuelsen

1991

Volume 3: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations

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To improve the performance of gas turbine combustors (i.e. stability and emissions), the process of fuel-air mixing, within the dome region, must be better understood and enhanced. This paper takes a preliminary step by evaluating the influences of nozzle air/fuel ratio, swirl angle, and dome geometry on fuel-air mixing. A model combustor, fabricated from quartz and designed to utilize flow visualization as the primary diagnostic, was operated at atmospheric pressure with JP-4 injected through a twin-fluid (air-assist) atomizer. Photographs of the dome region were acquired for a variation in (1) nozzle air/fuel mass flow ratio from 2.0 to 4.0, (2) swirl angle from 45° to 60°, and (3) the shape of the dome from a dump to a 45° conical expansion configuration. The results show trends of improved mixing for higher nozzle air/fuel ratios as manifested by the improved homogeneity and reduced intermittency of the reaction structure. The effects of dome geometry and swirl strength also affect mixing, with the degree and direction of effect depending on the atomizer operating conditions.

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